WATER AND SANITATION PROGRAM: TECHNICAL PAPER 81293 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic A six-country study conducted in Cambodia, China, Indonesia, Lao PDR, the Philippines and Vietnam under the Economics of Sanitation Initiative (ESI) August 2013 The Water and Sanitation Program is a multi-donor partnership administered by the World Bank to support poor people in obtaining affordable, safe, and sustainable access to water and sanitation services. THE WORLD BANK Water and Sanitation Program East Asia & the Pacific Regional Office Indonesia Stock Exchange Building Tower I, 9th Fl. Jl. Jend. Sudirman Kav. 52-53 Jakarta 12190 Indonesia Tel: (62-21) 5299 3003 Fax: (62 21) 5299 3004 Water and Sanitation Program (WSP) reports are published to communicate the results of WSP’s work to the development community. Some sources cited may be informal documents that are not readily available. 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For more information, please visit www.wsp.org. © 2013 International Bank for Reconstruction and Development / The World Bank The World Bank 1818 H Street NW Washington DC 20433 Telephone: 202-473-1000 Internet: www.worldbank.org Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic A six-country study conducted in Cambodia, China, Indonesia, Lao PDR, the Philippines and Vietnam under the Economics of Sanitation Initiative (ESI) Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic Executive Summary A. INTRODUCTION Lao PDR has made significant strides in improving access to sanitation facilities in recent years. The JMP reports that Access to improved sanitation is a major concern in the Lao the proportion of the population with access to improved People’s Democratic Republic (PDR). Recent estimates sanitation increased by 18% between 2005 and 2010 alone, from the Joint Monitoring Programme for Water Supply from 45% to 63%, nationwide, exceeding the MDG target and Sanitation (JMP) of the World Health Organization of 54% access to improved sanitation. However, many chal- (WHO) and the United Nations Children’s Fund (UNI- lenges remain in terms of improving access. Recent studies CEF) show that only 63% of the population of the country by Baetings and O’Leary (2010) and Giltner et al. (2010) had access to improved sanitation facilities in 2010. Sanita- show that sanitation has received little attention from gov- tion conditions are worse in rural areas, where only 50% of ernment and continues to take a low priority compared to the population had access to improved facilities and about 3 water supply. Apart from limited funding, there are also out of 10 people still practice open defecation. Within rural coordination issues among the many government agencies areas, access to improved sanitation also varies widely be- involved in sanitation. The two studies mentioned above tween those that have and do not have roads. Hutton et al. assert that the “interface between [government] agencies is (2009) cited the Multiple Indicator Cluster Survey (MICS) not clearly articulated” (Giltner et al., 2010, p. 15) and it is III, which found that 39% of rural households with access not clear which agency is ultimately responsible for sanita- to roads also had access to improved sanitation facilities. tion. This was more than 2 times higher than rural households that did not have roads. There is also a wide discrepancy in B. STUDY AIMS AND METHODS access to improved sanitation at the provincial level. Based on the 2011 Lao Social Indicator Survey, fewer than 4 out This study aims to generate evidence on the costs and ben- of 10 people in the provinces of Saravane, Phongsaly, At- efits of sanitation improvements in different contexts in Lao tapeu and Sekong had access to improved sanitation. This PDR. Conducted with a view towards identifying the most stands in contrast to Vientiane Capital where coverage rates economically efficient options under different conditions, are close to 100%. it seeks to contribute to improved decision making by gov- ernment, donor agencies, non-government organizations The low rate of access to improved sanitation imposes a (NGOs) and other institutions. heavy burden on the Lao economy. A previous phase of the Economics of Sanitation Initiative (ESI) estimated the The study quantified the costs and benefits associated with overall economic cost of poor sanitation in the country to various sanitation options in different study sites. The ben- be in the order of US$193 million (at 2006 prices) per year, efits included the impacts on health, water sources and or the equivalent of 5.6% of gross domestic product (GDP) water treatment practices, and access time. The costs in- (Hutton et al., 2009). This translates to about US$34 per cluded both the investment and recurrent costs associated person per year, and approximately 60% of these losses with ensuring sustained delivery of each sanitation option. were attributable to health-related costs. The costs and benefits of the sanitation options were syn- www.wsp.org iii Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Executive Summary thesized using standard indicators of economic efficiency. Table A shows the sanitation interventions that were exam- These indicators included the benefit-cost ratio, net pres- ined in each of the study sites. In the analysis, the benefits ent value, internal rate of the return, and payback period. from the interventions were compared against a baseline Cost-effectiveness ratios – cost per disability-adjusted life of open defecation, and different rungs on the sanitation year (DALY) averted, cost per disease case averted and cost “ladder”. It is important to note that there is currently no per death averted – were also calculated. sewerage system that treats wastewater in Lao PDR. Hence, the economic efficiency of a sewerage system with treated C. DATA SOURCES AND STUDY SITES wastewater was modeled for Vientiane Capital using cost data from ESI studies in other countries. The study used primary and secondary sources of data in its analysis. The instruments for the primary data collec- Additional surveys were implemented to explore the im- tion included household surveys and focus group discus- pacts of inadequate sanitation outside the community level sions (FGD). These surveys were implemented in selected and the economy as a whole. A tourist survey was con- villages and localities of the following sites: ducted at Wattay International Airport in Vientiane and in selected tourist locations in Vientiane Capital in order • Site 1: Chantabouly District, Vientiane Capital to explore how international holiday and business visitors • Site 2: Xaythany District, Vientiane Capital were affected by poor sanitation in Lao PDR. A survey of • Site 3: Meun District, Vientiane Province selected firms in Vientiane Capital was also implemented to • Site 4: Nam Bak District, Luang Prabang Province explore how poor sanitation affects business activity. • Site 5: Nan District, Luang Prabang Province • Site 6: Champone District, Savannakhet Province D. MAIN ECONOMIC ANALYSIS RESULTS To supplement and triangulate the data collected from The key finding of the study is that there are net benefits as- field sites, and to fill key gaps in information, further sociated with all of the interventions evaluated. The benefit- evidence was collected from international and local litera- cost ratios (BCRs) were greater than one for all interven- ture, project and government documents and surveys, and tions (Figure A), suggesting that the monetized gains exceed data from various institutions. The opinions of experts in every kip that is spent on the intervention. For example, the local sanitation sector were also solicited to validate dry pit latrines in rural areas had a BCR of 9.0. This means data, and fill in knowledge gaps from primary or second- an average return to society of 9 kip for every kip that is ary sources. invested in dry pit latrines in rural areas. Rural areas (Sites TABLE A. SANITATION OPTIONS COMPARED IN THE STUDY SITES Site Option 1 2 3 4 5 6 Urban Urban Rural Rural Urban Rural Open defecation       Shared: Wet pit a    Shared: Toilet to septic tanka   Dry pit latrine   Wet pit latrine       Toilet to septic tank    Toilet to sewer (with treatment)  a Refers to facilities that are used by two or more households. iv Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Executive Summary 2, 3, 4 and 6) with higher BCRs than urban areas showed reason for these seemingly contradictory results is that the most favorable results for wet and dry pit latrines. On the BCRs for private wet pit latrines were substantially the other hand, wet pit latrines showed the most favorable lower in Sites 4 and 6, which reduced the average BCR indicators for urban areas (Sites 1 and 5). Toilets with access for such facilities. to septic tanks facilities had the least favorable BCRs for rural and urban areas. The relatively high BCRs for wet and The study also estimated cost-effectiveness ratios, which are dry pit latrines in rural and urban sites were due to their focused mainly on the health impacts of the sanitation op- relatively low investment and recurrent costs. tions. Figure B summarizes the key results using the cost per DALY averted under each option. It indicates that the low- While it is not shown in Figure A, the findings are sensi- est costs per health unit gained were for dry pit latrines in tive to site-specific conditions. In Site 2, which is clas- rural areas (5 million kip or US$607 at the 2010 exchange sified as rural, the BCR for private wet pit latrines was rate of 8,259 kip per US$), and for wet pit latrines in urban higher than that for shared wet pit latrines. This pat- areas (9.9 million kip or US$1,193). Where applicable, cost tern is contrary to the average for rural sites (Figure A) per DALY was also lower for shared facilities compared to where shared wet pit latrines had the highest BCR. The private facilities. FIGURE A. BENEFIT-COST RATIOS IN THE RURAL AND URBAN SITES, IDEAL SETTINGª 10.4 Wet pit latrine Shared 6.0 facilities 3.6 Toilet to septic tank 2.2 9.0 Dry pit latrine 7.8 Wet pit latrine Private 6.2 facilities 4.1 Toilet to septic tank 2.3 Toilet to sewer 3.1 0 2 4 6 8 10 12 Rural Urban Note: a Dry pit latrines were not evaluated in urban sites, while toilets with access to sewer facilities were not evaluated in rural sites. Source: Author’s calculations. FIGURE B. COST PER DISABILITY-ADJUSTED LIFE YEAR (DALY) AVERTED IN RURAL AND URBAN SITES, IDEAL SETTING, MILLION KIP PER HOUSEHOLDª 6.9 Wet pit latrine 9.9 Shared 25.3 Toilet to septic tank 26.1 facilities 5.0 Dry pit latrine 7.9 Wet pit latrine 16.0 Private 33.4 Toilet to septic tank facilities 28.8 Toilet to sewer 53.8 0 10 20 30 40 50 60 Rural Urban million kip Note: a See notes to Figure A. Source: Author’s calculations. www.wsp.org v Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Executive Summary The findings discussed above have several key implications toilets regularly; (b) not all toilet facilities fully isolate water for sanitation decision makers. First, it pays to invest in from human excreta; and (c) households continue to practice sanitation improvements. Every intervention at every site boiling water despite having access to improved sanitation. showed economic returns that exceeded investment and re- The last point captures the fact that poor sanitation and/or current costs. Second, low-cost sanitation options (wet and the absence of centralized facilities for the treatment of water dry pit latrines) deliver relatively high economic benefits for in some sites are not the only source of water contamination. every kip that is invested compared to septic tanks and sew- erage with treatment. This finding is especially important It is important to note some limitations of the analysis. First, to consider in situations where investment funds for sanita- sites had different types of facilities. This means that some tion improvements are scarce. Third, cost-effectiveness ra- care must be exercised in interpreting averages of results tios are also lower for wet and dry pit latrines compared to between the two sets of interventions because of inter-site toilets that have access to septic tanks – hence from a health variation. Second, the quantitative analysis did not include perspective, the focus should be on ensuring basic access for a number of benefits associated with improved sanitation. the entire population before moving populations further These benefits, which are very difficult to determine in mon- up the sanitation ladder (i.e. to septic tanks or sewerage). etary units, include impacts on the environment, tourism, Fourth, the results reinforce the widely held belief that the business, and intangible aspects (comfort, prestige, privacy, viability of a sanitation option is sensitive to site-specific convenience and safety). While these impacts were analyzed conditions. This is partially supported by the differences qualitatively, their potential impact on the quantitative esti- between the efficiency indicators across rural and urban ar- mates should not be ignored. For example, the importance eas. Within rural and urban areas, the absolute and relative of privacy, convenience and safety are likely to raise the ben- values of the options also vary by site. efits of toilets that are located within or very near the house. Similarly, the ability to quantify the benefits associated with The results presented above reflect ideal conditions. How- comfort and prestige are likely to raise the net gains associ- ever, the benefits under such conditions may not be fully ated with toilets that flush to septic tanks. The BCRs associ- realized in the absence of changes in hygiene behavior and ated with toilets that have access to wastewater and treatment in the use of the facilities in actual settings. Figure C shows facilities may also be higher if their environmental benefits BCRs in actual settings. The lower BCRs for actual settings are fully accounted for in the analysis. Such estimates are also compared to ideal settings were generally driven by findings likely to become more favorable if the cleaner environment in the sites that: (a) not all household members use improved results in higher tourism revenues and lower business costs. FIGURE C. BENEFIT-COST RATIOS UNDER IDEAL AND ACTUAL SETTINGS, BY INTERVENTION 3.0 Toilet to septic tank 3.2 Private 6.3 Wet pit latrine facilities 7.0 Dry pit latrine 7.2 9.0 Toilet to septic tank 2.8 Shared 2.9 facilities Wet pit latrine 7.5 8.2 0 2 4 6 8 10 Actual setting Ideal setting Source: Author’s calculations. vi Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Executive Summary E. DISAGGREGATED RESULTS (US$134) for toilets with access to sewers in urban areas. There are also cost differences between rural and urban sites The following paragraphs discuss the detailed results of the for similar types of intervention. For example, private wet pit study. Sub-sections E1 to E4 summarize the key inputs to latrines in rural areas were slightly cheaper than their coun- the cost-benefit analysis. Sub-sections E5 to E8 present the terparts in urban areas. Cost differences for a particular tech- results from the qualitative analysis, and the tourism and nology are accounted for by variations in the materials used business surveys. for construction and prices across the sites. E1. COSTS OF INTERVENTIONS Annualized investment costs accounted for a larger propor- Data on investment and recurrent costs per household were tion of the (annual) total costs in all interventions. The share compiled and estimated for each intervention. Recurrent of investment costs as part of total cost also varies across tech- costs are annual expenditures on the operation and mainte- nologies and sites, and were estimated as follows: shared wet nance of the facilities. Investment costs, which were annual- pit latrines (72-73% in rural and urban sites); shared toilets ized for comparability across interventions and with recur- (47% in urban sites and 54% in rural sites); dry pit latrines rent cost, represent the expenses involved in constructing (100% in rural sites); private wet pit latrines (81-83% in ru- and installing the facilities. For toilets that have access to ral and urban sites); toilets with access to septic tanks (67% treatment facilities (wastewater treatment, septage treat- in rural and urban sites); and toilets with access to sewers ment and sewers), the costs combine the expenses incurred (64% in urban site). Most of the costs are shouldered by for the toilet and the treatment facilities. It is important households.1 The largest contribution from non-household to note that the costs do not include expenses for sanita- sources was 16% of the investment cost from donor agencies tion software, such as program management and behavior for private wet pit latrines in rural areas. The rather small change communication, because of the lack of information average contribution of donor agencies is explained by the available from projects. fact that most of the households in the sample did not get any support from donor agencies or the government. For Figure D shows the estimated annual costs per household of households that received toilets through donor programs, various sanitation options, with both investment and recur- the share of household contributions to investment costs was rent costs included. It indicates a wide divergence in the cost of course much smaller. For example, excluding the value of of the various options, ranging from 184,000 kip (US$22) labor, households that received private wet pit latrines from for shared wet pit latrines in urban areas to 1.11 million kip donors in Site 3 only contributed about 15% of total costs. FIGURE D. ANNUAL ECONOMIC COST PER HOUSEHOLD OF SANITATION OPTIONS, THOUSAND KIP Toilet to sewer 1,113.4 Toilet to septic tank 815.8 Private 815.8 facilities 267.6 Wet pit latrine 306.5 245.2 Dry pit latrine 586.2 Toilet to septic tank 507.1 Shared facilities 190.7 Wet pit latrine 184.1 0 200 400 600 800 1000 1200 Rural Urban thousand kip Source: Author’s calculations. 1 This does not apply to toilets that have access to treated sewers, because there were no households which actually fitted into this category of facilities. www.wsp.org vii Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Executive Summary E2. HEALTH BENEFITS E3. WATER BENEFITS Health benefits are based on the averted costs of diseases as- Water benefits were based on the premise that poor sanita- sociated with poor sanitation. The diseases included in the tion contributes to water pollution. Pollution in turn alters study were diarrhea, helminths, and malnutrition-related the behavior of households by forcing them to obtain water diseases such as malaria, acute lower respiratory infection from more expensive sources and to practice water treat- (ALRI) and measles.2 Using information from the interna- ment at household level. The cost of obtaining drinking wa- tional literature and survey sites, the study estimated the ter goes beyond financial costs (e.g. the price paid for bot- costs in terms of health care (treatment and medication), tled water or piped water supply); it also includes hauling productivity (lost productive time for sick people and their costs associated with traveling to more distant sources that carers) and premature death (the value of life approximated are perceived to be cleaner than nearer sources. The house- using the ‘human capital approach’ – see methodology in hold survey provided some support to the asserted link be- main text). As a whole, annual health-related costs were es- tween pollution and household behavior. At least 80% of timated to be in excess of 1.19 million kip (US$144) per piped and non-piped protected water users cited quality as household in both rural and urban sites (Figure E). Losses one of the main reasons for their choice of water source. Of in rural areas, especially with regard to health care, were the respondents relying on water from unprotected sources, generally higher than that in urban areas. about 74% said that the absence of safer alternatives was the reason for their use of such sources. In the study, averted health costs depended on the sani- tation option available to households before and after the Water benefits were calculated by assuming that house- intervention. For rural households that initially practiced holds – once sanitation is considerably improved in their open defecation, the projected gain from an intervention community – might seek less expensive water sources (in that provides access to basic improved sanitation facilities terms of both financial and hauling), and/or practice less was slightly more than 720,000 kip (US$87) per house- expensive water treatment, or abandon water treatment. hold. For urban households that already had access to basic The estimated changes were less significant compared to improved sanitation, the provision of access to treatment health benefits. Projected annual savings for more conve- facilities was estimated to cause benefits that were approxi- nient water sources that can be used for drinking water were mately 23% of the baseline health costs. approximately 21,000 kip (US$3) per household. Savings FIGURE E. ANNUAL HEALTH COST PER HOUSEHOLD IN of 38,000 kip (US$5) were estimated for the lower require- RURAL AND URBAN SITES, THOUSAND KIP ments associated with water treatment. 1,379.8 Healthcare E4. ACCESS TIME SAVINGS 773.1 Households that practice open defecation or only have access 193.0 to shared toilets incur costs not experienced by those who Productivity have access to private and close-at-hand toilets. These costs 244.4 are the time spent traveling to and from a place for defeca- Premature 217.0 tion or waiting in a queue before using the toilet in the case death 177.0 of those who use community and shared toilets. Such costs are also incurred by people who accompany children to a 1,789.9 place of defecation. The survey confirmed that households Total 1,194.4 recognize the value of the time that is lost by accessing toilets. Almost all (at least 97%) of the respondents who do not have Rural 0 500 1000 1500 2000 access to private latrines said that proximity is an important Urban thousand kip argument for having a private toilet. A large proportion (at Source: Author’s calculations. least 75%) of households who already had access to private 2 A more detailed explanation of the links between sanitation and these diseases is provided in Annex A of Hutton et al. (2008). viii Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Executive Summary toilets also claimed the proximity of their current facilities households that have toilets, was the absence of animal ex- was an important reason for getting one. creta in the streets or village. The amount of time lost in accessing off-plot shared or public The most common reasons cited by households for not toilets or open defecation sites was found to be significant. having toilets were high costs and that the households had From the household survey, an adult loses about 21 minutes/ never been offered a toilet. The main reason for households day while a child loses about 13 minutes per day. This implies having a toilet was that they were provided or supported approximately 22 days lost per household per year and trans- by projects. These results suggest that apart from reasons of lates into annual costs of about 1.08 million kip (US$130) poverty, household decision-makers in the study sites seem per household in both rural and urban sites. While the esti- to be waiting for interventions from the government and mated losses from rural and urban sites are very close to each other development partners, rather than investing in sanita- other, the sources of these costs are quite different. Annual tion on their own. time losses in rural areas (31 days/household) were found to be close to 2 times as much as in urban areas (18 days/house- The seeming reliance on government and other develop- hold). However, incomes, and therefore opportunity costs, in ment partners for access to sanitation facilities may reflect urban areas were higher than in rural areas. It is important to a lack of awareness of the benefits of sanitation and that note that the estimates are conservative for two reasons. First, these benefits can be acquired even with low-cost sanitation the costs only cover losses associated with time spent access- options. However, households that do not have access to ing place of defecation (slightly over once a day on average), toilets are aware of some benefits of such facilities. When and not urination – which requires several trips per day. The asked why they may want to get a toilet, respondents cited: extent to which this omission understates the true losses is (a) proximity; (b) privacy; (c) not needing to share toilets difficult to determine because there are no existing estimates with other households; (d) cleanliness and freedom from of the time spent accessing a place to urinate. Second, oppor- unpleasant odors; and (e) a comfortable toilet position as tunity costs for adults and children in the entire study were important reasons to acquire toilets. More than half of the valued at 30% and 15% of estimated province-specific GDP respondents without toilets also expressed concerns about per capita per day, respectively. Estimated losses in terms of safety when their children defecate in the open. accessing toilets, and health-related productivity losses, will be much higher if such costs are valued at the full amount The respondents in the household survey were asked about (100%) of GDP per capita per day. their level of satisfaction with existing facilities, given a set of attributes to rank between 1 (not satisfied) and 5 (very E5. INTANGIBLE BENEFITS OF SANITATION satisfied). The survey found that households with access to OPTIONS improved sanitation are satisfied, but not very much, with Information on the intangible aspects of sanitation was gen- their toilet options, with average satisfaction ratings ranging erated by a household survey and FGDs. These instruments from 2.9 to 3.3. Households without access to improved were used to obtain the perceptions, opinions and prefer- sanitation had a lower level of satisfaction, with ratings ences of a representative section of the communities covered ranging from 1.9 to 2.5, based on their current “facilities”. in the study sites. The process yielded four sets of results: (a) Differences in the level of satisfaction between households the respondents’ understanding of sanitation; (b) reasons for with and without toilets were largest for attributes associ- sanitation coverage; (c) satisfaction with the current sanita- ated with: (a) avoiding snakes and insects; (b) using the toi- tion option; and (d) for those without a toilet, reasons to get let when it is raining; (c) feeling good about inviting guests a toilet and the desired characteristics of a toilet. to the house; (d) pride associated with toilet ownership; (d) proximity of toilets; (e) privacy; (f ) cleanliness; and (g) The FGDs revealed that the most common understand- comfort. Most of these attributes are difficult to quantify in ing of sanitation is cleanliness inside and around houses. monetary terms, suggesting that the BCRs presented in the Another common response, particularly among females in study are lower than these should be. www.wsp.org ix Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Executive Summary E6. EXTERNAL ENVIRONMENT and natural sites. However, the respondents assessed that The external environment refers to the impact of inadequate general sanitation conditions can still stand some improve- isolation of excreta on the environment, and is not related ment, especially in Vang Vieng.3 Toilet availability in public to toilet access. It also excludes water pollution, which was places appears to be a serious concern. Close to half (46%) covered in a separate component of the study. One objective of the respondents said that, when outside their hotel, they here is to get a sense of how the respondents perceived the could not find a toilet at a time of need. overall state of sanitation in their community. In this regard, the respondents gave the impression that their respective About a fifth (19%) of the respondents admitted to having environments were quite good but could still be improved. experienced gastrointestinal problems during their stay. On Households were asked to rank different causes of environ- average, affected visitors were incapacitated for about half a mental pollution on a scale of 1 (very high pollution) to 5 (no day but felt the symptoms for slightly more than two days. pollution). For pollution from human excreta, an average rat- This is a cost to tourism. The amount that visitors could ing of 3.6 was given by the respondents to the aspect of smell have spent during those days of illness represents foregone from sewage/defecation and waste. An overall environmental earnings for the tourism industry. assessment of 3.7 was given. The poorest environmental rat- ing was for the presence of smoke from burning waste (3.4). Despite the incidence of illness and related concerns with respect to sanitation, nearly 9 in 10 visitors (87%) expressed Households with access to improved sanitation also con- an intention to return to the country. Furthermore, 95% of tribute to the pollution of their local communities. The the respondents said that they would recommend the coun- survey found that about 14% of households with access to try as a tourist destination to friends. toilets still practiced open defecation. Moreover, the prac- tice appears more common in rural areas. E8. BUSINESS BENEFITS Poor sanitation has the potential to influence the operation E7. TOURISM BENEFITS of firms and the decisions of businesses to locate in par- Whether or not tourists decide to visit or return to a coun- ticular areas. These links were assessed through face-to-face try might be sensitive to sanitation conditions such as qual- interviews with 17 owners/managers of firms in Vientiane ity of water resources, quality of the environment, food Capital. These firms were engaged in activities that are like- safety, availability of toilets in public places and health risks. ly to be influenced by sanitation conditions, including food While such impacts were not directly quantified, the study and beverage production, restaurants, hotels, travel agencies conducted a survey of foreign visitors at the departure gate and the production of pharmaceutical products. of the international airport and in selected sites in Vientiane Capital. The focus of the exercise was to find out how sani- The business owners and managers were asked to rate different tation in Lao PDR affected the perceptions of tourists and aspects of sanitation in their areas of operation. On a rating the overall quality of their stay in the country. The results scale of 1 (best) to 5 (worst), the most favorable average rat- could be significant to Lao PDR in light of the importance ings were given to the water quality of rivers (2.4), air quality of tourist revenues to the economy. To illustrate, the World from human excreta (2.6) and household coverage with pri- Travel and Tourism Council (WTTC, 2011) estimated vate toilets (2.6). In contrast, the least favorable ratings were tourism and travel to generate a direct contribution of 2.7 given to the presence of toilets in public places (4.2). trillion kip (4.3% of GDP) and 105,300 jobs (3.6% of total employment) in 2011. None of the respondents said that sanitation-related condi- tions were a factor in their choice of location. In this regard, The survey found that visitors enjoyed their stay in Lao PDR the most common responses were on the proximity to tar- as a whole. This was particularly the case for Luang Prabang get markets and the presence of business opportunities. 3 Vang Vieng is a small town located between Vientiane and Luang Prabang that is very popular among backpackers and low-budget travelers. It is currently being developed to target visitors from higher-end markets. x Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Executive Summary While sanitation did not appear to be a serious consider- 10 people (37%) in the country did not have access to im- ation in the location of firms, the study found evidence that proved sanitation facilities. This is further supported by evi- it has an effect on business operations. All respondents cited dence that the economic costs of poor sanitation are large. that poor water quality could have a serious impact on their business, suggesting an indirect link between sanitation and Based on the findings, the study recommends the follow- business operations. The importance of clean water to busi- ing: ness operations is also reflected in the finding that 7 out of 11 responding firms said that they spent money on wa- 1. Increase access to improved sanitation in rural ter treatment.4 Water treatment costs, which ranged from areas. Data from the JMP show that access to im- US$10 to US$2,000 per month, were heavily influenced by proved sanitation is lower in these areas. Moreover, the size of the firms and the scale of their operations. about half of the rural population continues to prac- tice open defecation. The stronger emphasis on in- As a whole, the respondents did not appear to place much vestment in rural areas is also supported by the find- importance on the effect of the surrounding environment ing that the net returns to sanitation investments, at on their business. When asked to rate the impacts of a poor least from the perspective of the BCRs, are higher in environment on their customers, current recruitment and these areas compared to those in urban areas. This stakeholders on a scale of 1 (not important) to 5 (very im- recommendation does not suggest abandoning ef- portant), the highest average rating was given by foreign- forts to increase access to improved sanitation in owned beverage firms (3.5). However, the firms admitted to urban areas. For one, 11% of the urban population spending amounts ranging from US$12 to US$1,750 per in 2010 did not have access to improved sanitation. month on cleaning their surroundings.5 Among the most However, investment in urban areas may have to go common measures taken by firms to deal with poor envi- beyond latrines and more into off-site treatment fa- ronmental conditions were the introduction of cleaning cilities. procedures and the training of staff in hygiene. 2. Focus on least expensive solutions with highest benefits. Achieving economic benefits from increased F. RECOMMENDATIONS access to improved sanitation does not require expen- sive toilet facilities. This study found that the highest The major finding of this study is that all interventions eval- net returns were for wet and dry pit latrines in rural uated have benefits that exceed costs, when compared with areas, and wet pit latrines in urban areas. While the open defecation. The high net benefits of low-cost sanita- study does not provide clear evidence that shared toi- tion options, such as wet pit latrines in urban areas, and wet lets have higher BCRs than private toilets, these fa- and dry pit latrines in rural areas, also suggest that these cilities should not be disregarded altogether. For one, technologies should be at the center of national plans for shared toilets were still found to be economically fea- sanitation improvements, especially where funds are scarce. sible (their economic benefits exceed investment and The net benefits of sanitation interventions also vary con- recurrent costs) despite the fact that users of these op- siderably from one site to the next. This suggests a careful tions still incur time losses and are less likely to realize consideration of site conditions before interventions are the health benefits, especially when facilities are not implemented. maintained very well. Where space and funds are se- riously constrainted, these facilities may continue to While not directly drawn from the study, it is important to offer a practical option until private facilities can be emphasize that there is an urgent need to increase access to made available to households. However, some consid- improved sanitation in Lao PDR. This can be seen clearly eration must be given to the demand of the commu- from JMP statistics for 2010, which indicate that about 4 in nity for such facilities. 4 The other six firms did not respond to the question on water treatment practices. 5 The values were sensitive to firm size and scale of operations. www.wsp.org xi Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Executive Summary 3. Promote equitable access to improved sanitation. 1. Generating reliable site-specific and age-group-spe- The government, donor agencies and other institu- cific incidence and mortality rates for sanitation- tions will continue to have an integral role in increas- related diseases such as diarrhea and helminths. The ing access to improved sanitation. Information from value of statistical life estimates associated with poor the World Bank shows that one third of the Lao pop- sanitation in Lao PDR will also enhance estimates of ulation lives on less than 1.25 International Dollars the value of premature death. per day, and two-thirds live on less than 2 Interna- 2. Establishing rigorous and site-specific quantitative tional Dollars per day. Many of the households with links between sanitation and: (a) disease incidence no access to improved sanitation facilities are likely (attribution factors); (b) tourism; (c) water use and to belong to this segment of the population. This ar- access; (d) water quality; and (e) business activity. gument is further supported by the FGD findings, 3. Establishing stronger evidence on the performance where respondents cited economic factors (e.g. cost of projects from post-project evaluations, including is too high), for not having a toilet. However, some several years after the project, to assess sustainability. care must be exercised interpreting the perceived high If project managers know that sustainability will be costs, and in the manner in which institutions par- assessed several years after the project has withdrawn, ticipate in improving access to improved sanitation. greater attention will be given to promoting differ- The field research conducted in this study found that ent aspects of sustainability (e.g. financial, behavior respondents in all sites cited “never offered a toilet” as change, infrastructure quality and maintenance). a reason for not having one. This response creates the 4. Making the necessary further attempts to quantify impression that households seem to be waiting for an the intangible benefits (e.g. comfort, prestige, dig- intervention rather than trying to address sanitation nity and privacy) and environmental benefits of im- problems on their own, and are perhaps not aware proved sanitation and the importance of these ben- of the fact that low cost options are as beneficial to efits to household or community willingness to pay them. Along with the finding that only half of the re- for sanitation. spondents in the survey claimed to have washed their 5. Selecting between the specific sanitation technolo- hands after defecating, this underscores the need for gies and software options. Decision makers must evidence-based behavior change approaches that em- know the initial conditions of the target beneficia- phasize the potential benefits of improved sanitation. ries. Such an understanding is essential to increasing the success and sustainability of the option that is This study is an initial attempt to generate an economic chosen. This is supported by the study findings that evidence base in Lao PDR and to examine how evidence an option could have divergent efficiency indicators can be practically applied to sanitation decision making. A in different sites. From the perspective of project im- handful of projects and sites were selected for the analysis; plementers, this underscores the need for pre-project hence, it does not provide an exhaustive assessment of the assessments. On the other hand, the government can economics of sanitation in the country. Several data inputs help project implementers by strengthening infor- were based on non-site specific data, and for some impacts mation systems in potential project sites. there was limited quantitative assessment and monetization of the benefits. Therefore, further research is needed on the potential impacts of poor sanitation and on the efficiency of sanitation interventions. Such research is needed in: xii Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Executive Summary www.wsp.org xiii Foreword In its recognition of sanitation as a key aspect of human de- that the economic costs of poor sanitation, valued at 2006 velopment, Goal 7 of the Millennium Development Goals prices, are US$193 million per year, or the equivalent of includes access to safe sanitation: “to reduce by half between 5.6% of gross domestic product for Lao PDR. These and 1990 and 2015 the proportion of people without access to other results were disseminated to national policy makers, improved sanitation.” This reflects the fact that access to sector partners, and decentralized levels of the country. improved sanitation is a basic need: at home as well as at the workplace or school, people appreciate and value a clean, The current volume reports the second major activity of ESI, safe, private and convenient place to urinate and defecate. which examines in greater depth the costs and benefits of Good sanitation also contributes importantly to achieving specific sanitation interventions in a range of field settings in other development goals such as child mortality reduction, Lao PDR. The purpose is to provide information to decision school enrollment, improved nutritional status, gender makers on the impact of their decisions relating to sanitation equality, clean drinking water, environmental sustainability – to understand the costs and benefits of improved sanita- and the quality of life of slum dwellers. tion in selected rural and urban locations, and to enable a better understanding of the overall national level impacts of Despite its recognized importance, sanitation continues to improving sanitation coverage in Lao PDR. On the cost side, lose ground to other development targets when it comes decision makers and stakeholders need to understand more to priority setting by governments, households, the private about the timing and size of costs (e.g. investment, operation sector and donors. This fact is hardly surprising given that and maintenance), as well as financial versus non-financial sanitation remains a largely taboo subject; neither is it an costs, in order to make appropriate investment decisions that “attractive” subject for media or politicians to promote as a increase intervention effectiveness and sustainability. On the worthy cause. Furthermore, limited data exist on the tangible benefit side, monetary and non-monetary impacts need to development benefits for decision makers to justify making be more fully understood in advocating for improved sani- sanitation a priority in government or private spending plans. tation as well as making the optimal sanitation choice. For cost-benefit estimation, a sample of sites representing differ- Based on this premise, the World Bank’s Water and Sanita- ent contexts of Lao PDR was selected to assess efficiency of tion Program (WSP) is leading the “Economics of Sanitation sanitation interventions, and thus illustrate the range and size Initiative” (ESI) to compile existing evidence and to generate of sanitation costs and benefits. new evidence on socio-economic aspects of sanitation. The aim of ESI is to assist decision-makers at different levels to The research under this program is being conducted in make informed choices on sanitation policies and resource Cambodia, Yunnan Province of China, Indonesia, Lao allocation. PDR, the Philippines, and Vietnam. Similar studies are also ongoing in selected South Asian, African, and Latin Phase 1 of the ESI in 2007-2009 conducted and published American countries. “sanitation impact” studies, which estimated the economic and social impacts of unimproved sanitation on the popu- While WSP has developed this study, it is an “initiative” in lations and economies of Lao PDR (Hutton et al., 2009) the broadest sense, which includes the active contribution and other countries of Southeast Asia. This study showed of many people and institutions (see Acknowledgments). xiv Economic Assessment of Sanitation Interventions Abbreviations and Acronyms ADB Asian Development Bank AIT Asian Institute of Technology ALRI Acute lower respiratory infection BCR Benefit-cost ratio BOD Biochemical oxygen demand CBA Cost-benefit analysis CER Cost-effectiveness ratio CFU Colony-forming units CLTS Community-Led Total Sanitation COD Chemical oxygen demand CPI Consumer Price Index DALY Disability-Adjusted Life Year DO Dissolved oxygen DPWT Department of Public Works and Transport EAP East Asia and the Pacific ESI Economics of Sanitation Initiative ESUP Environmental Sanitation Upgrading Project FGD Focus group discussion GDP Gross domestic product GIT Gastro-intestinal tract HCA Human capital approach www.wsp.org xv Executive Summary HHDP Houaphanh Health Development Program IRR Internal rate of return JMP Joint Monitoring Programme (WHO, UNICEF) LECS Lao Expenditure and Consumption Survey LNTA Lao National Tourism Administration LSIS Lao Social Indicator Survey MDG Millennium Development Goal Mg/l Milligrams per liter MICS Multiple Indicator Cluster Survey MOH Ministry of Health MPWT Ministry of Public Works and Transport Nam Saat National Center for Environmental Health and Water Supply NCRWSSSP Northern and Central Regions Water Supply and Sanitation Sector Project NGO Non-governmental organization NPV Net present value NTU Nephelometic Turbidity Units OD Open defecation OPWT Office of Public Works and Transport PBP Payback period PHCP2 Primary Health Care Program Phase II PPHD Provincial Public Health Department xvi Economic Assessment of Sanitation Interventions in the Philippines Executive Summary SNWSP Strengthening National Water Supply and Sanitation Strategy Program UDAA Urban Development and Administration Authorities UNICEF United Nations Children’s Fund US$ United States dollar VIP Ventilated improved pit VOSL Value of a statistical life WEPA Water Environment Partnership in Asia WHO World Health Organization WREA Water Resources and Environment Administration WREO Water Resources and Environment Office WSP Water and Sanitation Program WSPMN Water and Sanitation Projects in Meun and Nan Districts WTTC World Travel and Tourism Council www.wsp.org xvii Glossary of Terms Benefit-cost ratio (BCR): the ratio of the present value of the stream of benefits to the present value of the stream of costs. A higher BCR implies a more efficient intervention. Cost per case averted: the discounted value of the cost of each case of a disease that is avoided because of an intervention. Cost per DALY averted: the discounted value of the cost of each DALY that is avoided because of an intervention. Cost per death averted: the discounted value of the cost of each death that is avoided because of an intervention. Cost-effectiveness ratio (CER): the ratio of the present value of the future cost to the present value of the future health benefits in non-monetary units (cases, deaths, disability-adjusted life years). The lower the CER the more efficient the intervention. Disability-Adjusted Life Year (DALY): a measurement of the gap between current health status and an ideal health situation where the entire population lives to an advanced age, free of disease and disability. One DALY can be thought of as one lost year of “healthy” life (WHO, 2010). Improved sanitation: the use of the following facilities in home compounds: flush/pour-flush to piped sewer system/septic tank/pit latrine, ventilated improved pit (VIP) latrine, pit latrine with slab, or composting toilet (JMP, 2008). Shared sanitation facilities: sanitation facilities of an otherwise acceptable type shared between two or more households. Only facilities that are not shared or not public are considered improved (JMP, 2008). Open defecation: the practice of disposing human feces in fields, forests, bushes, open bodies of water, beaches or other open spaces or disposed of with solid waste (JMP, 2008). Intangible benefits: benefits of improved sanitation that are difficult to quantify. These include impacts on the quality of life, comfort, security, dignity, and personal and cultural preferences. Internal rate of return (IRR): the discount rate for which the present value of the stream of net benefits is zero. In other words, the discount rate that makes the BCR equal to unity (1). Net benefit: the difference between the present value of the stream of benefits and the present value of the stream of costs. Net present value (NPV): the discounted value of the current and future stream of net benefits from a project. xviii Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Glossary of Terms Payback period (PBP): represents the number of periods (e.g. years) necessary to recover the costs incurred to that time point (investment plus recurrent costs). Sewage: water-borne human or animal waste removed from residences, buildings, institutions, industrial and commercial establishments together with groundwater, surface water and storm water. Liquid and solid waste carried off in sewers or drains. Septage: the sludge produced in individual onsite wastewater-disposal systems, principally septic tanks and cesspools. These also represent the contents of septic tanks. Sewerage: a network of pipelines, ditches and channels, including pumping stations and force mains, and service connections including other devices for the collection, transport and treatment of sewage. Strategic sanitation: a concept based on the following principles (Rosenweig and Perez, 2002): • Ensuring that any plan to improve sanitation services is financially sustainable • Consulting households to understand what sanitation solutions are in use and what expectations people have • Using a public consultation process with stakeholders to discuss the options • Including a specific health component to maximize health benefits • Selecting an appropriate model for managing the provision of sanitation services to ensure sustainability Unimproved sanitation: the use of the following facilities anywhere: flush/pour flush without isolation or treatment, pit latrine without slab/open pit, bucket, hanging toilet/hanging latrine, use of a public facility or sharing any improved facility, no facilities, bush or field (open defecation) (JMP, 2008). www.wsp.org xix Acknowledgments The Economics of Sanitation Initiative (ESI) was conducted in Cambodia, China (Yunnan Province), Indonesia, Lao PDR, the Philippines and Vietnam. The study was led by the East Asia and and the Pacific Office of the World Bank’s Water and Sanitation Program (WSP), with the contribution of WSP teams and consultants in each of the participating countries. The study took three years to complete, and has undergone several major peer review processes. Guy Hutton (WSP Senior Water and Sanitation Economist and Task Team Leader) led the development of the concept and methodology of the ESI, the management and coordination of the country teams, and provision of regional tools and templates. Bjorn Larsen contributed to the development of generic data collection tools and the health methodology. The study benefited from the continuous support of other WSP staff: Almud Weitz, Isabel Blackett, Yosa Yuliarsa, Irvan Tjondronegoro and WSP support staff. The field team from Lao PDR was led by Alan Boatman (GeoSys Lao), with the support of Stephanie Cohen (Socio-economist and Project Coordinator), Frederic De San (Data Manager) and Vilaythong Chanthalinh (Field Manager). The enumerators for the survey were Manichanh Keolavihone, Khamsy Thammachack, Gorkham Silivongsa, Chanmay Xiong, and Bounchanh Sakounnavong. U-Primo E. Rodriguez (WSP Consultant) was responsible for the economic analysis and completing the write-up of the report. Peer reviewers of this report were Craig Kullmann (WSP), Genevieve Boyreau (World Bank), Helene Carlsson (World Bank), Isabel Blackett (WSP), John McGown (Plan International), Mahboob Ahmed Bajwa (UNICEF), Noupheuak Virabouth (Ministry of Public Works and Transport, Government of Lao PDR), Phetmany Cheuasongkham (SNV Lao PDR), Soulivanh Souksavanth (World Health Organization), Southalak Sisaleumsak (UNICEF), Sybounheung Phandanouvong (World Bank), Tayphasavanh Fengthong (Ministry of Health, Government of Lao PDR), Thea Bongertman (SNV Lao PDR), Viengsompasong Inthavong (WSP) and Viengsamay Vongkhamsao (WSP). The study also benefited from various individuals and institutions that generously provided technical advice and guidance, information necessary for the identification of potential survey sites, and assistance in the implementation of the field surveys. These included Somneuk Davading (World Bank) and Bjorn Larsen (Consultant). xx Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Acknowledgments Reference for citation: Economic assessment of sanitation interventions in Lao PDR. U-Primo Rodriguez, Guy Hutton and Alan Boatman. World Bank, Water and Sanitation Program. 2013. Other country and synthesis reports: Economic assessment of sanitation interventions in Cambodia. Sam Sok Heng, Guy Hutton, Poch Kongchheng and Phyrum Kov. World Bank, Water and Sanitation Program. 2012. Economic assessment of sanitation interventions in Indonesia. Asep Winara, Guy Hutton, Oktarinda, Edi Pumomo, Koderi Hadiwardoyo, Indon Merdykasari, Takdir Numadi, Bert Bruinsma, Dedek Gunawan, Dadang Fadilah and Martin Albrecht. World Bank, Water and Sanitation Program. 2011. Economic assessment of sanitation interventions in the Philippines. U-Primo Rodriguez, Guy Hutton, Nelissa Jamora, Dieldre Harder, Jeremy Ockelford and Edkarl Galing. World Bank, Water and Sanitation Program. 2011. Economic assessment of sanitation interventions in Vietnam. Nguyen Viet Anh, Guy Hutton, Hoang Thuy Lan, Phan Dan, Le Thu Hoa and Bui Thi Nhung. World Bank, Water and Sanitation Program. 2012. Economic assessment of sanitation interventions in Yunnan Province, PR China. Liang Chuan, Guy Hutton, Yang Liqiong, Fang Jinming, Zhang Tiwei, Dong Lin, Zhang Pu and Luo Ronghuai. World Bank, Water and Sanitation Program. 2012. Economic assessment of sanitation interventions in Southeast Asia. Guy Hutton, U-Primo Rodriguez, Asep Winara, Nguyen Viet Anh, Sam Sok Heng, Kov Phyrum, Liang Chuan, Isabel Blackett, Almud Weitz. World Bank, Water and Sanitation Program. 2012. Summary reports are available for each country, in both English and in the local languages. All country reports are accessible from http://www.wsp.org/pubs/index.asp www.wsp.org xxi Content Executive Summary.................................................................................................................................iii A. Introduction .................................................................................................................................... iii B. Study Aims and Methods ............................................................................................................... iii C. Data Sources and Study Sites ........................................................................................................ iv D. Main Economic Analysis Results .................................................................................................... iv E. Disaggregated Results ....................................................................................................................vii F. Recommendations .......................................................................................................................... xi Foreword .................................................................................................................................................xiv Abbreviations and Acronyms ................................................................................................................. xv Glossary of Terms .................................................................................................................................. xviii Acknowledgment.................................................................................................................................... xx Table of Contents .................................................................................................................................. xxii Selected Development Indicators for Lao PDR ...................................................................................xxxi I. Introduction....................................................................................................................................... 1 1.1 Sanitation Coverage and Overview of the Sanitation Sector ......................................................... 1 1.2 Studies on the Costs and Benefits of Sanitation in Lao PDR ........................................................ 3 1.3 Organization of the Study ............................................................................................................. 3 II. Study Aims ........................................................................................................................................ 4 2.1 Overall Purpose ........................................................................................................................... 4 2.2 Study Aim .................................................................................................................................... 4 2.3 Specific Study Uses ..................................................................................................................... 4 2.4 Research Questions ..................................................................................................................... 4 III. Methods ............................................................................................................................................ 6 3.1 Technical Sanitation Interventions Evaluated................................................................................. 7 3.2 Costs and Benefits Evaluated ...................................................................................................... 8 3.3 Field Studies ................................................................................................................................ 9 3.4 National Studies .......................................................................................................................... 18 IV. Local Benefits of Improved Sanitation ........................................................................................... 21 4.1 Health ......................................................................................................................................... 21 4.2 Water .......................................................................................................................................... 27 4.3 Access Time ............................................................................................................................... 34 4.4 Intangible Sanitation Preferences ................................................................................................ 37 4.5 External Environment .................................................................................................................. 41 4.6 Project Performance and Actual Benefits at the Field Sites .......................................................... 44 4.7 Summary of Local Benefits ......................................................................................................... 50 V. National Benefits of Improved Sanitation....................................................................................... 52 5.1 Tourism ....................................................................................................................................... 52 5.2 Sanitation and Business Activity .................................................................................................. 56 5.3 Health ......................................................................................................................................... 61 5.4 Summary of Benefits ................................................................................................................... 61 xxii Economic Assessment of Sanitation Interventions VI. Costs of Improved Sanitation ......................................................................................................... 63 6.1 Cost Summaries ......................................................................................................................... 63 6.2 Financing Sanitation .................................................................................................................... 65 6.3 Costs of Moving Up the Sanitation Ladder .................................................................................. 66 VII. Efficiency of Improved Sanitation ................................................................................................... 67 7.1 Efficiency of Sanitation Improvements Compared to No Facility................................................... 67 7.2 Efficiency of Alternatives for Moving Up the Sanitation Ladder..................................................... 71 7.3 Qualitative Analysis of the Efficiency Indicators ............................................................................ 72 7.4 Cost Variations and the Efficiency Estimates ............................................................................... 73 7.5 Scaling Up Results for National Policy Making ............................................................................. 74 7.6 Summary .................................................................................................................................... 74 VIII. Discussion........................................................................................................................................ 75 8.1 Study Messages and Interpretation ............................................................................................. 75 8.2 Utilization of Results in Decision Making ...................................................................................... 77 8.3 Delivering Sanitation Improvements to Target Beneficiaries.......................................................... 78 IX. Recommendations .......................................................................................................................... 80 References .............................................................................................................................................. 83 Annex Tables .......................................................................................................................................... 86 www.wsp.org xxiii List of Tables Table 1. Sanitation Coverage in Lao PDR, 1995 - 2010, with 2015 Target, % of Population .............. 1 Table 2. Benefits of Improved Sanitation Included in this Study ......................................................... 8 Table 3. Selected Indicators for Key Provinces in the Study.............................................................. 11 Table 4. Sanitation Interventions Evaluated per Site.......................................................................... 11 Table 5. Values for Economic Cost of Time per Day and of Loss of Life, 2010 .................................. 15 Table 6. Sample Sizes for Tourist Survey, by Main Origin of Tourist ................................................... 19 Table 7. Sample Size for Business Survey, by Main Sectors of Firms ................................................ 20 Table 8. Disease Rates and Deaths Attributable to Poor Sanitation and Hygiene for Children Under Five Years, Annual Rates per 1,000 People, 2010 .................................................... 21 Table 9. Treatment-Seeking Behavior for Diarrhea, of Children Under Five Years, % of Cases .......... 23 Table 10. Unit Costs Associated with Treatment of Diarrhea, Thousand Kip, 2010 ............................. 23 Table 11. Average Health Care Cost per Person per Year in Field Sites, Thousand Kip, 2010 ............. 23 Table 12. Average Productivity Cost per Person per Year in Field Sites, Thousand Kip, 2010 ............. 25 Table 13. Average Mortality Cost per Person per Year in Field Sites, Thousand Kip, 2010 .................. 25 Table 14. Perceived Difference in Diarrheal Incidence Since Improved Sanitation, at All Field Sites ..... 26 Table 15. Water Access and Costs per Household at the Survey Sites............................................... 29 Table 16. Household Water Access and Water Treatment Costs Averted as a Result of Improved Sanitation, Thousand Kip .................................................................................... 32 Table 17. Preferences Related to Toilet Convenience, Very Important (1) to Not Important (5) ............. 36 Table 18. Respondents’ Understanding of Sanitation, Numbers Refer to the Site Where Each Reason Was Given as One of the Top-Ranked Responses ................................................. 38 Table 19. Reasons for Current Sanitation Coverage – Top Responses................................................ 39 Table 20. Concerns of Those Practicing Open Defecation .................................................................. 40 Table 21. Sanitation Coverage Information per Field Site .................................................................... 45 Table 22. Summary of Local Impacts of Sanitation Improvement........................................................ 51 Table 23. Background Characteristics of Respondents ...................................................................... 53 Table 24. Sanitary Experience in Relation to Toilets and Hand Washing .............................................. 55 Table 25. Health Troubles Experienced by Visitors .............................................................................. 56 Table 26. Reasons for Businesses Selecting Their Current Location ................................................... 59 Table 27. The Impact of Sanitation-Related Factors on Businesses .................................................... 59 Table 28. Sanitation and Business Costs: Main Measures Taken to Deal with a Poor Environment ..... 60 Table 29. National Health Impacts of Poor Sanitation ......................................................................... 62 Table 30. Cost of Different Sanitation Options for Rural Households, 2010 ......................................... 63 Table 31. Total Cost of Different Sanitation Options for Urban Households, 2010 ............................... 64 Table 32. Incremental Costs of Moving Up the Sanitation Ladder, All Sites, Thousand Kip, 2010 ....... 66 Table 33. Rural Area Efficiency Measures for Main Groupings of Sanitation Interventions, Compared to “No Toilet” ..................................................................................................... 68 Table 34. Urban Area Efficiency Measures for Main Groupings of Sanitation Interventions, Compared to “No Toilet” ..................................................................................................... 69 Table 35. Rural Area Efficiency Measures for Main Groupings of Sanitation Interventions, Comparing Different Points on the Sanitation Ladder, Ideal Setting ..................................... 71 xxiv Economic Assessment of Sanitation Interventions Table 36. Urban Area Efficiency Measures for Main Groupings of Sanitation Interventions, Comparing Different Points on the Sanitation Ladder .......................................................... 72 Table 37. Benefit-Cost Ratios of Interventions at Site 1 Under Alternative Assumptions, Benefits per Kip Invested .................................................................................................... 76 www.wsp.org xxv List of Figures Figure 1. Percentage of Households with Access to Improved Sanitation Facilities, by Province, 2011 .............................................................................................................. 2 Figure 2. Flow of Data Collected (Inputs) and Eventual Cost-Benefit Assessments (Outputs) .............. 6 Figure 3. Representation of the Sanitation “Ladder” ............................................................................ 7 Figure 4. Location of the Selected Field Sites in Lao PDR .................................................................. 10 Figure 5. Overview of Methods of Estimating Field-Level Benefits of Improved Sanitation .................. 12 Figure 6. Comparison of Direct Disease Rates for All Age Groups, per 1,000 People ......................... 22 Figure 7. Relative Risk Reduction of Fecal-Oral Diseases and Helminths from Different Sanitation and Interventions................................................................................................ 25 Figure 8. Health Costs of Unimproved Sanitation (A), and Health Costs Averted of Improved Sanitation Options (B) ......................................................................................................... 26 Figure 9. Test Results for E-Coli by Site (A) and Water Source (B) ...................................................... 27 Figure 10. Turbidity Readings at Field Sites, NTU ................................................................................. 28 Figure 11. Extent of Isolation of Human Excreta in Field Sites, % of Respondents................................ 28 Figure 12. Households Citing Poor Water Quality from Their Principal Drinking Water Source, % of Respondents .................................................................................................................. 30 Figure 13. Reasons for Using Water Sources – Rural Versus Urban, % of Responses .......................... 31 Figure 14. Households Treating Drinking Water, % of Responses......................................................... 31 Figure 15. Average Household Costs for Boiling Water, Thousand Kip ................................................. 33 Figure 16. Did Your Water Treatment Practices Change After Receiving (A) A New Latrine or (B) Improved Water Supplies or (C) Other Reasons?, % of Responses..................................... 33 Figure 17. Place of Defecation of Households without a Toilet, % of Responses .................................. 34 Figure 18. Daily Time Spent Accessing Toilet Outside Plot for Those with No Toilet .............................. 34 Figure 19. Practices Related to Young Children, % of Households ....................................................... 35 Figure 20. Preferences Related to Toilet Convenience, % of Responses .............................................. 35 Figure 21. Opportunity Cost of Time: What Respondents Would Do with Extra Time, % Saying “Leisure” or “Work” Activities .............................................................................................. 36 Figure 22. Average Number of Days Saved per Year per Household Member from Improved Sanitation.................................................................................................... 37 Figure 23. Average Annual Value of Time Saved per Household Member from Improved Sanitation, Thousand Kip.................................................................................................... 37 Figure 24. Level of Satisfaction With Current Toilet Option, Improved Versus Unimproved, Not Satisfied (1) to Very Satisfied (5) .......................................................................................... 40 Figure 25. Reasons to Get a Toilet for Those Currently without Toilet Access, Average Score, Not Important (1) to Very Important (5) ................................................................................ 41 Figure 26. Scoring of Different Types of Living Area .............................................................................. 42 Figure 27. Overall State of Sanitation at the Study Sites, Very Poor (1) to Very Good (5) ....................... 42 Figure 28. Proportion of Households with Unimproved Sanitation Practices, % ................................... 43 Figure 29. Implication of Current Toilet Option for External Environment, Not Satisfied (1) to Very Satisfied (5)......................................................................................................................... 44 xxvi Economic Assessment of Sanitation Interventions Figure 30. Importance of Environmental Sanitation State, by Option Type, Very Bad (1) to Very Good (5) ............................................................................................................................. 45 Figure 31. Contribution of Households, % of Beneficiaries ................................................................... 46 Figure 32. Households Providing a Positive (“Yes”) Response to Selected Questions, % of Responses ................................................................................................................. 46 Figure 33. Appropriate Technology ...................................................................................................... 47 Figure 34. Indicators for Households with Access to Toilet Facilities, %................................................ 47 Figure 35. Open Defecation and Urination in the Project Sites, % of Households ................................. 49 Figure 36. Selected Adjustment Variables for Benefits, % of Responses .............................................. 49 Figure 37. Places Visited and Enjoyment of Stay, Not at All (1) to Very Much (5) ................................... 53 Figure 38. General Sanitary Experience, Very Poor (1) to Very Good (5)................................................ 54 Figure 39. Factors of Most Concern to Tourists, % .............................................................................. 55 Figure 40. Intention of Foreign Visitors to Return to Lao PDR, %.......................................................... 57 Figure 41. Reasons for Hesitancy of Foreign Visitors to Return, % ....................................................... 57 Figure 42. Rating of Environmental Sanitation Conditions in the Location of the Business Survey Interview, Best (1) to Worst (5) ............................................................................................ 58 Figure 43. If Sanitation Improves Considerably, Do You Envisage Expanding Your Operations Here?, % of Respondents .................................................................................................. 61 Figure 44. Components of Costs per Rural Household, Thousand Kip, 2010....................................... 64 Figure 45. Components of Costs per Urban Household, Thousand Kip, 2010 ..................................... 64 Figure 46. Proportion of Sanitation Costs Financed from Different Sources, % ..................................... 65 Figure 47. Incremental Costs of Moving Up the Sanitation Ladder, Thousand Kip per Household, 201066 Figure 48. Benefit-Cost Ratio, All Sanitation Options at All Rural Sites ................................................. 69 Figure 49. Benefit-Cost Ratio, All Sanitation Options at All Urban Sites ................................................ 70 Figure 50. Investment Costs that Will Make the Benefit-Cost Ratio Equal to Unity at Site 1, Million Kip per Household ................................................................................................... 73 Figure 51. Implementation Approaches and Partnerships in the Selected Projects ............................... 79 www.wsp.org xxvii List of Annex Tables Annex Table A1. Sanitation Coverage by Region, % of Households, 2011 ...................................... 86 Annex Table A2. Assessment of Advantages and Limitations of Different Design Options ................ 87 Annex Table A3. Diseases Linked to Poor Sanitation and Hygiene, and Primary Transmission Routes and Vehicles ............................................................................................. 88 Annex Table A4. Water Quality Measurement Parameters per Location, and Test Method ............... 89 Annex Table A5. Key Formulas, Variables and Data Sources for Calculating Monetized Benefits ..... 90 Annex Table A6. Households Sampled Versus Total Households per Village/Community................. 92 Annex Table A7. Sample Sizes of Other Surveys at Study Sites ...................................................... 92 Annex Table B1. Health Rates for Diseases, by Site, Values per 1,000 People................................. 93 Annex Table B2. Comparison of Data Sources for Selected Diseases ............................................. 94 Annex Table B3. Evidence on Treatment-Seeking Behavior for Other Diseases ............................... 95 Annex Table B4. Unit Costs Associated with Treatment of Diseases ................................................ 96 Annex Table C1. Full Water Quality Measurement Results ............................................................... 97 Annex Table C2. Water Access and Treatment Practices and Related Cost per Site ....................... 100 Annex Table C3. Households Citing Poor Water Quality by Site, % of Water Users per Option ....... 100 Annex Table C4. Cited Reasons for Using Water Sources by Site, % of Water Users for Each Option 101 Annex Table C5. Treatment Practices by Site ................................................................................. 102 Annex Table C6. Water Access and Household Treatment Costs Averted, Thousand Kip ............... 103 Annex Table D1. Place of Defecation of Households with No “Own” Toilet ...................................... 104 Annex Table D2. Daily Time Spent Accessing Toilet for Those with No Toilet................................... 104 Annex Table D3. Practices Related to Young Children .................................................................... 105 Annex Table D4. Preferences Related to Toilet Convenience, from Households .............................. 105 Annex Table D5. Average Time Saved per Person or Household per Year (Days) ............................ 106 Annex Table D6. Value of Time per Person/Household per Year (Thousand Kip) ............................. 106 Annex Table E1. Important Characteristics of a Toilet for Those Currently without .......................... 107 Annex Table E2. Level of Satisfaction with Current Toilet Option ..................................................... 108 Annex Table F1. Scoring of Different Types of Living Area .............................................................. 109 Annex Table F2. Proportion of Households with and without Toilet Who Have Unimproved Sanitation Practice ............................................................................................... 110 Annex Table F3. Implication of Current Toilet Option for External Environment ................................ 111 Annex Table F4. Perceptions of Environmental Sanitation State, by Option Type ............................ 112 Annex Table F5. Ranking Importance of Environmental Sanitation, by Option Type ........................ 113 Annex Table F6. Financing from Household and Project Sources ................................................... 113 Annex Table F7. Household Choices and Other Interventions ........................................................ 114 xxviii Economic Assessment of Sanitation Interventions Annex Table F8. Appropriate Technology ....................................................................................... 114 Annex Table F9. Actual Program Performance in Relation to Key Selected Indicators for Program Effectiveness, Rural Sites Only ............................................................... 115 Annex Table F10. Actual Program Performance in Relation to Key Selected Indicators for Program Effectiveness ......................................................................................... 116 Annex Table G1. Places Visited (% Respondents) and Enjoyment of Stay (1 = Not At All to 5 = Very Much) .......................................................................... 117 Annex Table G2. General Sanitary Experience (1 = Very Poor to 5 = Very Good) ............................. 118 Annex Table G3. Sanitary Experience in Relation to Toilets and Hand Washing ............................... 119 Annex Table G4. What Factors Were of Most Concern? (% of Respondents).................................. 120 Annex Table G5. Health Problems Experienced by Foreign Visitors................................................. 121 Annex Table G6. Intention to Return of Foreign Visitors................................................................... 122 Annex Table G7. Reasons for Foreign Visitors Hesitating to Return to Lao PDR .............................. 123 Annex Table H1. Rating of Environmental Sanitation Conditions in the Location of the Business Survey Interview (1 = Best; 5 = Worst) .................................................. 124 Annex Table I1. Site 1 Average Cost per Household for Different Sanitation Options, Using Full (Economic) Cost (Thousand Kip, Year 2010) .................................................. 125 Annex Table I2. Site 2 Average Cost per Household for Different Sanitation Options, Using Full (Economic) Cost (Thousand Kip, Year 2010) .................................................. 125 Annex Table I3. Site 3 Average Cost per Household for Different Sanitation Options, Using Full (Economic) Cost (Thousand Kip, Year 2010) .................................................. 126 Annex Table I4. Site 4 Average Cost per Household for Different Sanitation Options, Using Full (Economic) Cost (Thousand Kip, Year 2010) .................................................. 126 Annex Table I5. Site 5 Average Cost per Household for Different Sanitation Options, Using Full (Economic) Cost (Thousand Kip, Year 2010) .................................................. 127 Annex Table I6. Site 6 Average Cost per Household for Different Sanitation Options, Using Full (Economic) Cost (Thousand Kip, Year 2010) .................................................. 127 Annex Table I7. Incremental Costs of Moving Up the Sanitation Ladder ........................................ 128 Annex Table J1. Site 1 (Urban), Efficiency Measures for Main Groupings of Sanitation Interventions, Compared to “No Toilet”................................................................. 129 Annex Table J2. Site 2 (Rural), Efficiency Measures for Main Groupings of Sanitation Interventions, Compared to “No Toilet”................................................................. 130 Annex Table J3. Site 3 (Rural), Efficiency Measures for Main Groupings of Sanitation Interventions, Compared to “No Toilet”................................................................. 130 www.wsp.org xxix Annex Table J4. Site 4 (Rural), Efficiency Measures for Main Groupings of Sanitation Interventions, Compared to “No Toilet”................................................................. 131 Annex Table J5. Site 5 (Urban), Efficiency Measures for Main Groupings of Sanitation Interventions, Compared to “No Toilet”................................................................. 132 Annex Table J6. Site 6 (Rural), Efficiency Measures for Main Groupings of Sanitation Interventions, Compared to “No Toilet”................................................................. 133 Annex Table K1. Site 1 (Rural), Efficiency Measures for Main Groupings of Sanitation Interventions, Comparing Different Points on the Sanitation Ladder ..................... 134 Annex Table K2. Site 2 (Rural), Efficiency Measures for Main Groupings of Sanitation Interventions, Comparing Different Points on the Sanitation Ladder ..................... 135 Annex Table K3. Site 3 (Rural), Efficiency Measures for Main Groupings of Sanitation Interventions, Comparing Different Points on the Sanitation Ladder ..................... 136 Annex Table K4. Site 4 (Rural), Efficiency Measures for Main Groupings of Sanitation Interventions, Comparing Different Points on the Sanitation Ladder ..................... 137 Annex Table K5. Site 5 (Urban), Efficiency Measures for Main Groupings of Sanitation Interventions, Comparing Different Points on the Sanitation Ladder ..................... 137 Annex Table K6. Sensitivity Analysis: Net Present Values (Ideal Setting, Thousand Kip, Site 1) ....... 138 Annex Table K7. Basic Features of Sanitation Programs................................................................. 139 xxx Economic Assessment of Sanitation Interventions Selected Development Indicators for Lao PDR Variable (unit; year) Value Population Total population (millions; 2010)a 6.2 Rural population (%; 2009) 68.0 b Urban population (%; 2009) 32.0 b Annual population growth (%; 2000-2009) 2.0 b Under 5 population (% of total; 2009) 12.5 c Under 5 mortality rate (deaths per 1,000; 2009) 59.0 d Female population (% of total, 2005) 50.2 Population earning less than US$1.25/day (% of total, 2008, PPP)e 33.9 e US$2.00/day (% of total, 2008, PPP) 66.0 Economic Currency name Kip Year of cost data presented 2010 a Exchange rate (kip per US$; 2010) 8,259 e GDP per capita (US$; 2010) 1,176.7 f GNI per capita, adjusted for purchasing power (International $; 2010) 2,460.0 Sanitation Improved total (% of households, 2010)g 63.0 g Improved rural (% of households, 2010) 50.0 g Improved urban (% of households, 2010) 89.0 i Sewerage connection (% of households, 2006) Ruralh 0.4 h Urban 6.8 Sources: a ADB (2011) b UNICEF (2010) c WHO (2011a) d Lao Statistical Bureau e World Bank (2011b); PPP – purchasing power parity f World Bank (2011c) g JMP (2012) h Multiple Indicator Cluster Survey (MICS) as cited in JMP(2010a) i The majority of wastewater flows untreated to water bodies or to the ground I. Introduction 1.1 SANITATION COVERAGE AND OVERVIEW OF THE SANITATION SECTOR Access to improved sanitation facilities is a major concern TABLE 1. SANITATION COVERAGE IN LAO PDR, 1995 - 2010, WITH 2015 TARGET, % OF POPULATION for the Lao People’s Democratic Republic (PDR). Recent estimates from the Joint Monitoring Programme for Water Private facilities Shared Open Region improved unimproved facilities defecation Supply and Sanitation (JMP) of the World Health Orga- nization (WHO) and the United Nations Children’s Fund Rural (UNICEF) indicate that only 63% of the population of the 1995 8 9 0 83 country had access to improved sanitation facilities in 2010 2000 15 9 0 76 (Table 1).6 Sanitation conditions are also worse in rural 2005 33 7 1 59 areas, where 8% of the population only had access to un- 2010 50 8 1 41 improved facilities and about 41% of the population still 2015a 54a 46a practiced open defecation. Urban 1995 58 11 3 28 The lack of information makes it difficult to make solid 2000 64 8 4 24 general statements regarding the progress of the country 2005 78 6 4 14 towards achieving the Millennium Development Goal 2010 89 3 5 3 (MDG) for sanitation; i.e., reducing by half the propor- a a a tion of its population in 1990 who did not have access to 2015 79 21 improved sanitation facilities.7 Using 1995 as the base year, All which probably had more favorable coverage statistics com- 1995 17 9 1 73 pared to 1990 and therefore sets a higher target, it appears 2000 26 8 1 65 that the MDG for sanitation has already been achieved. As 2005 45 6 2 47 of 2010, the proportion of the population that has access to 2010 63 7 2 28 improved sanitation was already about 4% above the esti- 2015 a 59 a 41 a mated target of 59%. a Note: The values for 2015 are targets based on the MDG target applied in Lao PDR. These were calculated by the authors based on the JMP target of reducing by half the proportion of the population that do not have access Figure 1 provides information on sanitation coverage in the to improved sanitation facilities in 1990. However, in the absence of 1990 different regions of Lao PDR, from the most recent Lao So- estimates, the authors used 1995 data to calculate the target. Source: JMP (2012) cial Indicator Survey. It indicates that households in Vientiane 6 The JMP (2008) defines an improved sanitation facility as “one that hygienically separates human excreta from human contact” (p.39). These include flush or pour flush latrines connected to a piped sewer system, septic tank or pit latrine and ventilated improved pit latrine. On the other hand, unimproved facilities include pit latrines without slab or platform, hanging latrines and bucket latrines. Pour-flush toilets that discharge into open drains, ditches or other bodies of water and facilities shared by two or more households are also considered unimproved. 7 There is no information on sanitation coverage for 1990. www.wsp.org 1 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Introduction Capital had the highest access to improved facilities, at 97.9%. trend, close to 90% of the 2.3 million people with no ac- However, 9 of the 17 provinces had rates of access to improved cess to improved sanitation facilities reside in rural areas facilities that were below the national average of 59%. This is (about 2 out of every 3 people in the country, based on most noticeable in Saravane (22.3%), where the proportions 2012 JMP estimates, live in rural areas). Moreover, there of households with access to improved sanitation were only are indications that differences in sanitation coverage are about a quarter of their counterparts in Vientiane. more pronounced when the examination is conducted at the provincial level. It is also important to note that there Two patterns emerge from the analysis of sanitation cover- is a wide discrepancy in access to improved sanitation in age data. First, there have been significant improvements rural areas with and without access to roads. Information in sanitation coverage the past decade or so. However, from the Multiple Indicator Cluster Survey (MICS) III greater effort is needed as nearly 4 out of 10 people (about in 2006 (cited in Hutton et al., 2009) showed that about 2.3 million) in Lao PDR still do not have access to im- 39% of rural households with access to roads also had ac- proved sanitation. Second, the gap in terms of access to cess to improved sanitation facilities. This was more than improved sanitation facilities across regions narrowed 2 times higher (16%) than rural households that did not from 50% in 1995 to 39% in 2010. Despite this favorable have access to roads. FIGURE 1. PERCENTAGE OF HOUSEHOLDS WITH ACCESS TO Recent studies by Baetings and O’Leary (2010) and Giltner IMPROVED SANITATION FACILITIES, BY PROVINCE, 2011 et al. (2010) review the institutional and legal environment Vientiane Capital in the Lao sanitation sector. Some of the key findings of Xaya bury these studies are as follows. First, both studies assert that Vientiane sanitation has received little attention from government Borikhamxay Bokeo and continues to take a second priority to water supply. Luangnamtha From a financial perspective, government budget alloca- Huaphanh tions are small. Giltner et al. (2010) estimated the con- Luangprabang tribution of the government was in the neighborhood of Xiengkhuang 12.5% of total spending on rural sanitation in 2008/9. This Oudomxay implies that sanitation projects and programs in rural areas Champasack Savannakhet are heavily dependent on support from developing partners Khammuane while households continue to shoulder a large proportion Sekong of the investment costs of new sanitation facilities. Specific Attapeu sanitation-related policies or initiatives have also been slow Phongsaly in coming. Giltner et al. (2010), for example, lament the Saravane absence of an overall sanitation strategy for Lao PDR. On South Central the other hand, Baetings and O’Leary (2010) state that North the existing legal framework is quite general and provides All regions “limited specific reference to sanitation and wastewater is- sues” (p.2). Second, there are many government agencies 0 20 40 60 80 100 120 involved in the sanitation sector, with overlapping tasks and percent of households with sanitation access the absence of an agency that is ultimately responsible for sanitation. Giltner et al. (2010) also add that the “interface Note: “Modern facilities” and “normal latrines” were classified as improved sanitation facilities in this study. Modern facilities are defined in the census as between agencies is not clearly articulated” (p. 15). These latrines that use cistern water flushed to a piped sewer system or septic tank. two findings suggest that coordination issues among gov- Normal latrines are pour-flush facilities connected to a piped sewer system or ernment agencies exacerbate the restrictions imposed by septic tanks, or pit latrines with slab. Source: Lao Social Indicator Survey 2011 limited funding. 2 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Introduction 1.2 STUDIES ON THE COSTS AND BENEFITS ral areas. Most spending was accounted for by households OF SANITATION IN LAO PDR (52.2%) and development partners (35.3%). The authors have found no studies focusing on evaluating 1.3 ORGANIZATION OF THE STUDY costs against the benefits of sanitation options in Lao PDR. However, some studies have dealt with aspects of sanitation Cost-benefit analysis (CBA) is a method that can be used that are relevant to the current exercise. to evaluate various sanitation options. The objective of the technique is to generate a monetary measure of the stream Hutton et al. (2009) evaluated the economic impacts of of benefits and costs from an investment project or policy. poor sanitation in Lao PDR. As a component of the Eco- It can estimate: (a) the expected economic return (return nomics of Sanitation Initiative (ESI), the paper quantifies per US$ invested); (b) net present value of investments; potential losses arising from poor sanitation. It identifies and (c) the internal rate of return of investments or policy health, water, access time and tourism as the key sources initiatives. It therefore aids decision-makers in identifying of quantifiable losses. The study is useful to the current whether the net benefits of a project or policy are positive analysis because it provides a framework for evaluating the or negative. In the presence of multiple options, a CBA may potential benefits associated with sanitation improvements. also provide a valuable input for priority setting. The study found that there are large economic costs associ- This analysis is important in order to enhance the chances ated with poor sanitation. It estimated the overall economic that scarce resources are efficiently allocated to projects that costs of poor sanitation in Lao PDR to be of the order of provide acceptable levels of net benefit. Moreover, it helps US$193 million (at 2006 prices) per year, or 5.6% of gross evaluate the costs, budget impacts and benefits of sanitation domestic product (GDP) (Hutton et al., 2009). This trans- alternatives if additional funds become available to finance lates to about US$34 per person per year, and approximate- further investment in sanitation. Furthermore, CBA provides ly 60% of these losses were attributable to health-related information that can be used for the advocacy of develop- costs. ment interventions, assuming that its findings are favorable. Baetings and O’Leary (2010), Giltner et al. (2010) and Co- The remainder of this report is organized as follows: Section lins (2011) provide estimates of the costs of various sani- 2 describes the overall objectives and aims of the study. It tation options in different sites. In addition, these studies also explains some of the key research questions that will provide relevant sanitation-related information for Lao be addressed in subsequent sections. Section 3 discusses the PDR. Baetings and O’Leary (2010) also provides valuable methodology of the study. It describes the costs and benefits survey-based information from Vientiane Capital on as- to be evaluated and the key indicators used in the analysis pects including: access to toilet facilities; location of toilets of the various options. The section also describes the study (outside or inside the house); availability of water in toilets; sites and data collection methods. Section 4 presents the local water sources for anal washing; toilet hygiene and cleanli- or site-specific benefits associated with improved sanitation ness; satisfaction of users with toilet facilities; reasons for while Section 5 describes some of the broader benefits to the state of toilets (i.e. clean or dirty); septage storage; pit emp- economy. Section 6 presents the costs associated with various tying issues; knowledge about septage emptying; flooding sanitation options. It also describes the costs as a household and raising of toilets; toilet construction costs; and opera- moves up the sanitation ladder. Section 7 combines the in- tion and maintenance issues. Giltner et al. (2011) describe formation from Sections 4 to 7 by way of a cost-benefit and the sources and uses of financing for hygiene and sanita- cost-effectiveness analysis. It also compares the various effi- tion in rural areas of the country. The study found that the ciency indicators across various sanitation options. Section 8 Lao government made a very small contribution (12.5%) provides a discussion of the results and Section 9 concludes in total expenditure to basic sanitation and hygiene in ru- with the recommendations of the study. www.wsp.org 3 II. Study Aims 2.1 OVERALL PURPOSE 2.3 SPECIFIC STUDY USES The purpose of the Economics of Sanitation Initiative (ESI) By providing hard evidence of the costs and benefits of im- is to promote evidence-based decision making using im- proved sanitation, the study will: proved methodologies and data sets, thus increasing the effectiveness and sustainability of public and private sanita- • Provide advocacy material for increased spending tion spending. on sanitation, and to prompt sector stakeholders to pay greater attention to the efficient implementation Better decision making techniques and economic evidence and scaling up of improved sanitation. are also expected to stimulate additional spending on sani- • Enable the inclusion of efficiency criteria in the tation to meet or surpass national coverage targets. selection of sanitation options in government and donor strategic planning documents, and in specific 2.2 STUDY AIMS sanitation projects and programs. • Bring greater focus on appropriate technology The aim of this study is to generate robust evidence of the through increased understanding of the marginal costs and benefits of sanitation improvements in different costs and benefits of moving up the “sanitation lad- programmatic and geographic contexts in Lao PDR, lead- der” in different contexts. ing to the selection of the most efficient and sustainable • Provide the empirical basis for improved estimates sanitation interventions and programs. of the total costs and benefits of meeting sanitation targets (e.g. MDG targets), and contribute to na- The evidence is presented in simplified form and distilled tional strategic plans for meeting and surpassing the into key recommendations to increase uptake by a range of MDG targets. sanitation financiers and implementers, including different levels of government and sanitation sector partners, as well 2.4 RESEARCH QUESTIONS as households and the private sector. In order to fulfill the overall purpose of the study, research ques- Standard outputs of cost-benefit analysis (CBA) include tions were defined that have a direct bearing on sanitation poli- benefit-cost ratios (BCRs), internal rate of return (IRR), cies and decisions. The questions were formulated to identify payback period (PBP), and net benefits (see Glossary). overall efficiency (i.e. cost versus benefit) and costs and benefits Cost-effectiveness measures relevant to health impacts will seperately, distinguished for overall efficiency questions (i.e. provide information on the costs of achieving health im- cost versus benefit), and for costs and benefits separately.8 provements. In addition, intangible aspects of sanitation not quantified in monetary units are highlighted as being The major concern in economic evaluation is to understand crucial to the optimal choice of sanitation intervention. efficiency – in terms of return on investment and recur- 8 “Costs” (and “benefits”) refer simultaneously to financial and economic costs (and benefits), unless otherwise specified. 4 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Study Aims rent expenditure. Hence, the focus of economic evaluation In addition, other research questions are crucial to an ap- is on what it costs to deliver an intervention and what the propriate interpretation and use of information on sanita- returns will be. Several different efficiency measures allow tion costs and benefits. Most importantly, the full benefit of examination of the question from different angles, such as a sanitation intervention may not be received due to factors the number of times by which benefits exceed costs, the in the field that affect uptake and compliance with the in- annual equivalent returns, and the time to repay costs and tervention. These factors need to be better understood to start generating net benefits (see box). As sanitation and advise future program design. hygiene improvement also fall within the health domain, economic arguments can be made for investment in sanita- tion and hygiene interventions within the health budget, if BOX 2. RESEARCH QUESTIONS ON SANITATION COSTS the health return per unit cost invested is competitive com- pared with other uses of the same health budget. i. What is the range of costs for each technology option in different field settings? ii. What proportion of costs are capital and recurrent costs, for different interventions? BOX 1. RESEARCH QUESTIONS ON SANITATION EFFICIENCY iii. What are necessary maintenance and repair interventions and costs of extending the life i. Are benefits greater than the costs of of hardware and increasing sustainability? sanitation interventions? By what proportion do benefits exceed costs (benefit-cost ratio iv. What are the incremental costs of moving – BCR)? from one sanitation improvement to another – i.e. moving up the sanitation ladder – for ii. What is the IRR? specified populations to meet sanitation iii. How long does it take for a household to targets? recover its initial investment costs (PBP)? iv. What is the net gain of each sanitation intervention (net present value – NPV)? v. What is the cost of achieving standard BOX 3. RESEARCH QUESTIONS ON SANITATION health gains such as averted death, cases BENEFITS and disability-adjusted life years (DALY)? i. What local evidence exists for the links vi. How does economic performance vary between sanitation and health, water quality across sanitation options, program and water users, land use, time use, tourism approaches, and locations? What factors and the business environment? explain performance? ii. What is the size of the economic benefit related to health expenditure, health-related productivity and premature mortality; household water uses; time savings; and It is also useful from decision making, planning, and advo- other welfare impacts? cacy perspectives to better understand the nature and tim- iii. What is the actual or likely willingness ing of costs and benefits, as well as how non-economic as- of households and agencies to pay for pects affect the implementation of sanitation interventions, improved sanitation? hence affecting their eventual efficiency (see boxes below). iv. What is “up-front” versus “annual recurrent” Furthermore, given that several impacts of improved sani- willingness to pay? tation cannot easily be quantified in monetary terms, this v. How do benefits accrue or vary over time? study attempts to give greater emphasis to these impacts in the overall CBA. www.wsp.org 5 III. Methods The study methodology in Lao PDR follows standard delivered, maintained, and used appropriately, while Out- cost-benefit techniques (Boardman et al., 2006; Gramlich, put 2 captures actual performance based on observed levels 1998), which have been adapted to sanitation interven- of intervention effectiveness at the field sites. Both of these tions and the site-specific field studies. As shown in Fig- analyses are incomplete because the intangible impacts of ure 2, the study consists of a field component that leads to sanitation improvements and other benefits that may ac- quantitative cost-benefit estimates, and an in-depth study crue outside the sanitation improvement site are excluded of qualitative aspects of sanitation. Two types of field-level in the study. Hence, Output 3 synthesizes the quantitative cost-benefit performances are presented. Output 1 reflects and qualitative findings to generate a more comprehensive ideal performance, which assumes that an intervention is set of conclusions and recommendations. FIGURE 2. FLOW OF DATA COLLECTED (INPUTS) AND EVENTUAL COST-BENEFIT ASSESSMENTS (OUTPUTS) CHAPTER 4 CHAPTER 7 Field-Level (CD@K"NRS !DMDkS Input 1: ,NMDS@QX!DMDkS Output 1: CHAPTER 7 Field Performance Estimates Actual CHAPTER 4 Output 2: "NRS !DMDkS CHAPTER 6 Field Performance Field-Level Program Input 4: Actual Impact Field-Level Assessment Input 2: Monetary Cost Estimates CHAPTER 4 Intangible CHAPTER 7 (Non-Monetized) Input 3: Overall Field-Level Output 3: "NRS !DMDkS "NRSR@MC!DMDkSR Assessment CHAPTER 5 Input 5: National-Level "NRSR@MC!DMDkSR 6 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Methods 3.1 TECHNICAL SANITATION INTERVENTIONS thus bring benefits. Figure 3 presents a generalized sanita- EVALUATED tion ladder. The upward slope of the ladder reflects the as- sumption of greater benefits as the household climbs the The type of sanitation evaluated in this study is household ladder, but (generally) with higher costs. The progression human excreta management. Interventions to improve hu- shown in Figure 3 is not necessarily true in all settings and man excreta management at household level focus on both hence needs to be altered based on setting-specific features onsite and off-site sanitation options. One of the key aims (e.g. rural or urban, and different physical/climatic environ- of this study, where possible, is to compare the relative ef- ments such as soil type or water scarcity). ficiency of different sanitation technologies. While the study proposes to conduct analyses of the costs To qualify as an economic evaluation study, a cost-benefit and benefits of achieving the MDG targets and beyond, sani- analysis (CBA) compares at least two alternative interven- tation options will not be restricted by “unimproved” and tion options. It usually includes comparison with the base- “improved” sanitation as defined by the WHO/UNICEF line of “do nothing.” However, comparing two sanitation Joint Monitoring Programme (JMP). For example, some options will rarely be enough since, ideally, the analysis households will be interested in upgrading from one type should compare all sanitation options that are feasible for of improved sanitation to another, such as from VIP to sep- each setting – in terms of affordable, technically feasible, tic tank, or from septic tank to sewerage. Other households and culturally acceptable options – so that a clear policy need to decide whether to replace a facility that has reached recommendation can be made based on the efficiency of a the end of its useful life. Under some program approaches, range of sanitation options, among other factors. e.g., Community-Led Total Sanitation (CLTS), households are also encouraged to move up the ladder, even if this does Technical sanitation options include all those interven- not imply a full move to JMP-defined “improved” sanitation, tions that move households up the sanitation ladder and such as the use of shared or unimproved private latrines. FIGURE 3. REPRESENTATION OF THE SANITATION “LADDER” &RVWVSHUKRXVHKROG Tertiary treatment 6HFRQGDU\WUHDWPHQW 6HSWLFWDQN :HWSULYDWHSLW 'U\SULYDWHSLW ZLWKDSSURSULDWHH[FUHWD PDQDJHPHQWRUUHXVH ,PSURYHGSXEOLFRU VKDUHGODWULQH 8QLPSURYHGSLWODWULQH Water Quality Intangibles 3XEOLFRUXQLPSURYHG VKDUHGODWULQH Health Status 2SHQGHIHFDWLRQ Access Time WRODQGRUZDWHU %HQHĺWVSHUKRXVHKROG www.wsp.org 7 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Methods 3.2 COSTS AND BENEFITS EVALUATED critical mass of households has improved their sani- tation. These benefits may include: health impacts Sanitation costs are the denominator in the calculation of related to environmental exposure to pathogens (e.g. benefit-cost ratios, and are thus crucial to the evaluation water sources, open defecation practices); aesthetics of sanitation option efficiency. Summary cost measures in- of environmental quality; and usability of local water clude total annual and lifetime costs, cost per household sources for productive activities. Given the challenges and cost per capita. For financing and planning purposes, in designing studies to distinguish these benefits from this study disaggregates costs for each sanitation option by household direct benefits, this study classified local capital and recurrent costs, and by financier. The incremen- level external benefits with household direct benefits. tal costs of moving up the sanitation ladder are also assessed. 3. Wider scale external benefits: These result from im- proved sanitation at the macro level. Benefits may To maximize the usefulness of an economic analysis for include: water quality for productive uses; tourism; diverse audiences, the benefits of improved sanitation and local business impact; and foreign direct investment. hygiene are divided into three categories: They can either be linked to coverage in specific ar- eas or zones (e.g. tourist area or industrial zone), or 1. Household direct benefits: These are incurred by to the country generally (e.g. investment climate). households making the sanitation improvement. The As well as improved management of human excreta, actual or perceived benefits will drive the decision by other contributors to environmental improvement the household to invest in sanitation, and will also such as solid waste management and wastewater guide the type of sanitation improvement chosen. treatment need to be considered. These benefits may include: health impacts related to household sanitation and hygiene; local water re- In brief, this study distinguishes between the economic source impacts; access time; and intangible impacts. analysis results and local community impacts, where the 2. Local level external benefits: These are potentially sanitation and hygiene improvements take place, and na- incurred by all households living in an environment tional level impacts. Table 2 shows the impacts included in where households improve their sanitation. However, the current study, distinguishing between those expressed some of the benefits may not be substantial until a in monetary and non-monetary units. TABLE 2. BENEFITS OF IMPROVED SANITATION INCLUDED IN THIS STUDY Socio-economic impacts evaluated in Level Impact Monetary terms ($ values) Non-monetary terms (non-$) • Health care costs • Disease and mortality rates Health • Health-related productivity • Quality of life impacts • Premature death • Water sourcing • Linking poor sanitation, water quality & Domestic water Local benefits • Household treatment practices • Convenience, comfort, privacy, status, security, Access time • Time use gender • Aesthetics of household and community Environmental quality environment • Sanitation-tourism link: potential impact of poor sanitation on tourist numbers Tourism Tourism and • Income losses associated with loss of tourists Business • Tourist health costs • Sanitation-business link: potential impact of Business poor sanitation on local businesses 8 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Methods While the focus of this study is on household sanitation, tion with project/program; (iii) being representative of Lao the importance of institutional sanitation also needs to be PDR in terms of geophysical, climatic, demographic and noted. For example, improved school sanitation may affect socio-economic characteristics. whether children (especially girls) start or stay in school, and workplace sanitation affects decisions of the workforce The study team had difficulty meeting these criteria due to (especially women) to take or continue work with a particu- the low population density of the country and the lack of lar employer. These impacts are incremental over and above variation in technical sanitation options. Hence, the strat- the three discussed above. However, they are outside the egy adopted was to survey about 1,200 households in six scope of this present study. sites; which are a mix of urban and rural sites. For the pur- poses of analysis, the peri-urban site (site 2) was classified as 3.3 FIELD STUDIES a rural site, as it fitted more rural characteristics (population density). Since priority was given to sites that had a variety 3.3.1 FIELD SITE SELECTION AND of sanitation options available, only three of the sites meet DESCRIPTION the criteria of having been exposed to sanitation projects or programs within five years of this study. This decision According to good economic evaluation practice, interven- dampened the ability of the study to examine the possible tions evaluated should reflect the options faced by house- impacts of sanitation projects on the households and com- holds, communities and policy makers. Therefore, the loca- munities but allowed the analysis to cover a wider range of tions selected should contain a range of sanitation options sanitation interventions. that are typically available in Lao PDR, covering both ur- ban and rural sites. By sampling a range of representative The six sites selected for the study were: locations, study results can be generalized outside study set- tings, and hence be more useful for national and local-level • Site 1 (urban): Chantabouly District, Vientiane planning purposes. Capital • Site 2 (rural): Xaythany District, Vientiane Capital The principal criterion for site selection applied to Eco- • Site 3 (rural): Meun District, Vientiane Province nomics of Sanitation Initiative (ESI) studies is that there • Site 4 (rural): Nam Bak District, Luang Prabang has been a sanitation project or program implemented in Province the past five years, and at some level of scale that allows • Site 5 (urban): Nan District, Luang Prabang Prov- minimum sample sizes of 30 households to be collected per ince sanitation option per site. Once the list of projects and pro- • Site 6 (rural): Champone District, Savannakhet grams has been established, a further set of criteria is applied Province in order to reduce the shortlist to six locations or projects (based on the available budget). These criteria include: (i) The locations of the field sites are indicated in Figure 4. logistical feasibility for research; (ii) potential for collabora- www.wsp.org 9 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Methods FIGURE 4. LOCATION OF THE SELECTED FIELD SITES IN LAO PDR LAO P.D.R. C H I N A WATER AND SANITATION PROJECT PROJECT DISTRICTS NATIONAL CAPITAL INTERNATIONAL BOUNDARIES PROVINCE BOUNDARIES Phongsali DISTRICT BOUNDARIES Rural, Nambak District PHONGSALY Louang Phrabang Province LOUANG Louang NAMTHA Namtha BOKEO Muang Xai VIETNAM Sam-Neva Ban Huaisai LOUANG OUDOMSAI HOUAPHAN PHRABANG Louang Prabang XIANG KHOANG Sainyabouli Xiang Khoang Urban, Nan District Gulf of Louang Phrabang Province SAINYABULI VIENTIANE Xaysomboun Tonkin Pone Hong BOLIKHAMSAI Paksane Rural, Meun District Vientiane Province VIENTIANE Peri-Urban, Xaythani District VIENTIANE Vientiane Capital Thakhek KHAMMOUANE CAPITAL Urban, Chantabouly District Vientiane Capital Savannakhet SAVANNAKHET THAILAND Rural, Champone District Savannakhet Province Saravane SARAVANE SEKONG Sekong CHAMPASSAK Champassak Attapeu LAO P.D.R. ATTAPEU This map was produced by the Map Design Unit of The World Bank. The boundaries, colors, denominations and any other information CAMBODIA shown on this map do not imply, on the part of The World Bank Group, any judgment on the legal status of any territory, or any endorsement or acceptance of such boundaries. MAY 2012 10 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Methods Table 3 provides a brief description of the provinces that and poverty incidence is also about half of the national contain the six study sites. It indicates that Vientiane and average. Luang Prabang provinces are very similar in a number of aspects. Incomes measured by GDP per capita are similar Table 4 shows the interventions evaluated for each study site. in these two provinces, and poverty incidence and demo- It indicates that the analysis focused mainly on dry pit latrines graphic indicators are also quite close to the national aver- in rural areas, wet pit latrines in rural and urban areas, and toi- age.9 While Savannakhet province is also quite similar to lets that flush to septic tanks or sewers in urban areas. Shared Vientiane and Luang Prabang provinces, a larger propor- toilets were evaluated in one urban and two rural sites. In the tion of its population resides in urban areas. Sites 1 and analysis that follows, only Sites 1 and 5 were treated as urban 2 in Vientiane Capital have significantly higher levels of areas while sites 2, 3, 4 and 6 were treated as rural areas. economic activity and population densities than the other provinces. GDP per capita in Vientiane Capital is almost It is important to note that there is no sewer system in any 3 times higher than that in the provinces of Vientiane, Lu- of the study sites. Hence, the analysis of a sewer system with ang Prabang and Savannakhet. Population density and the sewage treatment in Site 1 was an attempt to get a sense proportion of households living in urban areas in Vien- of the net benefits that may arise should such facilities be tiane Capital are much higher than the national average, installed in Vientiane Capital. TABLE 3. SELECTED INDICATORS FOR KEY PROVINCES IN THE STUDY % of households Population density Province Sites GDP (US$)a Poverty incidence (%)b living in rural areasc (people / sq km)d Vientiane Capital 1&2 2,148 15 35 178 Vientiane Province 3 751 28 75 17 Luang Prabang 4&5 821 27 77 24 Savannakhet 6 897 29 50 41 a b Notes: Data taken from Ministry of Planning and Investment (2011). GDP estimates represent the average for 2006-10.; 4th Lao Expenditure and c d Consumption Survey (LECS4) for 2007/8 as cited in Ministry of Planning and Investment (2011); LECS4 2007/8; Lao Statistical Bureau – data refer to the year 2005. TABLE 4. SANITATION INTERVENTIONS EVALUATED PER SITE Site Option 1 2 3 4 5 6 Urban Urban Rural Rural Urban Rural Open defecation       Shared: Wet pita       Shared: Toilet to septic tanka       Dry pit latrine       Wet pit latrine       Toilet to septic tank       Toilet to sewer (with treatment)  a Refers to facilities that are used by two or more households. 9 Based on the sources provided in Table 3, the national averages for the proportion of households living in rural areas, poverty incidence and population density are 69%, 28%, and 24 people/sq km, respectively. www.wsp.org 11 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Methods 3.3.2 COST ESTIMATION METHODOLOGY cost estimates from the different studies were also converted to 2010 prices using the consumer price This study estimated the costs of different sanitation options. index (CPI) for non-food items, which was taken Cost estimation was based on information from an ESI from ADB (2011). household questionnaire and the existing literature. Data • Recurrent costs. These refer to expenditure on the from these sources were compiled, compared, adjusted and maintenance and operation of facilities such as water entered into standardized cost tabulation sheets. The annual for flushing toilets, water and materials used to clean equivalent costs of different sanitation options were calculat- facilities and repairs. The values used in the analysis ed based on annualized investment cost (taking into account were extracted from the ESI household survey. the estimated length of life of hardware components) and • Toilets with access to sewer facilities. The absence adding annual maintenance and operational costs. Informa- of a sewer system in Vientiane meant estimates of the tion from sanitation project and provider documentaion, cost of such facilities were not available. To address and market prices was supplemented by interviews with key this challenge, the study modeled the cost of sewer resource personnel to ensure the correctness of interpreta- facilities. It assumed that the investment and recurrent tion, and to enable adjustment where necessary. costs of toilets and sewers are higher or lower than their counterparts for toilets with access to septic tanks Key points about estimated costs include: by a given factor.10 The factors, which were extracted from similar ESI study in Indonesia (Winara et al., • Components of investment costs. Investment 2011), used in the analysis were 1.30 (investment costs represent expenditure on labor and materials costs) and 1.50 (recurrent costs). There are alternative for the construction and installation of facilities. factors from the ESI study in Vietnam (Nguyen et al., In the case of toilets, these include expenditure on 2012) that are much higher than their counterparts constructing the substructure and superstructure, for Indonesia.11 However, these were not used here in and the installation of toilet bowls. Information on an effort to use more conservative estimates of sewer the cost of facilities was taken from recent litera- system costs. Further reference to the factors from the ture (Collins, 2011 and Giltner et al., 2010). The ESI study in Vietnam is made in Section 7.4. FIGURE 5. OVERVIEW OF METHODS OF ESTIMATING FIELD-LEVEL BENEFITS OF IMPROVED SANITATION BENEFIT POPULATION WITH POPULATION WITH BENEFIT CATEGORY UNIMPROVED SANITATION IMPROVED SANITATION ESTIMATED Data on health risk per person, Generic risk reduction, Averted health care costs, HEALTH by age category & socioeconomic using international literature reduced productivity loss, status reduce deaths Data on water source and Observed changes Reduced water sourcing WATER treatment practices in practices in populations and water treatment costs with improved sanitation Data on time to access toilet Observed reductions in time Opportunity cost of time ACCESS TIME per person per day to access toilet applied to time gains Attitudes and preferences %HQHĺWVFLWHGRILPSURYHG Strength of preferences for INTANGIBLES of householders to sanitation sanitation different sanitation aspects and willingness to pay Practices related Value gained, based on REUSE to excreta reuse sales or own use 10 Mathematically, the cost of toilets with access to sewer facilities = cost of toilets with access to septic tanks x factor. 11 The factors from the ESI study in Vietnam are: (a) investment costs = 2.43 and (b) recurrent costs = 2.79. 12 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Methods Apart from the assumptions underlying the cost of access to turing the current situation in each type of household (e.g. sewers, there are a number of limitations to the other cost health status and health seeking, water practices and time data that will be used in the study. The most significant of use), as well as understanding attitudes towards poor and these limitations is the absence of information on program improved sanitation, and the factors driving household and management or behavior change communication costs, institutional decisions to invest in sanitation. These data were which suggests that costs as a whole are likely to be underes- supplemented with evidence from other local, national and timated in the study. Differences in the quality of materials international surveys and data sets on variables that could not used in construction also translate to variations in the cost of be scientifically captured in the field surveys. These included a particular sanitation option. Given the presence of multiple disease incidence and mortality rates, changes in disease rates cost estimates, a simple average was used for the study. Fi- associated with improvements in sanitation access and eco- nally, a tricky issue is the treatment of shared facilities. Com- nomic variables (incomes and discount rates). pared to private (single household) facilities, shared facilities may have a shorter expected life and higher overall main- Figure 5 presents an overview of the methods of estimating tenance and operation costs simply because there are more the benefits of moving up the sanitation ladder. The actual users. However, more users also mean that the investment size of the benefit will depend on the specific sub-type of cost per household is lower. In the analysis, shared latrines sanitation intervention implemented. were assumed to: (a) last half as long as private latrines; (b) have investment costs per household equal to total invest- The specific methods for calculating the sanitation benefits ment costs divided by the number of households; (c) have the are described below. same maintenance and operational costs as a private latrine. The last assumption ensures that the overall costs, which are Health: Three types of disease burden are evaluated for equal to the number of users multiplied by the private costs the purposes of cost-benefit and cost-effectiveness analy- per household, are higher for shared facilities. sis: numbers of cases (incidence or prevalence); numbers of deaths; and disability-adjusted life years (DALYs). The dis- 3.3.3 BENEFIT ESTIMATION METHODOLOGY eases included are all types of diarrheal disease, helminths and diseases related to malnutrition. Malnutrition is par- Economic evaluation of sanitation interventions should be tially caused by environmental factors including poor water, based on sufficient evidence of impact, thus giving unbiased sanitation and hygiene, and the presence of malnutrition estimates of economic efficiency. Hence the appropriate at- increases the risk of, and fatality from, other diseases (e.g. tribution of causality of impact is crucial, and requires a robust malaria, acute lower respiratory infection and measles) (see study design. Annex Table A2 presents alternative study de- Annex Table A3).12 Health costs averted through improved signs for conducting economic evaluation studies, starting at sanitation are calculated by multiplying overall health costs the top with the most valid scientific approaches, down to the per household by the relative health risk reduction result- least valid at the bottom. Given that the most valid scientific ing from improved sanitation measures. Health costs are approach (a randomized time-series intervention study) was made up of disease treatment costs, productivity losses and not possible within the timeframe and resources of this study, premature mortality losses. For cost-effectiveness analysis, the most valid remaining option was to construct an eco- DALYs are calculated by combining the morbidity element nomic model for assessment of the cost-benefit of providing (made up of disease rate, disability weight and illness du- sanitation interventions and of moving from one sanitation ration) and the mortality element (mortality rate and life coverage category to the next. A range of data was used in expectancy). Standard weights and disease duration are this model, reflecting households with and without improved sourced from the Global Burden of Disease study (WHO, sanitation, to ensure that before and after intervention sce- 2008), and an average life expectancy for Lao PDR of 63 narios were most appropriately captured. This included cap- years is used (WHO, 2011a). 12 A more detailed explanation of the links between sanitation and these diseases is provided in Annex A of Hutton et al. (2008). www.wsp.org 13 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Methods • Rates of morbidity and mortality are sourced from employed by this study – the human capital ap- various data sets for three age groups (0-4 years, 5-14 proach (HCA) – approximates economic loss by es- years, 15+ years), and compared and adjusted to re- timating the future discounted income stream from flect local variations in those rates. National disease a productive person, from the time of death until and mortality rates were adjusted to rates used for the end of (what would have been) their productive the field sites based on the socio-economic charac- life. While this value may undervalue premature loss teristics of sampled populations. As not all diarrheal of life, as there is a value to human life beyond the diseases come from fecal-oral transmission, an attri- productive worth of the workforce, the study faced bution fraction of 0.88 is applied for these diseases. limited alternative sources of value due to a lack of For helminths, an attribution factor of “unity” was studies (e.g. value-of-a-statistical-life [VOSL]).13 Val- used in the study – i.e. cases are fully attributed to ues are provided in Table 5, including VOSL adjust- poor sanitation. Methods for the estimation of dis- ed to Lao PDR from developed country studies. This ease and mortality rates from indirect diseases via shows that the economic value of lost life is highest malnutrition are provided in the ESI Impact Study for people above 15 years of age. report (Hutton et al., 2009). • Risk reductions of illness and death associated with • Health care costs are calculated by applying treatment- improved sanitation and hygiene interventions are seeking rates for different health care providers to the assessed from previous reviews of the internation- disease rates per age group. The calculations also take al literature (Esrey et al 1985; Esrey and Habicht into account hospital admission rates for severe cases. 1986; Esrey et al 1991; Prüss and Mariotti, 2000; Unit costs of services and patient travel and sundry Fewtrell et al 2005; Waddington et al 2009), and costs are applied based on treatment seeking. are applied and adjusted to reflect risk reduction • Health-related productivity costs are calculated by in local settings based on baseline health risks and applying time off work or school to the disease rates, interventions. per population age group. The economic cost of time lost due to illness reflects an opportunity cost of time Water: While water has many uses that go beyond the or an actual financial loss for adults with paid work. household level, the focus of the field study is use for do- The unit cost values are based on the average income mestic purposes, in particular drinking water. The most rates per location. For adults a rate of 30% of the specific link between poor management of human excreta average income is applied, reflecting a conservative and water quality is the safety aspect, which causes commu- estimate of the value of time lost. For children aged nities to take mitigating action to avoid consuming unsafe 5-14 years, sick time reflects lost time at school, water. These include reducing reliance on surface water and which has an opportunity cost, valued at 15% of the more use of wells, a treated piped water supply or bottled average income. For children under five, the time of water. This even involves the need to rely less on shallow the child carer or caregiver is applied at 15% of the dug wells, which are more easily contaminated with patho- average income. Values are provided in Table 5. gens, and to drill deeper wells. • Premature death costs are calculated by multiply- ing the mortality rate by the unit value of a death. This study measures the actual or potential economic ben- Although premature death imposes many costs on efits of improving sanitation on two sets of mitigation mea- societies, it is difficult to value precisely. The method sures: 13 VOSL studies attempt to value what individuals are willing to pay to reduce the risk of death (e.g. safety measures) or willing to accept for an increase in the risk of death. These values are extracted either from observations of actual market and individual behavior (“hedonic pricing”) or from what individuals stated in relation to their preferences from interviews or written tests (“contingent valuation”). Both of these approaches estimate directly the willingness to pay of individuals, or society, for a reduction in the risk of death, and hence are more closely associated with actual welfare loss compared with the HCA. 14 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Methods TABLE 5. VALUES FOR ECONOMIC COST OF TIME PER DAY AND OF LOSS OF LIFE, 2010 Value Thousand kip US$ Economic value of a lost life Human capital approacha 0-4 years 51,028 6,179 5-14 years 88,767 10,748 15+ years 108,187 13,100 b Value of statistical life (VOSL) 400,732 48,522 Economic value of a lost day of adult productive time (8 hours)c Site 1 (urban) 31.4 3.8 Site 2 (rural) 21.2 2.6 Site 3 (rural) 11.0 1.3 Site 4 (rural) 12.0 1.5 Site 5 (urban) 12.0 1.5 Site 6 (rural) 13.1 1.6 a Notes: The estimates assume an annual growth rate of 4.2% for real GDP and an annual discount rate of 12%. The growth rate of real GDP is based on UNICEF b (2010) data from 1990-2009 while the discount rate is the real interest rate reported in the World Bank (2011a). The VOSL of US$2 million is transferred to the study countries by adjusting downwards by the ratio of GDP per capita in each country to GDP per capita in the USA. The calculation is made using official exchange rates, assuming an income elasticity of 1.0. Direct exchange from higher to lower income countries implies an income elasticity assumption of 1.0, which may not c be true in practice. This was calculated by dividing annual provincial GDP per capita by the number of working days in Lao PDR (246 days). The result was then multiplied by 0.3 to account for the assumption that not all of the lost time will be devoted to productive activities. • Accessing water from the source. Because house- can require considerable cash outlay and time to holds walk further to access water from cleaner collect fuel. Furthermore, boiling water for drink- sources such as drilled wells, or pay more for piped ing purposes is more costly to the environment due water, access to improved sanitation would in theory to the use of wood, charcoal or electricity, with reduce these costs. For example, people may tradi- correspondingly higher CO2 emissions than other tionally prefer the taste of water from shallow wells treatment methods. If sanitation is improved and to that from deeper wells, and hence would likely the pathogens in the environment are reduced to return to use shallow wells or wells closer to their low levels, households may feel more ready to use home if they could guarantee cleaner and safer wa- simple and less costly household treatment meth- ter. In some instances, water access and treatment ods such as filtration or chlorination. If piped costs of water utilities may also be lower if they use sources could be trusted, as in most industrialized local and less contaminated water sources. Hence, countries, households may no longer feel the need expected percentage cost reductions are applied to to treat water. Hence, the cost savings associated the current costs of clean water access to estimate with changes in water treatment practices are cal- cost savings of improved sanitation. culated based on observations and expected future • Household treatment of water. Households may household treatment practices under a situation of treat water due to concerns about its safety and improved sanitation. appearance. This is commonly true even for piped treated water supplies. Boiling is the most popular Water quality measurement was also conducted in represen- method because it is perceived to guarantee that the tative field sites in order to get a sense of the impacts of im- water is safe for drinking. However, boiling water proved sanitation on local water quality (see Annex Table A4). www.wsp.org 15 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Methods Access time: Households with access to a private latrine will A summary of the key formulas, variables and data sources save time associated with going to the bush or using a shared used for calculating the monetized benefits is provided in facility. The time used for each sanitation option will vary Annex Table A5. from household to household, and from person to person, as children, men, women, and the elderly all have different 3.3.4 DATA SOURCES sanitation preferences and practices. This study calculates the time savings of improved sanitation for different population The range of different costs and benefits estimated in this groups, based on observations of households both with and study required the collection of data from a variety of sourc- without improved sanitation. The value of time is based on es such as ESI field surveys, other national surveys, gov- the same values as health-related time savings (see above). ernment documents and other research studies. The main reason for conducting the field survey was that data systems Intangibles: Intangibles are major determinants of person- such as the health information system are often of poor al and community welfare such as comfort, privacy, conve- quality and incomplete, while larger, more reliable nation- nience, safety, status and prestige. Due to its very private wide or local surveys may be out of date and may not reflect nature, it is difficult to elicit reliable responses from indi- closely the situation found in the ESI field sites. viduals, and these responses may vary considerably from one individual and social group to the next. Intangibles are Field surveys were implemented under the ESI in 2009 over therefore difficult to quantify and summarize from a popu- a period of three months. The field team had five enumera- lation perspective, and are even more difficult to value in tors under the guidance of a field manager. Information monetary terms for a CBA. Economic tools do exist for gathered by the team leader from the field sites was sent quantitative assessment of intangible benefits, such as the to the study team leader and socio-economist for further contingent valuation method, and willingness to pay sur- decision on sample design. Accurate and up-to-date data veys are commonly used to value environmental goods. on the sites were difficult to find, even with the assistance of However, there are many challenges to the application of village chiefs. This made it necessary to implement a rapid these methods in field settings that affect their reliability and household survey in prospective sites prior to the actual validity, and ultimately the appropriate interpretation of survey. During this process, the field team collected infor- quantitative results. Furthermore, willingness to pay often mation on the number of households and people in the captures not only the intangible variables being examined, sites, the type of toilet facilities and water supplies in use, but also the preferences that have been valued elsewhere and solid waste management conditions and practices. The in this study (e.g. health and water benefits). The current rapid household survey also assisted in the formulation and study therefore attempts only to understand and measure specification of a relevant sample for actual survey. In Site sanitation knowledge, practices and preferences in terms of 2, for example, extensive pre-survey work in 36 villages led ranking scales. This enables a separate set of results to be to the identification and selection of villages that met the provided alongside the monetary-based efficiency measures. relevant criteria for a good sample. For each site, respon- dents were selected through a two-stage stratified sampling External environment: The impacts of poor sanitation technique. Households were grouped initially into those practices on the external environment are also difficult to that received and those that did not receive sanitation inter- quantify in monetary terms. Hence, this study attempts vention. A random sample of households was then selected only to understand and measure practices and preferences from each group. The contents of the field tools applied are in relation to the broader environment, in terms of rank- introduced briefly below. ing scales and descriptive presentation. Given that human- related sanitation is only one of several factors in environ- Field tool 1: Household questionnaire. Household ques- mental quality, other aspects – sources of water pollution, tionnaires consisted of two main parts. The first was for solid waste management, and animal waste – are also ad- household representatives (the senior male and/or female dressed to understand human excreta management within household member, based on availability at time of inter- the overall picture of environmental quality. view) while the second was a shorter observational com- 16 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Methods ponent covering mainly the physical water, sanitation and selected field sites and the quality of local water bodies. hygiene features of the household. The interview section of Given the time scale of the study, it was not possible to the questionnaire consisted of the following: measure water quality variables before the project or pro- gram was implemented; neither was it possible to compare • Socio-economic and demographic information, and wet season and dry season measurements. The water qual- household features ity measurement survey was contracted to Geo-Sys Lao. • Current and past household sanitation options and The study enabled a broader comparison of water quality practices, and mode of receipt between study sites with different sanitation coverage lev- • Perceived benefits of sanitation, and preferences re- els. Water sources tested at the sites included ground wa- lated to external environment ter (wells), standing water (ponds, canals), flowing water • Household water supply sources, treatment and stor- (rivers, wastewater channels) and tap water. Annex Table age practices A4 shows the type of test and location per parameter, and • Health events and treatment-seeking behavior the number and type of water sources tested. Parameters • Hygiene practices measured varied per water source, but generally included • Household solid waste practices E. Coli, Biological Oxygen Demand for 5 days (BOD5), Chemical Oxygen Demand (COD), Dissolved Oxygen The household questionnaire was applied to 1,211 house- (DO), Nitrates, Ammonia, conductivity, turbidity, pH, holds over the six sites, or an average 202 households per and residual chlorine. site. Annex Table A6 presents the sample sizes per sanitation option and per field site. Other data sources: In addition to the data collected from the field sites, information was gathered from other sources Field tool 2: Focus group discussion. The purpose of the to support the field-level cost-benefit study, such as reports, focus group discussions (FGD) was to elicit behavior and interviews, and data sets. These included: preferences in relation to water, sanitation and hygiene among different population groups, classified by sanitation • Local literature and interviews: costs and lifespan of coverage (with versus without toilets) and by gender. The toilet facilities topics covered in the FGDs followed a generic template • International literature and publications: incidence of discussion topics, but the depth of discussion was dic- and mortality rates of disease, effectiveness of sanita- tated by the readiness of the participants to discuss them. tion and hygiene interventions to avert disease, eco- The added advantage of the FGD approach is to discuss nomic data, and sanitation coverage (JMP data). aspects of sanitation and hygiene that may not otherwise be revealed by face-to-face household interviews, and to 3.3.5 DATA ANALYSIS either arrive at a consensus or otherwise to reflect the diver- sity of opinions and preferences for sanitation and hygiene The types of costs and benefits included in the study are among the population. listed in Section 3.2, which describes how costs, benefits and other relevant data are analyzed to arrive at overall cost- A total of 21 FGDs, attended by 146 participants, were benefit estimates. conducted at the sites (see Annex Table A7). The socio- economist/project coordinator led the FGDs at Sites 1 to 3 The field level CBA generates a set of efficiency measures and the field manager led the FGDs for Sites 4 to 6. Each from site-specific field studies, focusing on actual imple- session lasted for about 90 minutes. mented sanitation improvements, including household and community costs and benefits. The costs and benefits are Field tool 3: Water quality measurement. Because poor estimated in economic terms for a 20-year period for each sanitation has detrimental impacts on water quality, spe- field site, using average values based on the field surveys and cial attention was paid in this study to identify the rela- supplemented with other data or assumptions. Five major tionship between the type and coverage of toilets in the efficiency measures are presented: www.wsp.org 17 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Methods 1. The benefit-cost ratio (BCR) is the present value of whether intervention efficiency is higher or lower in dif- the future benefits divided by the present value of the ferent income categories and socio-demographic groups, future costs, for the 20-year period. Future costs and input values for poor and vulnerable groups without benefits (i.e. beyond the first year) were discounted sanitation were entered into the economic model, and to present value using a rate of 12%. The discount compared with the average and high income groups. In- rate is the real interest rate reported for 2010 by the formation across study sites is likely to differ in terms of World Bank (2011a). Coincidentally, this is also the household size, value of time, disease and mortality rates, same discount rate used by Kwon (2005) and Phol- water supply and treatment practices, and the cost per sena et al (2003) in other Lao PDR-based studies. sanitation option. 2. The cost-effectiveness ratio (CER) is the present value of the future health benefits in non-monetary 3.4 NATIONAL STUDIES units (cases, deaths, DALY) divided by the present value of the future costs, for the 20-year period. Fu- National-level studies served two main purposes: (a) to as- ture costs and health benefits (i.e. beyond the first sess the impacts of improved sanitation outside field sites to year) are discounted to present value using a dis- enable a more comprehensive CBA (tourism, business and count rate (see above). sanitation reuse value); and (b) to complement or supple- 3. The internal rate of return (IRR) is the discount rate ment data collected at field level to enable better assessment at which the present value equals zero – that is, the of local-level impacts. costs equal the benefits – for the 20-year period. It shows the annual equivalent rate of return of spend- 3.4.1 TOURIST AND VISITOR SURVEY ing on sanitation, and can be compared with other development projects or alternative uses of funds There is arguably a link between sanitation and tourism (e.g. earning interest in a bank account). for which very limited data currently exist (Hutton et al, 4. The payback period (PBP) is the time after which ben- 2009). Poor sanitation and hygiene may affect tourists in efits have been paid back, assuming initial costs exceed two ways: benefits (due to capital cost) and over time benefits exceed costs, thus leading to a break-even point. 1. Short-term welfare loss and expenses of tourists who 5. The net present value (NPV) is the net discounted travel to Lao PDR. Tourists can get sick from diar- benefits minus the net discounted costs. rhea, intestinal worms, hepatitis and other diseases, which have direct healthcare costs. Tourists may also The results are presented by field site and each sanitation be exposed to poor environmental conditions, in- improvement option is compared with the “no sanitation” cluding poor sanitation, which can reduce their en- option (i.e. open defecation). In addition, selected steps joyment of the holiday. up the sanitation ladder are presented, such as from shared 2. Reduced numbers of tourists selecting Lao PDR as latrine to private latrine, from dry pit latrine to wet pit la- their destination. Tourists may stay away from loca- trine, and from wet pit latrine to sewers. The efficiency ra- tions that are deemed unsafe (from a health perspec- tios are presented both under conditions of well-delivered tive) and unpleasant (unclean water, smelly environ- sanitation programs that lead to well-functioning sustain- ment, lack of proper toilets, etc). Tourists who have able sanitation systems, and sanitation systems and prac- visited such locations may decide not to return or tices under actual conditions. Given that not all sanitation not to recommend the location to friends. benefits have been valued in monetary units, these benefits are described and presented in non-monetary units along- This study attempts to explore these two impacts through a side the efficiency measures. survey of non-resident foreign visitors. Aside from holiday tourists, business visitors were also included to get their per- The results described above reflect data on the input vari- sonal views and to make an important link with the business ables of the “average” population. Therefore, to assess survey (Section 3.4.2). 18 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Methods Some 235 visitors were interviewed during October 2009. Table 6 shows that most of the respondents (188) were in Slightly more than half of the respondents (118 visitors) were Lao PDR for a holiday, while the rest were in the country interviewed prior to leaving the country at Wattay Interna- for business purposes. Moreover, the majority of those in- tional Airport. About a third of the respondents (84 visitors) terviewed (178) were first time visitors. About 54% of the were interviewed in locations that are frequently visited by respondents came from Asian countries while the rest were tourists (including hotels, restaurants, temples and museums) Western visitors. Respondents were predominantly (57%) in Vientiane Capital. The remaining respondents were inter- male. viewed at the domestic departure area of Wattay Airport.14 3.4.2 BUSINESS SURVEY The survey team was composed of three members and the interviews were conducted over 16 working days. In all cas- Poor sanitation also has the potential to affect businesses in es, visitors were approached by the team members and the two ways: purpose of the survey was explained. Visitors agreeing to take part were then interviewed on the spot. The interviews, 1. Higher business costs and lost income. Businesses which were conducted either in English or Thai, lasted for 10 located in areas with poor sanitation may pay higher to 30 minutes. costs (e.g. having to pay more to access clean water) or lose income (due to customers being unwilling to The survey form included questions on the following topics: visit the location). It should be noted, though, that the customer losses are not necessarily absolute loss- • Length of trip, places stayed and price category of es to the country, as customers may have the choice hotel to go elsewhere – i.e. to other businesses located in • Level of enjoyment of different locations visited, and other areas. reasons 2. Foreign businesses that decide not to locate in Lao • Sanitary condition of places visited, and availability PDR. Sanitation may be one of the many decision of toilets variables for locating a business activity in a par- • Water and sanitation-related sicknesses suffered, per- ticular country. There are several pathways through ceived sources, days of sickness, and type and cost of which poor sanitation may affect a business’ decision treatment sought to locate in Lao PDR: (a) health of the workforce, • Major sources of concern for a holiday stay in Lao due to actual statistics or business leader perceptions PDR of the poor health of a nation’s workers; (b) poor • Intention to return to Laos, recommendation to (perceived) quality of water for use by the business, friends, and reasons and the related costs; (c) general poor environment TABLE 6. SAMPLE SIZES FOR TOURIST SURVEY, BY MAIN ORIGIN OF TOURIST Visitor Holiday tourists Business visitors Visitors nationality First time visitors Repeat visitors Total First time visitors Repeat visitors Total total Asian 1a 30 6 36 5 14 19 55 b Asian 2 19 0 19 4 3 7 26 c Asian 3 31 9 40 3 3 6 46 Westernersd 79 14 93 4 11 15 108 Total 159 29 188 16 31 47 235 a b Notes: Refers to visitors from Indonesia, Malaysia, the Philippines and Thailand. Refers to visitors from China, Myanmar, North Korea and Vietnam. c d Refers to visitors from Hong Kong, Japan, Singapore, South Korea and Taiwan. Refers to visitors from Australia, New Zealand, Europe and North America 14 Wattay Airport offers flights to eight domestic destinations. www.wsp.org 19 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Methods (solid waste, unsightliness), which affects the ability who were Lao nationals. The two tour agencies were lo- to do business; and (d) undesirability of foreign staff cally owned. One of the agencies mainly operated within to be located in Lao PDR due to poor sanitary con- Lao PDR (and through the internet), while the other op- ditions, among other things. erates within the region and with six globally spread sales offices. The operations manager and a foreign advisor were In order to assess these hypothesized effects, 17 firms locat- interviewed for the first travel agency while the owner was ed in Vientiane Capital were surveyed through face-to-face interviewed for the second. The two pharmaceutical firms interviews and, in some cases, in-depth discussions. Table were owned by the Lao government. The respondents were 7 provides a breakdown of the type of firms interviewed the director of one of the factories and the vice managing in this exercise. The food and beverage sector had seven director of the other. respondents, of which five were Lao-owned. These firms are small family enterprises targeting the local market - a These firms were selected based on the hypothesized link slaughter house, a seafood importer, and producers of noo- between sanitation and their businesses, and the impor- dles, meatballs and ice. The owners of the local firms were tance of the sector and specific firm to the Lao economy. interviewed for this study. The international firms were Naturally, the survey of foreign firms was of those that are composed of a bakery and brewery. The bakery, which only already located in Lao PDR, and hence a key category of operates in Lao PDR, has several factories and sales outlets. firm – those that had decided against locating in Lao PDR In contrast, the brewery is a global firm that produces for – were not included in the sample. However, foreign firms both local and foreign markets. The production managers were asked about the factors affecting their decision to lo- of the two foreign-owned firms were interviewed. cate in Lao PDR, and their experiences of the country. The tourist sector was represented by three restaurants, The survey form included questions on the following topics: three hotels and two travel agencies. Two of the selected restaurants are owned by Lao citizens and their foreign • Ownership, sector, activities, employees and location partners. In both cases the Lao owner was interviewed. The of firm (production, sales, etc.) third restaurant was owned by two foreigners (western- • Perceptions of sanitation at company location ers) living in Lao PDR, one of whom was interviewed. All • Factors affecting decision to locate in country or three restaurants only operate within Lao PDR, with one area, and intention to relocate of the firms having several branches. All of the hotels were • The production and sales costs related to different as- owned by foreigners, and two were part of larger interna- pects of poor sanitation (health, water, environment) tional chains. The respondents from these hotels included • Potential costs and benefits of improved sanitation a human resource manager and two assistant managers, related to the business TABLE 7. SAMPLE SIZE FOR BUSINESS SURVEY, BY MAIN SECTORS OF FIRMS Main business or sector of firm Local firm Foreign firm Total Food and beverage producers 5 2 7 Restaurants 2 1 3 Hotels 1 2 3 Travel agencies/local tour operators 2 0 2 Pharmaceutical factories 2 0 2 Total 12 5 17 20 Economic Assessment of Sanitation Interventions IV. Local Benefits of Improved Sanitation This section presents the local benefits arising from access 4.1 HEALTH to improved sanitation.15 This includes direct household benefits, which represent actual or perceived gains that mo- The succeeding sub-sections discuss the key values and as- tivate households to invest in sanitation. Also covered are sumptions used in the calculation of health benefits. These also local-level external benefits that refer to gains received by all summarize the estimated benefits for the different study sites. households living in areas where members of the commu- nity have improved their access to sanitation. In describing 4.1.1 DISEASE BURDEN OF POOR SANITATION the local benefits of improved sanitation, this section covers the following topics: Table 8 shows the disease burden associated with poor sanita- tion and hygiene among children under the age of five years. • Health (Section 4.1) It indicates an estimated 5,548 disease cases, 8 deaths and 76 • Water (Section 4.2) DALYs lost per 1,000 children each year in rural areas. While • Access time (Section 4.3) estimated disease mortality and DALYs are not too different • Intangible sanitation preferences (Section 4.4) from those in urban areas, incidence rates for children living in rural areas are about 24% (5,549 per 1,000 against 4,479 • External environment (Section 4.5) per 1,000) higher than in urban areas. Diarrheal diseases ac- • Project performance and actual benefits (Section 4.6) count for the largest proportion of cases, deaths and DALYs • Summary of local benefits (Section 4.7) lost among children under the age of five years. TABLE 8. DISEASE RATES AND DEATHS ATTRIBUTABLE TO POOR SANITATION AND HYGIENE FOR CHILDREN UNDER FIVE YEARS, ANNUAL RATES PER 1,000 PEOPLE, 2010 Rural Sites Urban Sites Disease Cases Deaths DALYs Cases Deaths DALYs Direct diseases Diarrhea 4,143 3.63 36.05 3,074 3.63 34.51 Helminths 1,000 0.03 6.28 1,000 0.03 6.28 Indirect diseases Malnutrition 316 0.35 3.19 316 0.35 3.19 Malaria 4 0.52 4.31 4 0.52 4.31 Acute lower respiratory infection 85 1.62 13.76 85 1.62 13.76 Measles nr 1.56 12.89 nr 1.56 12.89 Total 5,548 7.72 76.47 4,479 7.72 74.93 Note: nr = not relevant; Source: Annex Table B1 15 Please refer to Section 3.2 for a more detailed explanation of the local-level benefits. www.wsp.org 21 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation Site-specific and age-specific rates used in the study are Table 9 summarizes treatment-seeking rates for diarrhea presented in Annex Table B1.16 It is important to note that among children aged below five years. Using information the lack of reliable site-specific information on disease from the ESI household survey and WHO (2011b), it indi- rates means that only rural-urban differences are estimated cates that the majority of the respondents went to hospitals here. and other formal facilities.This practice appears to be more prevalent in urban areas. The use of informal care facilities To some extent, quality of life impacts associated with mor- and other treatment practices is also more common in rural bidity are reflected in the DALY calculations above, and in areas. Due to the lack of reliable information, the treatment the estimates of health care and productivity costs presented practices found in Table 9 were also used for the other age in later sections. However, these estimates still fail to fully groups (i.e., ages 5 years and above) in the analysis. capture the pain, suffering and discomfort that come with disease. For example, it is possible that adults continue to The ESI household survey found that, among those who report for work even though they are sick. Hence, while went to hospitals, in-patient admission rates varied by disease there might not be a loss of income for these sick adults, the and location. Given the relatively small number of responses additional discomfort associated with working at a time of for each of the sites however, the approach was to calculate illness is not captured in the analysis. the in-patient admission rates for the different age groups in the rural and urban sites as a whole, rather than by specific Figure 6 shows the incidence rates for direct diseases for site. The results were in-patient admission rates (as a percent- all age groups and sites. The values reported here are lower age of all disease cases) with the following ranges: than in Table 8 because incidence rates for diarrheal diseases are lower among older age groups. • Diarrhea: 33% (urban) to 50% (rural) • ALRI: 33% (rural) to 38% (urban) 4.1.2 HEALTHCARE COSTS • Malaria: 15% (rural) to 50% (urban) Healthcare costs were estimated using information on the There was no available information on in-patient admission number of cases, proportion of illnesses treated by each pro- rates for helminths, so an in-patient admission rate of zero was vider, and unit costs associated with each provider. used.17 FIGURE 6. COMPARISON OF DIRECT DISEASE RATES FOR ALL AGE GROUPS, PER 1,000 PEOPLE 655.5 Rural 719.6 Summary 593.0 Urban 433.7 578.9 1 (U) 402.5 627.7 2 (R) 686.8 686.9 3 (R) 820.6 By site 4 (R) 654.9 708.5 607.7 5 (U) 466.4 650.5 6 (R) 663.6 0 200 400 600 800 1000 Helminths Diarrhea cases per 1,000 persons Notes: R =. rural site; U. = urban site Source: Annex Table B1 16 Annex Table B2 contains a list of diseases rates that were initially considered in the study. 17 This assumption was also adopted in the Philippines (Rodriguez et al., 2011), where doctors interviewed said that people who suffered from helminths were basically out-patient cases. 22 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation Unit costs for treating diarrheal disease are provided in Ta- costs used in the analysis were drawn from the ESI household ble 10. Outpatient costs of hospital care (public and private survey. Annex Table B4 presents unit costs associated with hospitals and clinics) are comprised of doctors’ fees and pay- diarrhea, helminths, ALRI and malaria. ments for medicine in such facilities. These were estimated to be about 162,000 kip (US$20) and 132,000 kip (US$16) Table 11 shows the estimated annual healthcare costs per per- per case in rural and urban areas, respectively. In-patient costs son attributed to poor sanitation and hygiene in Lao PDR. for treating diarrhea in the rural sites were about 212,000 The values account for the unit costs of diseases and their kip (US$25) per patient, which is about 25% higher than in respective incidence rates. The table indicates three clear pat- urban areas. Incidental expenses capture transport costs as- terns. First, healthcare costs per person were higher as a whole sociated with traveling to the facility. These costs were found in rural areas than in urban areas. Second, diarrheal diseases to be quite high for Lao PDR, especially in rural areas. All the accounted for a large proportion of healthcare costs per TABLE 9. TREATMENT-SEEKING BEHAVIOR FOR DIARRHEA, OF CHILDREN UNDER FIVE YEARS, % OF CASESa Facility Urban Rural Hospitals 42.9 25.7 Other formal facilities 50.0 25.7 Informal care 7.2 45.7 Self-treatment - 5.3 No treatment - 9.6 a Note: The values may not total 100% due to multiple facilities/practices used by patients. Annex Table B3 shows the treatment-seeking rates that were considered for the different diseases in this study. Source: WHO (2011b) and ESI survey TABLE 10. UNIT COSTS ASSOCIATED WITH TREATMENT OF DIARRHEA, THOUSAND KIP, 2010 Rural Urban Health provider a Health care Incidentals Health care Incidentalsa Hospitals (out-patient) 161.7 161.1 132.3 80.6 b Hospitals (in-patient) 211.7 161.1 169.5 80.6 Other formal care 170.0 82.8 139.0 6.3 c Informal 100.0 - 100.0 - Self-treatment 11.4 - - - a b c Note: Incidentals = transport costs; Hospital in-patient care = represents costs for the entire duration of stay; no transport costs were available for informal care Source: Annex Table B4 TABLE 11. AVERAGE HEALTHCARE COST PER PERSON PER YEAR IN FIELD SITES, THOUSAND KIP, 2010 Rural Urban Disease 0-4 yrs 5-14 yrs 15+ yrs 0-4 yrs 5-14 yrs 15+ yrs Diarrheal disease 997.0 136.4 68.2 636.0 87.0 43.5 Helminths 149.0 149.0 71.1 87.9 87.9 41.9 Malaria 2.2 nc nc 4.7 nc nc ALRI 23.4 nc nc 84.5 nc nc Total in thousand kip 1,171.7 285.4 139.3 813.0 174.9 85.4 Total in US$ 141.9 34.6 16.9 98.4 21.2 10.3 Source: Author’s calculations. www.wsp.org 23 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation person. This is especially the case among children under the • Helminths: lost days equal half of values used for di- age of five where at least 78% of the costs were attributed to arrhea (assumption) diarrheal diseases. Third, healthcare costs of children under the age of five years were substantially higher than in any other The value of the lost time can be estimated by the value age group. In rural areas for example, healthcare costs for this of the income that patients and carers could have earned age group amounted to about 1.17 million kip (US$142) per during the period of the illness. Recognizing the alterna- person. This is approximately 4 times larger than the costs for tive approaches to the valuation of opportunity costs (e.g. children between the ages of 5 and 14 years, and more than 8 lost income), the study used estimates of provincial GDP times larger than the costs for adults (over 15 years). While this per capita as the basis for approximating foregone income.19 may be explained mostly by the higher incidence of diarrhea in However, the values were scaled down to 15% and 30% of the under-5 age group, it is important to note that the relative GDP per capita per day for under fives and the other age differences across age groups are overstated because malaria groups, respectively. The adjustment follows the approach and ALRI were not accounted for in the health costs of people of the ESI Impact Study (Hutton et al., 2009) to account over the age of five years. for the possibility that not all of the time lost was spent on productive activities. It was also an attempt to generate 4.1.3 PRODUCTIVITY COSTS more conservative estimates of the impacts. Two sources of productivity costs are associated with disease. Table 12 shows the estimated productivity losses per person The first is the cost to patients who are unable to perform arising from the assumptions discussed above. It indicates their regular activities. A second cost, which is often ignored, annual losses of approximately 110,000 kip (US$13) and is that borne by carers who take time away from their regular 129,000 kip (US$16) per person for children under the age activities to look after a patient. The study attempts to esti- of five years in rural and urban areas, respectively. This is mate the productivity losses associated with these two costs. due mainly to the relatively high incidence of disease, par- ticularly diarrhea, in this age group. Despite relatively low In valuing productivity losses, respondents were asked about diarrheal incidence rates, productivity costs in urban areas the number of days household members were sick per case are larger because of higher incomes. of disease. They were also asked about the amount of time spent by carers to look after patients. The survey found that, 4.1.4 MORTALITY COSTS on average, lost productivity days from diarrheal diseases were about 3.2 (under 5 age group), 4.4 (5-14 age group), Table 13 shows the costs associated with premature death and 3.8 (over 15 years). The number of lost productivity (mortality). The values were computed by multiplying the days of adults directly associated with the disease (2.7 days probability of death and the value of life using the human per case) was actually lower than the value used in the study. capital approach (Table 5). There are two clear findings in- This is because 1.1 days were added to account for the time dicated by Table 13. First, the highest costs are reported spent caring for sick children in the case of diarrhea. The for children under the age of five years. In rural sites for ESI household survey also indicates the following number example, costs for this age group are more than 25 times of days lost due to illness as a result of other diseases:18 higher than the costs for the other age groups. This is due to the high diarrheal incidence rate assumed for this age group • ALRI: 5.1 days (children under 5 years), 4.0 days and the fact that mortality costs associated with malaria and (5-14 years), 5.8 days (over 15 years) ALRI were not calculated for the other age groups. Second, • Malaria: 11.6 days (children under 5 years), 9.1 days in the case of children under the age of five years, a large (5-14 years), 16.2 days (over 15 years) proportion of the costs are due to diarrheal diseases. 18 Lost adult time includes the number of days allocated to caring for sick children. 19 There are no up-to-date or 2010-specific estimates of provincial GDP per capita in Lao PDR. These values were approximated by multiplying 2010 GDP per capita at the national level by the ratio of provincial to national GDP from 2006 to 2010. The raw data were taken from the Ministry of Planning and Investment (2011). 24 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation TABLE 12. AVERAGE PRODUCTIVITY COST PER PERSON PER YEAR IN FIELD SITES, THOUSAND KIP, 2010 Rural Urban Disease 0-4 yrs 5-14 yrs 15+ yrs 0-4 yrs 5-14 yrs 15+ yrs Diarrheal disease 94.9 18.0 15.5 106.8 20.2 17.4 Helminths 11.5 15.9 13.1 17.4 24.0 19.8 Malaria 0.4 nc nc 0.6 nc nc ALRI 3.1 nc nc 4.7 nc nc Total in thousand kip 109.9 33.8 28.6 129.4 44.2 37.2 Total in US$ 13.3 4.1 3.5 15.7 5.4 4.5 Source: Author’s calculations. TABLE 13. AVERAGE MORTALITY COST PER PERSON PER YEAR IN FIELD SITES, THOUSAND KIP, 2010 Rural Urban Disease 0-4 yrs 5-14 yrs 15+ yrs 0-4 yrs 5-14 yrs 15+ yrs Diarrheal disease 185.5 10.7 13.0 185.5 10.7 13.0 Helminths 1.7 - - 1.7 - - Malnutrition 17.7 - - 17.7 - - Malaria 26.5 - - 26.5 - - ALRI 82.9 - - 82.9 - - Total in thousand kip 332.0 10.7 13.0 332.0 10.7 13.0 Total in US$ 40.2 1.3 1.6 40.2 1.3 1.6 Source: Author’s calculations. ‘–’ not calculated FIGURE 7. RELATIVE RISK REDUCTION OF FECAL-ORAL DISEASES AND HELMINTHS FROM DIFFERENT SANITATION 4.1.5 AVOIDED HEALTH COSTS INTERVENTIONSª Health effects are central to the arguments for improving 0.9 sanitation and hygiene. Since limited evidence exists of the 0.8 actual impact of sanitation or hygiene programs on health outcomes in Lao PDR, this study draws on international 0.7 evidence. Figure 7 shows the different risk exposure sce- 0.6 narios being compared in this study, and the relative risk of fecal-oral disease and helminths infection associated with 0.5 each scenario. The left-hand scenarios (basic improved sani- 0.4 tation) are relevant mainly to rural areas, while the right- hand scenarios (moving to treatment of sewage and waste- 0.3 water) are relevant mainly to urban areas. 0.2 0.1 The ESI household survey provides some (rather weak) support to the earlier assertion that lower disease inci- 0.0 dence is associated with moving up the sanitation lad- Fecal-oral Helminths der. The survey asked respondents whether they observed changes in the diarrheal disease incidence since receiving Note: a See the “Methodology” section for the relevant references, and Hutton et al (2012) for a more detailed discussion of the values. a new latrine. Their responses suggest that lower inci- Source: Author’s calculations dence was noticed among those receiving access to basic www.wsp.org 25 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation sanitation facilities (Table 14). For example, about 25% household was 1.19 million kip (US$145) per year. While of respondents who recently had access to shared wet pit the costs are still dominated by health care, the proportionate latrines said that the incidence of diarrheal disease among contribution of productivity losses was higher in urban areas household members was “probably less” or “a lot less”. because of relatively high incomes. Panel B of Figure 8 shows This value was lower than those who received toilets that the estimated costs averted from sanitation improvements. flush to septic tanks (private and shared), dry pit latrines It indicates that health costs fall by 720,000 kip (US$87) and wet pit latrines. as a rural household moves from open defecation to access to basic sanitation. In the case of urban households, a shift Figure 8 (Panel A) summarizes the estimated total costs per from open defecation to basic sanitation access causes a cost household of poor sanitation and hygiene for the field sites. reduction of 482,000 kip (US$58). A movement from ba- It shows that the health cost for the average rural household sic sanitation to sewerage access causes a smaller reduction in the sites was about 1.79 million kip (US$216) per year. in health costs. For the typical urban household in the sites, About 77% of these costs were accounted for by health care. this reduction was estimated at about 276,000 kip (US$33). The remainder was divided between productivity and mor- The results capture diminishing returns in movements up the tality costs. The estimated health cost for the average urban sanitation ladder. TABLE 14. PERCEIVED DIFFERENCE IN DIARRHEAL INCIDENCE SINCE IMPROVED SANITATION, AT ALL FIELD SITES Sanitation coverage after Number of (% of responses) intervention responses A lot less Probably less No change Probably more A lot more Don't know Shared wet pit latrine 42 14.3 9.5 57.1 7.1 7.1 4.8 Shared toilet to septic tank 10 10.0 30.0 50.0 - - 10.0 Dry pit latrine 69 15.9 21.7 42.0 7.2 8.7 4.3 Wet pit latrine 333 20.1 21.3 34.5 9.0 10.2 4.8 Toilet to septic tank 121 16.5 20.7 46.3 8.3 5.0 3.3 All interventions 582 18.3 20.5 39.8 8.3 8.5 4.5 Source: ESI survey FIGURE 8. HEALTH COSTS OF UNIMPROVED SANITATION (A), AND HEALTH COSTS AVERTED OF IMPROVED SANITATION OPTIONS (B) 2000 800 1800 700 1600 600 1400 500 thousand kip thousand kip 1200 1000 400 800 300 600 200 400 200 100 0 0 Rural Urban Health Care Productivity Premature Death (A) (B) Source: Author’s calculations. 26 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation 4.2 WATER Despite being a landlocked country, Lao PDR is well en- adds that demographic and economic developments pose dowed with water resources. This is because the Mekong risks to the quality of inland surface water. River, the tenth largest in the world, passes through most of the provinces of the country, including Vientiane Capi- There is also some evidence of groundwater contamination tal. The Water Environment Partnership in Asia (WEPA) in Vientiane Capital. Baetings and O’Leary (2010) cite website indicates a total annual water flow in the country that thermo-tolerant coliforms were found in 31 of 33 test of about 270 billion m3, which is approximately a third of samples taken from sources around the city. The study con- the annual water flow of the Mekong River basin (WEPA, cluded that these findings suggest an “intermediate” threat undated). to health if the water is consumed by humans. Apart from river systems, other valuable water resources in Pollutants would be diluted naturally and natural bacte- the country are wetlands such as floodplains, swamps and riological processes would reduce the pollution load in ar- marshlands. Gerard (2004) notes that Vientiane Capital eas with small populations and abundant water resources. had an estimated 1,500 km2 of wetlands in the mid-1990s While population densities in Lao PDR are small compared and that the largest of the wetland in the region is That to other countries in Asia, its growing population, especially Luang Marsh, which has an area of 20 km2. in urban centers, along with poor sanitation and wastewater disposal facilities pose a threat to water quality. The quality of the water in rivers and wetlands is without a doubt important in terms of rural and urban water sup- 4.2.1 WATER QUALITY AND ITS DETERMINANTS plies, fisheries, power, irrigation and transport. On the basis of the high oxygen levels and low nutrient concentration, A water quality survey was implemented at the study sites the WEPA (undated) asserts that the quality of water in in order to triangulate water quality readings with house- river systems in Laos is “good”. However, it also states that hold practices and perceptions with sanitation practices. sedimentation is the primary source of pollution in rivers, This section discusses selected findings while Annex Table with loads varying from 41 to 345 tons/km2/year. It also C1 provides the full results of the survey. FIGURE 9. TEST RESULTS FOR E-COLI BY SITE (A) AND WATER SOURCE (B) 100.0 72.7 1 (Urban) 0.0 0.0 Canal, drain, 18.5 5.9 river, pond 2 (Rural) 52.9 9.3 41.2 40.0 3 (Rural) 46.7 Sewage 100.0 13.3 draining to 0.0 100.0 water 4 (Rural) 0.0 body/river 0.0 0.0 94.4 5 (Urban) 5.6 53.3 0.0 Well 26.7.0 80.0 6 (Rural) 6.7 20.0 13.3 0 10 20 30 40 50 60 70 80 90 100 0 10 20 30 40 50 60 70 80 90 100 % of sample with cfu/100 mg > 23 % of sample with cfu/100 mg > 23 % of sample with 0 < cfu/100 mg < 23 % of sample with 0 < cfu/100 mg < 23 % of sample with cfu/100 mg = 0 % of sample with cfu/100 mg = 0 by siteª by water body b a The sample sizes (in parentheses) are as follows: Site 1 (11); Site 2 (17); Site 3 (15); Site 4 (14); Site 5 (18); and Site 6 (15). b The samples sizes (in parentheses) are: canals; drains; rivers; ponds (54); sewage draining to water body/river (6); and wells (30). Source: ESI survey www.wsp.org 27 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation FIGURE 10. TURBIDITY READINGS AT FIELD SITES, NTU Figure 9 (Panel A) summarizes the results of tests for E. Coli in 90 wells, surface waters and sewer drains at the study sites.20 It suggests that 88% (79 of 90) of the water bodies/sources 25 tested positive for the presence of E. Coli. Moreover, about two-thirds (61 out of 90) of the water bodies/sources had 20 readings in excess of 23 colony-forming units (CFU)/100 ml. A more serious concern however is that 20 of the 22 NTU 15 drinking water sources tested positive for E. Coli; of which, 15 sources had readings in excess of 23 CFU/100 ml. Figure 10 9 (Panel B) also shows that, as expected, all sewage that drains to water bodies or rivers failed the test for E.Coli. More than 5 half of the wells tested had the same results. 0 The water quality survey also tested for turbidity (the cloudi- ness of the water caused by small suspended particles). Mea- Source: ESI survey sured in terms of Nephelometic Turbidity Units (NTU), high turbidity levels suggest a heavy concentration of small FIGURE 11. EXTENT OF ISOLATION OF HUMAN EXCRETA IN suspended particles. Figure 10 summarizes the results of the FIELD SITES, % OF RESPONDENTS turbidity tests for 21 drinking water sources (wells) at the sites. The average reading of 5.1 NTU is within the drink- 0.0 1 ing water standard of less than 10 NTU.21 However, three 100.0 of the wells tested (two in Site 6 and one in Site 4) had 17.3 readings above the standard. Two wells (one each for Sites 4 2 82.7 and 6) were estimated at 20 NTU, which is about 2 times as much as the standard. 48.5 3 51.5 The test results presented above suggest that there is signifi- 24.7 cant room for improvement in the quality of water at the 4 study sites. This is underscored by the finding that a large 75.3 proportion of the water sources, especially those sources 20.2 used for drinking water, tested positive for E. Coli. This 5 79.8 is somewhat supported by the high turbidity readings for 49.3 some of the wells that are used as drinking water sources. 6 50.7 Figure 11 shows the proportion of households in the ESI 28.0 household survey with sanitation facilities that are likely to All 72.0 contribute to water pollution. It indicates that about 72% of the households at the sites have facilities that partially isolate 0 10 20 30 40 50 60 70 80 90 100 contaminants that contribute to water pollution while the re- percent of households mainder provide no isolation.22 These findings appear consis- Not isolated Partially isolated tent with earlier results, where a large proportion of the water Source: ESI survey sources tested positive for E Coli. The unimpressive findings 20 E. Coli is a species of coliform whose presence may be indicative of pollution from human or animal waste. 21 Appendix 17 of Baetings and O’Leary (2010) shows that the standard for turbidity in drinking water sources is less than 10 NTU. 22 Households with toilets that flush to treated sewers or septic tanks that are desludged and treated at an off-site facility are assumed to have full isolation in the ideal analysis. Open defecation to water bodies represents no isolation. All other practices or facilities are assumed to only partially isolate contaminants that contribute to water pollution. 28 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation of the water quality survey could also be indicative of poorly indicates that the largest sources of water for all sites were built facilities and poor waste disposal practices. bottled water (41% of respondents) and other non-piped protected sources (30%). The heavy use of bottled water 4.2.2 HOUSEHOLD WATER ACCESS AND is influenced by the high proportion of users in urban sites TREATMENT COSTS (61%). In contrast, rural respondents were the primary rea- son for the rather large proportion of users of other non- One of the major consequences of polluted water in wells, piped water sources at all sites. On average, the economic springs, rivers and lakes is that populations and water sup- cost of drinking water at all sites was 602,000 kip (US$73) ply agencies have to treat water, or treat water more inten- per household per year. Close to half of these costs (49%) sively, for safe human use. Alternatively, households can ac- are due to the time spent by respondents in accessing water cess cleaner water from different and more distant sources, from outside their houses and yards. The share of water ac- thus increasing access costs. Those who do not take pre- cess costs are also significantly higher in the rural sites be- cautionary measures are exposed to a higher risk of infec- cause a larger proportion of households source their water tious disease, or poisoning from chemical content. Table 15 from non-piped sources and a smaller proportion use bot- shows the household water sources for drinking water and tled water. Site-specific data on water access are presented the average monthly water source costs per household. It in Annex Table C2. TABLE 15. WATER ACCESS AND COSTS PER HOUSEHOLD AT THE SURVEY SITES Water source Item Rural Urban All sites Piped water % Access 5.6 19.0 9.9 Costs (thousand kip) 18.9 85.7 40.0 % Access costa 83.9 27.9 66.2 Non-piped protected Bottled water % Access 31.9 60.7 41.0 Costs (thousand kip) 174.0 388.4 241.6 % Access costa - - - Others % Access 38.3 12.0 30.0 Costs (thousand kip) 230.5 66.4 178.7 a % Access cost 79.5 47.7 69.4 Unprotected % Access 24.1 8.3 19.1 Costs (thousand kip) 186.4 43.0 141.2 a % Access cost 98.6 100.0 99.0 All sources % Access 100.0 100.0 100.0 Costs (thousand kip) 609.9 583.5 601.6 % Access costa 60.3 23.0 48.5 a This represents the share of the economic cost of accessing water sources among total costs. It therefore excludes the contribution of water treatment costs. In the case of piped water sources, access costs arise from the use of public standpipes. Source: Annex Table C2 www.wsp.org 29 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation Figure 12 summarizes the data for householders’ responses 4.2.3 HOUSEHOLD RESPONSE TO to the question on characteristics of poor quality water. It CONTAMINATED WATER AND RELATED COSTS provides a comparison between rural and urban areas, and between three major water sources. For households that use Households may respond to traditional water sources they unprotected and non-piped protected water sources, the know to be polluted in one or more ways: changing pur- most common complaint is the bad appearance of the wa- chased source; walking farther to haul free water; or water ter. However, bad smell was the major complaint among treatment. They may connect to a piped water source (if users of non-piped protected water sources in urban areas. available and affordable), harvest rainwater, purchase bottled In the case of households that use piped water, the highest water or bring in a tanker (more in urban areas). Figure 13 number of complaints were for bad smell and bad taste. shows the reasons cited by all respondents for their choice of FIGURE 12. HOUSEHOLDS CITING POOR WATER QUALITY FROM THEIR PRINCIPAL DRINKING WATER SOURCE, % OF RESPONDENTS 18.5 With sediments 6.2 24.5 13.0 Bad taste 4.7 Unprotected 17.0 Source 15.1 Bad smell 6.2 20.5 21.3 Bad appearance 9.3 33.5 16.8 With sediments 7.9 20.7 Non-piped 9.4 protected Bad taste 0.9 source 14.2 (including 16.1 untreated Bad smell 17.6 piped) 14.9 20.4 Bad appearance 5.8 32.7 6.2 With sediments 6.0 7.0 9.5 Bad taste 8.2 Piped water 10.4 (treated) 9.7 Bad smell 10.0 10.9 5.8 Bad appearance 9.0 7.4 All Urban Rural 0 5 10 15 20 25 30 35 40 Source: Annex Table C3. 30 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation water source. The reasons vary by water source. The primary Households may also treat drinking water at home in re- reason for piped water users was the quality of the water. This sponse to water pollution. The survey found that about is consistent with findings in Figure 12, where a relatively 48% of the households treat drinking water (see Annex small proportion of piped water users complained of bad ap- Table C5 for details). Moreover, the most common method pearance, bad smell, bad taste and the presence of sediment. is boiling water, with about 39% of households adopting On the other hand, cost was the dominant reason for users the practice. Figure 14 shows that water treatment varies by of non-piped protected water sources. This is because this location and water source. It indicates that water treatment group includes users of water sources for which there were no is more common in urban than rural areas. The practice is or very low financial (i.e., excluding time for accessing water) also more common among users of water from unprotected costs. Water quality was also an important reason because sources. The extreme case is the practice of water treatment the group includes users of bottled water. Finally, the absence for all users of water from unprotected sources in urban ar- of alternatives was the main reason for households that use eas. However, the previous statement must be treated with unprotected water sources. Annex Table C4 presents infor- caution because the finding is confined to households in mation from the different study sites. Site 5 (see Annex C5). FIGURE 13. REASONS FOR USING WATER SOURCES – RURAL VERSUS URBAN, % OF RESPONSES 87.6 Quality 79.6 55.0 59.7 Quantity 57.1 34.7 79.0 Cost 85.4 58.7 58.8 No alternative 66.9 73.5 0 20 40 60 80 100 percent of households Piped water Non-piped protected Unprotected Source: Annex Table C4 . FIGURE 14. HOUSEHOLDS TREATING DRINKING WATER, % OF RESPONSES 31.9 Piped water (treated) 88.6 Non-piped protected 46.2 (including untreated piped) 34.7 52.3 Non-piped unprotected 100.0 0 20 40 60 80 100 Rural Urban percent of households Source: Annex Table C5 . www.wsp.org 31 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation Figure 15 shows the annual household costs reported for boil- household wastewater is only one of several sources of con- ing water in the different sites.23 It indicates an annual cost of tamination of water bodies. about 277,000 kip (US$34) for the average rural household in the survey. This is about 58,000 kip (US$7) more than the 4.2.4 HOUSEHOLD WATER COSTS AVERTED cost for the average urban household. FROM IMPROVED SANITATION Changes in access to sanitation facilities and water sup- Table 16 summarizes the averted annual costs of an average plies could affect household water treatment practices. In household in terms of accessing water and water treatment. the household survey, the respondents were asked whether The averted cost calculations assume that the reduction in their treatment practices had changed two years after they water pollution arising from improved sanitation will alter received a new latrine or had access to improved water the behavior of households with respect to where they access sources. Figure 16 reports the results of the survey. The ma- water supplies and water treatment. Water source and treat- jor finding is that only a small proportion of the households ment savings were based on a careful comparison of water changed their treatment practice. In the case of households sources for those with improved and unimproved sanitation. that received new latrines, only about 8% of the respon- dents said that their treatment practices changed. About The values in Table 16 indicate that the savings from improve- the same percentage of households said that their treatment ments in sanitation are quite small. The estimated annual practices changed after having access to improved water savings from water access and treatment costs averaged across supplies. It is interesting to note that rural households ap- all sites were 21,000 kip (US$3) and 38,000 kip (US$5) per pear to be slightly more responsive to changes in sanitation household, respectively. These values capture the point that it access and improvements in water supply. For example, 9% is impossible for all costs to be averted following an improve- of the rural respondents said that their treatment practice ment in sanitation. Since sanitation is not the only source of changed after receiving a new latrine. This is about 2% water pollution. In relation to this, water treatment practices higher than urban households. In all, the main implica- are also likely to be a function of perceptions regarding wa- tion of these findings is that improvements in sanitation ter quality. This is in part supported by the earlier finding will have limited impacts on water treatment practices. At that water treatment practices do not change much following the very least, one cannot expect all households to change an improvement in sanitation and water supply (Figure 16). their water treatment practices following an improvement Another reason is that a shift towards lower cost treatment in sanitation and/or water supply access. This is likely to practices and water sources still entails a cost, be it financial be due to a mixture of entrenched habits, and the fact that or the opportunity cost of collecting water. TABLE 16. HOUSEHOLD WATER ACCESS AND WATER TREATMENT COSTS AVERTED AS A RESULT OF IMPROVED SANITATION, THOUSAND KIP Annual average savings per household following 100% Annual average costs per household Site sanitation coverage Water source access Water treatment Total Water source access Water treatment Total Rural 610.5 277.3 887.9 26.7 42.5 69.2 Urban 592.8 211.7 804.5 7.2 25.6 2.7 All sites 605.5 258.8 864.3 21.2 37.7 58.9 All sites in US$ 73.3 31.3 104.7 2.6 4.6 7.1 Source: Annex Table C6. 23 The ESI survey did not provide costs associated with other treatment practices. 32 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation FIGURE 15. AVERAGE HOUSEHOLD COSTS FOR BOILING WATER, THOUSAND KIP 1 (U) 165.8 2 (R) 84.8 3 (R) 147.3 4 (R) 831.5 Site 5 (U) 275.4 6 (R) 83.0 Urban 219.3 Rural 277.0 0 200 400 600 800 1000 thousand kip per year Notes: R. = rural; U. = urban Source: ESI survey FIGURE 16. DID YOUR WATER TREATMENT PRACTICES CHANGE AFTER RECEIVING (A) A NEW LATRINE OR (B) IMPROVED WATER SUPPLIES OR (C) OTHER REASONS? % OF RESPONSES 9.1 Yes 6.9 8.3 90.4 New Latrine No 92.6 91.1 0.5 Don’t Know 0.5 0.5 9.1 Yes 7.9 8.7 Improved 90.7 No 91.5 water supplies 91.0 0.3 Don’t Know 0.5 0.3 19.4 Yes 15.9 18.3 78.8 Other reasons No 83.1 80.2 1.8 Don’t Know 1.1 1.6 0 20 40 60 80 100 Rural Urban All percent of responses Source: ESI Survey. www.wsp.org 33 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation 4.3 ACCESS TIME 4.3.1 ACCESS TIME AND TIME SAVED to note that the values shown in Figure 18 underestimate the amount of time spent accessing toilets, because the estimates The survey found that a large majority of households with- focus on defecation, and exclude urination. out a toilet travel to and from a place outside the immediate vicinity of their houses to defecate. Figure 17 shows that There is an additional time loss in the case of children un- this is practiced by at least 90% of adults in rural areas, and der the age of five. Figure 19 shows that about 23% of the 78% in urban areas. households surveyed said that young children were accom- panied to their place of defecation. This means a time loss Figure 18 shows that a considerable amount of time is spent not only for the child but also for the person accompanying traveling to a place of defecation and/or waiting to access toi- the child. In addition, there is some evidence that children lets. At rural sites, the travel and waiting time among adults under the age of five tend to visit the toilet more often. The averaged 14 minutes per trip, with trips made 1.6 times a day, survey results showed that young children in urban areas amounting to about 23 minutes per day. These values were visited their place of defecation at an average 1.6 times in a found to be less for adults in urban areas. For children, travel day (Annex Table D3); which is about 23% higher than the and waiting times are longer in urban areas. It is important average for adults (Annex Table D2). FIGURE 17. PLACE OF DEFECATION OF HOUSEHOLDS WITHOUT A TOILET, % OF RESPONSES Neighbor’s 7.4 latrine 17.5 Open defecation, 2.3 Adults own plot 4.4 Open defecation, 90.3 outside own plot 78.1 Neighbor’s 6.4 latrine 15.9 Children Open defecation, 8.7 (4-15 years) own plot 6.8 Open defecation, 84.9 outside own plot 77.3 0 20 40 60 80 100 Rural Urban percent of responses Source: Annex Table D1. FIGURE 18. DAILY TIME SPENT ACCESSING TOILET OUTSIDE OWN PLOT FOR THOSE WITH NO TOILET 14.4 Rural 1.6 Adults 10.2 Urban 1.2 9.5 Rural 1.3 Children 14.1 Urban 1.2 Time per trip (minutes) 0 3 6 9 12 15 Times per day number of minutes Source: Annex Table D2. 34 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation 4.3.2 TIME-SAVING PREFERENCES AND UNIT VALUES OF TIME There is evidence that households appreciate the value of private toilets said they were satisfied or very satisfied with time associated with having a private toilet. Figure 20 shows the proximity of their toilets. The proportion of households that at least 97% of households without a toilet cited prox- satisfied or very satisfied with the proximity of their toilet imity as an important characteristic of having one. About was lower for those that only have access to shared/com- the same proportion of these households agreed that having munity toilets. a private toilet saves time. Table 17 provides average rankings of toilet preferences The importance of proximity was also revealed in the survey with respect to convenience, based on FGDs conducted in results for households that already have a toilet. Figure 20 the six study sites. The highest ranked response related to shows that 75% of rural and 82% of urban households with having a latrine near or in the house. This result is consis- tent for men and women at all survey sites. Another highly FIGURE 19. PRACTICES RELATED TO YOUNG CHILDREN, % OF HOUSEHOLDS ranked response is the ability to use the toilet as the need arises. 22.7 Proportions The household questionnaire also asked respondents to of families 28.2 choose from three options (“not more”, “somewhat more” accompanying young children and “much more”) for nine activities they could do if they 20.7 saved some time in a day. Figure 21 shows the proportion of households for the two activities – leisure and working Proportions 10.1 – which received the highest number of “somewhat more” of families accompanying and “much more” responses. These findings tend to sup- 4.1 young children port the earlier decision to use a value for time that is lower outside of the yard 13.0 than provincial GDP per person – i.e., 30% of provincial GDP per capita for adults and 15% of provincial GDP per 0 5 10 15 20 25 30 capita for children. While it can be argued that the propor- percent of households tions used for scaling down GDP are somewhat arbitrary, it All site Urban Rural captures the point that not all of the time gained is used for Source: Annex Table D3. income generating activities. FIGURE 20. PREFERENCES RELATED TO TOILET CONVENIENCE, % OF RESPONSES Households with 74.8 6DWLVĺHGRU YHU\VDWLVĺHG private toilets 82.4 with the proximity of the toilets Households who use 61.5 (%) shared/public toilets 58.9 99.3 No toilets: Saves time 97.3 Reasons to get a toilet 99.3 (%) Proximity 97.3 0 20 40 60 80 100 Rural Urban percent of responses Source: Annex Table D4. www.wsp.org 35 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation TABLE 17. PREFERENCES RELATED TO TOILET CONVENIENCE, VERY IMPORTANT (1) TO NOT IMPORTANT (5) Latrine is near or in the Not having to wait in a Ability to use the toilet as Saving time which can be Site house line the need arises used for other activities Males 1 (urban) 1 - 1 3 2 (rural) 1 - - - 3 (rural) 1 - 2 3 4 (rural) 1 2 3 3 5 (urban) 1 3 3 3 6 (rural) 1 3 2 3 Females 1 (urban) 1 - 1 3 2 (rural) 1 - 2 3 3 (rural) 1 - 2 2 4 (rural) 1 3 2 3 5 (urban) 1 3 3 3 6 (rural) 1 3 1 2 Note: - = not relevant. Source: FGDs. FIGURE 21. OPPORTUNITY COST OF TIME: WHAT RESPONDENTS WOULD DO WITH EXTRA TIME - % SAYING 'LEISURE' OR 'WORK' ACTIVITIESª 64.2 Rural 62.8 All facilities 63.3 Urban 72.3 61.7 Rural 68.1 OD Households 73.0 Urban 78.4 48.1 Rural 28.2 Shared toilets 64.3 Urban 75.0 66.4 Rural 60.1 Private facilities 62.1 Urban 71.4 0 10 20 30 40 50 60 70 80 Leisure activity Work activity percent of responses Note: a The respondents were asked: “If you could save some time every day, would you like to spend more time for: (a) sleeping, (b) leisure, (c) eating, (d) working/helping with earning income, (e) going to the market, (f ) cooking or helping with cooking, (g) washing and cleaning, (h) bathing, and (i) other”. This graphic shows the results from two main categories - leisure and working. Multiple responses were possible per respondent. Hence the sum of these may be more than 100%. Source: ESI Survey 36 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation 4.3.3 TOTAL VALUE OF TIME SAVED estimate the value of lost time, because these do not account for the time spent looking for a place to urinate. Using the values presented in Section 4.3.2, Figure 22 shows that an average of about 22 days a year could be saved by a 4.4 INTANGIBLE SANITATION PREFERENCES household from having access to a toilet. Moreover, the sav- ings for the average household in the rural sites (31 days) Due to a lack of studies examining the intangible aspects of were larger than for households at urban sites. In the case of sanitation, the data presented here are based entirely on ESI the rural sites, the highest potential savings come from the fieldwork.24 The data come from two main sources: a close time of adults. ended household questionnaire applied to the most senior available household member, and FGDs, held for groups of Given the results shown in Figure 22 and the assumptions men and women. These two surveys collected perceptions, about the value of time, Figure 23 shows that a typical house- opinions and preferences from a representative section of the hold at the survey sites could gain a welfare value of about communities (see Section 3.3 for a description of the meth- 1.08 million kip (US$130) a year by getting a private toilet. ods). Four sets of results are described here: (a) understanding Time savings in rural and urban areas are almost the same of sanitation; (b) reason for sanitation coverage; (c) satisfac- and derive mostly from adult time. It is also important to tion with the current sanitation option; (d) for those without reiterate that the calculations presented are likely to under- a toilet, reasons to get one and its desired characteristics. FIGURE 22. AVERAGE NUMBER OF DAYS SAVED PER YEAR PER HOUSEHOLD MEMBER FROM IMPROVED SANITATION 21.1 Adults 14.5 16.5 6.2 Children (5-14 years) 2.1 3.3 3.0 Children (0-4 years) 0.8 1.5 Adults accompanying 0.3 0.2 children 0.3 30.6 Per household 17.7 21.6 0 5 10 15 20 25 30 35 Rural Urban All percent of responses Source: Annex Table D5. FIGURE 23. AVERAGE ANNUAL VALUE OF TIME SAVED PER HOUSEHOLD MEMBER FROM IMPROVED SANITATION, THOUSAND KIP 870.4 Adults 977.6 944.7 123.7 Children (5-14 years) 61.0 80.2 59.2 Children (0-5 years) 24.4 35.1 13.3 Adults accompanying 16.4 children 15.5 1,066.6 Household 1,079.5 1,075.5 0 200 400 600 800 1000 1200 Rural Urban All thousand kip Source: Annex Table D6. 24 Interested readers may also consult Baetings and O’Leary (2011). www.wsp.org 37 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation The FGD attempted to elicit how the respondents under- larly by the understanding that good sanitation refers to stand the meaning of sanitation. The process generated cleanliness inside and around houses. Another common many responses which can be divided into action-related response, particularly among females in households with and conditions-related understanding of sanitation (Table toilets, was the absence of animal excreta in the streets or 18). The responses were dominated by the latter, particu- village. TABLE 18. RESPONDENTS’ UNDERSTANDING OF SANITATION, NUMBERS REFER TO THE SITE WHERE EACH REASON WAS GIVEN AS ONE OF THE TOP-RANKED RESPONSES a Households with toilets Households that practice open defecation Understanding Male Female Male Female Clean inside and around the houses 3/4/5 1/3/5/6 2/3/4/5/6 2/3/5/6 Absence of animal excreta in the streets/village 4/6 1/2/4/5/6 6 4/6 Clean food or eating clean food 2/3 2 Good management of gray water and/or stagnant water 5 5 4/5 Availability of toilets 5/6 Clean people 6 5 Clean village 1 2 Clean living area inside the house 4 4 Protection from human diseases 6 No foul smell from drainage 1 Absence of waste in the streets 1 No flooding due to poor sewage/drainage 1 No foul smell from chicken raising 2 Good management of wastewater 2 Clean toilets and no more open defecation 2 Availability of clean water and soap 3 Clean toilets (wet pit latrines) 3 Clean toilets and water 3 Absence of human excreta in the streets/village 4 Good water supply 3 People in good health 3 Clean water 3 Good management of solid waste 4 No garbage around the house 4 Sufficient water 4 Clean community lands (canals, wells, riverside, etc.) 5 Defecate in a hole in the ground 5 No open defecation 6 Hand washing 3 Building wet pit latrines in the village 6 a Values refer to the sites in which the statement was provided. Source: FGDs 38 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation TABLE 19. REASONS FOR CURRENT SANITATION COVERAGE – TOP RESPONSES Males, by each site Females, by each site Item 1 2 3 4 5 6 1 2 3 4 5 6 Reasons why households do not have toilets       Cost is too high            Never offered a toilet            Not the first priority       No space and no time to build       Not yet permanent in the village       Not enough water for pit        Reasons why households have toilets       Provided/supported by project          Clean and convenient       Not expensive     Clean and no smell        Convenient       Easy to install        Clean        Easy to use        Advised by district        Previous toilet was full        Clean with water       No smell       Comfort       Safer to use toilet in the house       Note: All the respondents in Site 1 have toilets. Source: FGD Table 19 shows the reasons for the current sanitation cover- The respondents were asked about their level of satisfaction age of households cited by men and women in the FGDs. with their existing facilities.They were given a set of attri- It indicates that the main reasons respondents had no toilet butes to rank between 1 (not satisfied) and 5 (very satis- were high costs and the fact that households had not been fied). The findings are presented in Figure 24, which indi- offered one. The main reasons for having a toilet is that they cates that households with access to improved sanitation were provided or supported by projects. Other common are satisfied, but not very much, with their toilet option, reasons were associated with cleanliness and convenience. with average ratings ranging from 2.9 to 3.3. Households www.wsp.org 39 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation with no access to improved sanitation had a lower level of value is very low and is not sufficient to finance the con- satisfaction with their current level of “facilities”. struction of a pour-flush toilet, which was the overwhelm- ing choice of respondents.26 The survey asked households without toilets to rate possible reasons for acquiring one. Figure 25 shows that all of the Table 20 indicates some of the concerns of households prac- choices were deemed equally important. ticing open defecation (OD), showing that the highest con- cern was for the safety of children. This result supports the The survey results also revealed that respondents with no finding in Figure 24, where the households with no access to toilet are willing to pay an average of about 964,000 kip improved sanitation indicated a lower level of satisfaction in (US$116) for an improved toilet (Annex Table E1).25 This terms of allowing children to use toilets without supervision. FIGURE 24. LEVEL OF SATISFACTION WITH CURRENT TOILET OPTION, IMPROVED VERSUS UNIMPROVED, NOT SATISFIED (1) TO VERY SATISFIED (5) Avoid snakes/insects 1.9 3.2 Avoid snakes or biting insects 2.4 3.3 Good for elderly people 2.1 3.2 1.9 Toilet use when raining 3.2 2.0 Toilet use at night 3.2 2.2 Safety of children 3.3 2.3 $YRLGLQJFRQĻLFW 3.3 2.4 Reduces smell 3.3 2.4 Avoiding diseases 3,2 2.4 Pollution of your environment 3.2 2.5 Workload for maintaining 3.2 1.9 Feeling good with guests 3.0 1.9 Pride 3.0 1.9 Proximity 3.1 1.9 Privacy 3.2 1.9 Cleanliness 3.0 1.9 Comfort 2.9 0,0 0,5 1,0 1,5 2,0 2,5 3,0 3,5 Unimproved Improved Source: Annex Table E2. TABLE 20. CONCERNS OF THOSE PRACTICING OPEN DEFECATION Number of Responses (%) Concern households responding Never or rarely Sometimes Often or Always Have you felt in danger when practicing OD? 336 41.4 18.5 40.2 Are you worried about the safety of your children? 279 25.4 19.4 55.2 Have you heard about someone being attacked 336 86.3 9.5 4.2 by animals? Source: ESI survey 25 This value was obtained by simply asking the respondents about how much they were willing to pay for a toilet. A more rigorous approach estimating willingness to pay for sanitation services was conducted by Harder et al. (2011) for the Philippines. 26 Estimates of toilet costs are presented in Section 6. 40 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation FIGURE 25. REASONS TO GET A TOILET FOR THOSE CURRENTLY WITHOUT TOILET ACCESS, AVERAGE SCORE, NOT IMPORTANT (1) TO VERY IMPORTANT (5) Proximity of toilet to house 4.0 Having privacy when at the toilet 4.1 Having a toilet not needing to share 4.1 with other households Cleanliness and freedom from 4.1 unpleasant odors and insects Comfortable toilet position 4.0 0 1 2 3 4 5 Source: Annex Table E2. 4.5 EXTERNAL ENVIRONMENT The “external” environment refers to the area outside the garbage (3.4) while the best ratings were for dust and dirt in toilet itself and is not related to toilet-going. It can include shops/markets/ restaurants or in the streets/roads. a living area, public area, and private land, which can all be affected by OD practices and unimproved toilet options. To attempt an overall picture of the state of sanitation at the The consequences of water pollution will not be discussed sites, a simple average of the scores is presented in Figure here because it has already been covered in Section 4.2. The 27. It suggests that the state of sanitation, as rated by the sources of data are mainly the ESI surveys: household in- respondents, is quite good but can still be improved. More- terviews and FGDs. Given that the external environment over, the ratings of rural households were higher those of is also spoiled by other sources of poor sanitation – mainly their urban counterparts. Among the study sites, the high- inadequate solid waste management practices – these have est ratings were for Site 2. While indicative of the state of also been assessed to understand the contribution of each, sanitation, it is difficult to read too much into these find- and relative preferences regarding their improvement. ings because the values were based on a subjective assess- ment of the respondents. Figure 26 shows scores attributed to the quality of envi- ronmental sanitation. It indicates that the respondents are It is important to note that households with access to aware that flooding does not occur often at the sites and improved sanitation facilities may still contribute to pol- that OD occurs in their neighborhood sometimes (values lution in the environment. Figure 28 summarizes some close to 2). The respondents also seem to suggest that the findings for households with access to toilets and pit la- state of sanitation in their neighborhood is quite good be- trines. Among this group, about 14% and 17% defecate cause the lowest average rating given to a specific charac- in the open or saw children defecating in the yard, respec- teristic was 3.4 out of a maximum possible 5 (very good). tively. Moreover, such a practice appears to be more com- The lowest rating was given to smoke from burning waste/ mon at rural sites. www.wsp.org 41 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation FIGURE 26. SCORING OF DIFFERENT TYPES OF LIVING AREA Insects around uncollected waste etc 3.9 Rodents around uncollected waste etc 3.6 Dust & dirt in shops/markets/restaurants 4.0 Dust & dirt in streets/roads/alleys 4.0 Smell from sewage/defecation/waste 3.6 Smoke from burning waste/garbage 3.4 Accumulation of storm/rain water 3.6 Open/visible sewage or wastewater 3.6 Uncollected/undisposed household 3.7 0 1 2 3 4 5 (A) State of sanitation in the neighborhood, very bad (1) to very good (5) /DQGLVĻRRGHGSHUPDQHQWO\ZLWK 1.3 poor quality sitting water /DQGĻRRGHGVHDVRQDOO\ 1.8 *DUEDJHZDVWHGXPSVLWHVODQGĺOOV 1.9 Land affected by 1.7 sewage drains and wastewater Open defecation 2.2 0 1 2 3 b (B) To what extent do the following activities occur in your neighborhood, never (1) to pervasive (5) Source: Annex Table F1. FIGURE 27. OVERALL STATE OF SANITATION AT THE STUDY SITES, VERY POOR (1) TO VERY GOOD (5) 1 (U) 3.1 2 (R) 4.1 3 (R) 3.9 Site 4 (R) 3.6 5 (U) 3.6 6 (R) 3.9 Rural 3.9 Summary Urban 3.4 All 3.7 0 1 2 3 4 5 Note: R. = rural; U. = urban Source: Annex Table F1. 42 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation FIGURE 28. PROPORTION OF HOUSEHOLDS WITH UNIMPROVED SANITATION PRACTICES, % 3.2 Built less 0.0 Open than 2 years defecation ago and 1.5 6.0 (often or desludged always) 2.5 2.1 21.7 5.1 Open Built urination 2.9 2-5 years 13.3 (often or ago and always) desludged 14.4 7.0 24.0 11.3 See Built more children 3.6 than 5 years 39.7 defecating ago and in yard desludged 16.6 27.8 0 5 10 15 20 25 30 0 5 10 15 20 25 30 35 40 45 percent of households percent of households Rural Urban All site Rural Urban All site (A) Households with access to toilets (B) Households with septic tanks 93.3 Within 9.7 the last 89.0 5 years Experience seepage/ 89.8 28.2 ĻRRGLQJ into pit 22.5 6.7 More than 5 years ago 9.6 9.1 3.2 Pit RYHUĻRZHG 9.9 0.0 (yes, sometimes) Don’t know 1.4 7.8 1.1 0 20 40 60 80 100 0 5 10 15 20 25 30 percent of households percent of households Rural Urban All site Site 3 Site 4 Sites 3 and 4 (C) Last time septic tank was desludged (D) Households with pit latrines (sites 3 and 4 only) IRUVHSWLFWDQNVDJHGĺYH\HDUVDQGRYHU Source: Annex Table F2 www.wsp.org 43 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation Septic tank management practices also require improve- be. Respondents were asked to give a score of 1 (not impor- ment. Among households with facilities over five years tant) to 5 (very important) for different aspects of sanita- old, only about 28% emptied their septic tanks. Of these tion (Figure 30). The results indicate that they place the households, about 9% did so more than five years from the highest level of importance on the dust and dirt in shops, date of the survey. This implies that about three quarters of markets and restaurants (3.8 for dirt inside), and dust and the households with septic tanks have emptied their facility dirt in streets, roads or alleys (3.7 for dirt outside). It seems within the recommended period. In the case of pit latrines, that the level of importance assigned to the other aspects, about 23% of respondents said that their pits have experi- while lower than those mentioned above, were similar be- enced seepage or flooding. A smaller proportion said that cause their average values were still 3 or higher. The im- their pit sometimes overflowed. portance of these aspects was also deemed higher in rural than urban sites. Finally, cross-tabulating these results with The respondents were also asked about the perceived ben- the assessment of sanitation conditions (Figure 26) suggests efits of improved sanitation in terms of reducing pollu- that the aspects on which the respondents put the highest tion in the neighborhood or community and in reducing importance were generally those receiving the most positive smell around the house. Figure 29 presents the responses evaluation. for households with different sanitation facilities, indicat- ing noticeable differences across toilet facilities in both rural 4.6 PROJECT PERFORMANCE AND ACTUAL and urban areas. Owners of wet pit latrines were satisfied BENEFITS AT THE FIELD SITES with the way their facilities reduce pollution in the neigh- borhood or community and smell around the house. How- 4.6.1 PROJECT COVERAGE ever, owners of dry pit latrines and those without toilets were generally unsatisfied. Based on respondents’ answers, households in only three field sites received facilities, particularly wet pit latrines, through The previous paragraphs described the state of sanitation projects initiated and/or implemented by the government, at the sites by examining the evaluation of the respondents donor agencies, private firms or NGOs (Table 21). These of the various aspects of sanitation. The general implica- beneficiaries represent about 44% (126 of 294) of the house- tion of the findings was that more work needs to be done holds with access to wet pit latrines in the three sites (Annex in order to achieve satisfactory sanitary conditions. Crucial Table F6). Many of the beneficiaries did not or cannot speci- to understanding why these conditions occur and perhaps fy the institution that provided the facilities but a majority of the willingness of the respondents to address them is how the relevant respondents at Site 3 stated that the Red Cross important they perceive improved sanitation conditions to was instrumental in the provision of wet pit latrines. FIGURE 29. IMPLICATION OF CURRENT TOILET OPTION FOR EXTERNAL ENVIRONMENT, NOT SATISFIED (1) TO VERY SATISFIED (5) 3.1 Wet pit latrine 3.2 Pollution of 1.1 your neighbors’ Dry pit latrine 0.0 environment 1.5 No toilets 1.8 3.1 Wet pit latrine 3.3 Smell 1.2 Dry pit latrine around house 0.0 1.5 No toilets 1.9 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 Rural Urban Source: Annex Table F3. 44 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation FIGURE 30. IMPORTANCE OF ENVIRONMENTAL SANITATION STATE, BY OPTION TYPE, VERY BAD (1) TO VERY GOOD (5) 3.6 Insects 3.3 3.8 3.3 Rodents 2.8 3.5 3.7 Dirt inside 3.6 3.8 3.8 Dirt outside 3.7 Perception 3.8 of 3.3 environmetal Smell 2.7 sanitation 3.6 state 3.0 Smoke 1.9 3.5 3.3 Standing water 2.9 3.4 3.3 Sewage 3.0 3.4 3.4 Rubbish 2.7 3.7 1.3 Flooded permanently 1.3 1.3 1.8 Flooded seasonally 1.8 1.8 Level of 1.9 Garbage 1.9 improved 1.9 1.7 Stagnant water 1.6 1.7 2.2 Open defecation 2.1 2.3 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 All site Urban Rural Source: Annex Table F4. TABLE 21. SANITATION COVERAGE INFORMATION PER FIELD SITEa Site Item 3 5 6 Setting Rural Urban Rural Intervention received by households in survey Wet pit latrine Wet pit latrine Wet pit latrine Beneficiaries interviewed in the ESI Survey by Institution, no. of households Red Crossb 28 - - Red Cross (unspecified) - 4 1 Government 1 2 1 Not specified by respondents 9 31 51 a b Only households in Sites 3, 5, 6 claimed to have received intervention from a project; Water and Sanitation Project in Meun and Nan Districts Source: Annex Table F6 www.wsp.org 45 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation Most of the beneficiaries at the three sites made some form The highest proportion is found at Site 3, where 69% of of contribution to the project. Figure 31 shows that about the beneficiaries said that such an activity was provided by half of all the respondents contributed cash to the project the project. A very small proportion of the beneficiaries said and almost all beneficiaries contributed labor. Annex Table that some form of water intervention was provided. F6 provides more details of the estimated contribution of beneficiaries. 4.6.2 APPROPRIATENESS OF TECHNOLOGY Based on the household survey, Figure 32 summarizes other Figure 33 summarizes a few indicators related to the appro- selected features of these projects. It indicates that majority priateness of the technologies at the survey sites. It indicates of the households were given a choice of whether to par- that 7% of the respondents with toilets often did not have ticipate in the project. However, a smaller proportion of sufficient water for flushing. An additional 26% said that the households said that they were given a choice of differ- this problem occurs sometimes. Flooding and overflowing ent toilet options. About half of the beneficiaries said that of dry pit latrines appears to be a problem for only a few of a hygiene awareness program was provided by the project. the respondents. FIGURE 31. CONTRIBUTION OF HOUSEHOLDS, % OF BENEFICIARIES 6.8 Site 3 52.0 91.4 11.1 Site 5 50.0 97.2 6.9 Site 6 50.0 100.0 0 20 40 60 80 100 0DWHULDOV &DVK /DERU SHUFHQWRIEHQHĺFLDULHV Source: Annex Table F6. FIGURE 32. HOUSEHOLDS PROVIDING A POSITIVE (“YES”) RESPONSE TO SELECTED QUESTIONS, % OF RESPONSESª Was the household given 51.3 a choice to participate 51.4 in the latrine program? 54.2 Was the household 28.2 given a choice 40.5 of sanitation options? 41.5 69.2 Was hygiene awareness 48.6 provided? 43.4 7.7 Was water supply 8.1 improved? 18.9 0 20 40 60 80 100 Site 3 Site 5 Site 6 percent of responses a The other responses were “no” and “not applicable”. Source: Annex Table F7. 46 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation FIGURE 33. APPROPRIATE TECHNOLOGY Sometimes 26.0 % households ZLWKLQVXIĺFLHQW ZDWHUIRUĻXVKLQJ Often 7.0 Sometimes 11.2 % households ZLWKSLWĻRRGLQJ (dry pits) Often 6.2 Sometimes 6.6 % households ZLWKSLWRYHUĻRZ (dry pits) Often 0.0 0 5 10 15 20 25 30 percent of households Source: Annex Table F8 FIGURE 34. INDICATORS FOR HOUSEHOLDS WITH ACCESS TO TOILET FACILITIES, % Washed hands 74.8 with soap yesterday Personal hygiene Washing hands 52.1 after defecation Soap available inside or near the toilet facility 50.8 for washing hands Signs of feces/waste 9.3 Toilet around toilet maintenance Signs of insects in toilet 21.0 Using bush 14.4 for urination Using bush Defecation 2.5 for defecation and Children using or stool urination disposed in toilet/latrine 81.9 Children seen defecating in yard 16.2 Running water 31.6 in or near toilet Water Using bucket to 43.5 availability withdraw water from well Using well which is 28.8 not covered 0 10 20 30 40 50 60 70 80 90 100 percent of households Source: Annex Table F9 www.wsp.org 47 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation 4.6.3 SELECTED IMPACTS ON TARGET BENEFICIARIES Initiatives to implement sanitation improvements may be the facility is used by the beneficiary. If very few of the ben- assessed in different ways. In the case of projects, it is pos- eficiaries actually use a sanitation facility, the likelihood of sible to compare the quantity and quality of interventions getting diseases will be similar to those who practice OD or against the project targets. Another way would be to ex- use inferior options. The health gains from having access to amine the impact on the target beneficiaries after project improved sanitation options might be reduced if the ben- completion. Figure 34 focuses on the latter. It summarizes eficiaries do not wash their hands after defecating. Hence, it selected performance indicators for all interventions, re- is important to check if these practices are common among gardless of the presence of projects at all of the field sites. the beneficiaries. Similar arguments can be related to the The indicators represent the (a) behavior of the survey other benefits of improved sanitation – water source, water respondents with respect to hygiene, toilet maintenance, treatment, and access time. defecation and urination; and (b) water availability. The information was drawn from the household questionnaire This study made an attempt to capture the inability to fully and the details for the specific sites are presented in Annex realize the benefits of an intervention by making a distinc- Table F9. tion between ideal and actual benefits as follows. First, the benefits quantified in Sections 4.1 to 4.3 are treated as gains Figure 34 shows that there is considerable room for im- occurring under ideal conditions – i.e., where sanitation fa- provement in terms of hygiene practices. Only 75% of cilities are used at optimal levels, maintained properly, and the respondents said that they washed their hands on the complemented with appropriate hygiene practices. Second, day prior to the survey. Moreover, only about half of the the benefits are adjusted with the aid of selected indicators same respondents claimed to have washed their hands af- from the field sites. The adjusted values are called “actual ter defecation.27 Toilet maintenance and design could be benefits” in the analysis. The actual and ideal benefits are improved as the survey enumerators observed that 9% of used to generate two sets of efficiency measures – ideal and facilities showed signs of feces or waste around the toilet. actual conditions – in Section 7. Such findings are likely to be related to the finding that running water is only available in or near the toilet in 32% Figure 36 shows selected indicators for the field sites. It in- of households. dicates that at least 90% of the households in four of the six sites use their (improved) toilets regularly. This implies Despite the availability of toilets, there is still evidence that a high likelihood that the health benefits from improved households continue to defecate and/or urinate in the open. sanitation are going to be realized at these sites. At Sites 3 This appears to be a more serious problem at Site 3, where and 6, however only about two thirds of households use about 3 out of 10 respondents with access to toilets still their improved toilets regularly. The proportion of house- urinate in the open (Figure 35). hold members using off-plot options represents the poten- tial for realizing the gains associated with access time. While 4.6.4 IDEAL VERSUS ACTUAL BENEFITS the proportion of households using off-plot options is quite low, Figure 36 indicates that the beneficiaries from Site 4 There are a number of factors that may prevent the full re- are the least likely to obtain the full benefits. The full set alization of the benefits of a sanitation intervention. For of indicators for the field sites is presented in Annex Table example, the extent to which the health benefits of an im- F10. These values will be used to estimate the actual effi- proved sanitation option are realized depends on whether ciency of sanitation interventions. 27 These are likely to be over-estimates. Curtis et al. (2009) cite that self-reporting with respect to handwashing, which was the case in the ESI surveys, has “poor validity” (p. 656). The paper also summarized the results of studies in 11 countries, including Vietnam and selected provinces of China, which suggest that only 17% of mothers and caregivers wash their hands with soap and water after using the toilet. 48 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation The values presented in Figure 36 should be seen as an ini- accurate assessment of actual practices. For example, hand- tial step in developing a set of measures for evaluating ac- washing may be combined with information on the clean- tual benefits. Some of the indicators may be refined further liness of the toilet bowl or the cubicle itself, or even food with more available information. For example, the propor- preparation. However, the development of such indicators tion of people who wash their hands after defecation may be and how they will be used to adjust the benefits is the subject augmented with information on the frequency with which of further studies. Despite its limitations, the indicators pre- they do so. People who wash their hands after defecating are sented in this study highlight the point that the full benefits less likely to become sick. Some of the indicators might also of improved sanitation may not be realized in the absence of have to be combined with other measures to generate a more changes in hygiene behavior and use of toilet facilities. FIGURE 35. OPEN DEFECATION AND URINATION IN THE PROJECT SITES, % OF HOUSEHOLDS 2.8 Site 3 30.8 1.4 Site 5 4.8 0.9 Site 6 7.8 Using bush for defecation 0 5 10 15 20 25 30 35 Using bush for urination percent of households Source: Annex Table F9 FIGURE 36. SELECTED ADJUSTMENT VARIABLES FOR BENEFITS, % OF RESPONSES 100.0 1 (U) 95.8 99.8 2 (R) 88.8 68.2 3 (R) 90.0 Site 93.9 4 (R) 84.0 94.9 5 (U) 98.3 63.8 6 (R) 99.2 0 10 20 30 40 50 60 70 80 90 100 percent Households using toilet regularly (%) Household members using own toilet instead of off plot options (%) Note: R. = rural; U. = urban Source: Annex Table F10. www.wsp.org 49 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation 4.7 SUMMARY OF LOCAL BENEFITS comfort associated with illness. This could be significant as an average of 28 DALYs per 1,000 people per year Table 22 summarizes the local benefits associated with access could be averted if households in the study sites were to to improved sanitation under ideal conditions. It presents the move from open defecation to basic sanitation. It is also quantitative benefits for the rural and urban study sites and important to note that the estimates do not account for represents the estimated gains per household on an annual costs associated with sanitation-related cases of hepatitis basis. The table also reports the qualitative benefits that were and trachoma.28 Neither were selected attributes of water not quantified in the analysis. The majority of these benefits quality monetized in the study. For example, the most were sourced from the surveys and FGDs at the study sites. common complaint among households that use unpro- tected or non-piped protected water sources was the bad The quantified benefits suggest that gains associated with appearance of the water. Users of piped water sources also access time are likely to be a significant source of benefits complained of water that had a bad smell or taste. For ac- for rural and urban households. In the case of rural house- cess time, the monetized benefits only reflect gains associ- holds, these gains were estimated to be 1.07 million kip ated with access to private toilets for defecation. These do (US$129) per household per year. This benefit is about not account for access time for urination, which could be 48% larger than the total averted health costs associated significant especially among women. with a movement from open defecation to basic sanitation facilities (720,000 kip or US$87). However, gains associ- Other benefits that go beyond the health-related, water- ated with having access to private facilities were slightly related and time-related aspects are very difficult to mon- smaller than the potential benefits of providing a rural etize. For example, the household survey found that the household with access to sewer facilities (1.13 million kip level of satisfaction of households with access to toilets or US$137). In the case of urban households, gains associ- was higher than for those with no toilets. Among house- ated with access time were the largest source of benefits. holds with toilets, satisfaction was highest with respect to: (a) avoiding snakes and biting insects; (b) children’s safety; The benefits accrued have been conservatively valued un- (c) avoiding conflict with neighbors; and (d) the reduction der the methodology of the study. In the case of health, in foul smell. the monetary gains fail to account for the pain and dis- 28 A more comprehensive list of sanitation-related diseases is presented in Annex Table A3. 50 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Local Benefits of Improved Sanitation TABLE 22. SUMMARY OF LOCAL IMPACTS OF SANITATION IMPROVEMENTa Benefits of improved sanitation Quantitative benefit Concern (thousand kip/household, annual) Qualitative benefit Rural Urban Health Healthcare cost averted • Health burden/quality of life: Avoided pain and discomfort OD to Basic Sanitation 565.5 316.6 because of illness: An average of 28 DALYs per 1,000 people are averted for the study sites as households move from OD to OD to Sewerage 890.6 498.6 basic sanitation. In moving from OD to facilities that have access Productivity cost averted to wastewater management, DALYs averted rise to 44 per 1,000 people. OD to Basic Sanitation 79.3 103.8 • Diseases excluded: There are avoided income losses from OD to Sewerage 124.9 163.9 diseases that are not quantified in this study. Mortality cost averted OD to Basic Sanitation 75.2 61.6 OD to Sewerage 117.0 95.8 b Total health costs averted OD to Basic Sanitation 720.0 481.9 OD to Sewerage 1,132.5 758.3 Water Savings from access costs 26.7 7.2 • Improved water quality (smell, appearance, lower contaminants, Savings from treatment costs 42.5 25.6 etc.) for drinking, domestic purposes, recreation and other purposes. The bad appearance of the water was most common complaint among households that use unprotected or non-piped protected sources. Users of water from piped protected sources mostly complained of bad smell and bad taste. Access time 1,066.6 1,079.5 • Toilet preferences: Respondents in the FGDs consistently provided the highest ranking to having a “latrine that is near the house.” The importance of proximity was reinforced by the finding that the second highest ranked attribute is “ability to use the toilet as the need arises.” • Time loses associated with urination were not accounted for in the quantitative analysis. This could be significant because people urinate more often than they defecate in a day. Intangibles nc nc • Based on many possible benefits of latrines (see Figure 24), the ESI household survey found that the level of satisfaction among households with access to toilets is higher than among those who do not have facilities. While the scores for different attributes were not too different, households that have access to toilets indicated the highest levels of satisfaction for: (a) avoiding snakes or biting insects; (b) safety of children; (c) avoiding conflict; and (d) reducing smell. External environment nc nc • The responses to the ESI household survey showed that the state of the environment at the study sites seems to be quite good. With scores ranging from 1 (very bad) to 5 (very good), the poorest score was given to smell from burning waste/garbage (3.4). In contrast, the highest ratings were for dust and dirt in shops/markets/restaurants (4.0) and dust and dirt in streets/ roads/alleys (4.0) a b Notes: nc - not calculated; OD - Open Defecation. This is the sum of averted health care, productivity and mortality costs. The benefits are also measured under ideal conditions. Source: Author’s calculations www.wsp.org 51 V. National Benefits of Improved Sanitation This section discusses the national impact of improvements direct contribution of travel and tourism to GDP in Lao in sanitation. In particular, it presents the results on: PDR for 2011 is higher compared to Vietnam (3.5%), the Philippines (3.4%) and Indonesia (3.2%). • Tourism (Section 5.1) • Sanitation and business activity (Section 5.2) The choice of tourist destination can be influenced by • Health (Section 5.3) sanitation conditions including: the quality of water re- • Summary of benefits (Section 5.4) sources (for drinking water and recreation); quality of the environment (smell and appearance); food safety (hygiene and food preparation); the general availability of toilets in 5.1 TOURISM public places; and health risks. Disease epidemics, whether influenced by sanitation conditions or not, are also likely to Tourism is one of the most dynamic economic activities discourage tourists from visiting a site. in Lao PDR. The Lao National Tourism Administration (LNTA, 2010) reports that tourist arrivals expanded at While it is difficult to quantify monetary impact, this study an average annual rate of 20.5% between 1990 and 2009. attempted to assess the relationships between selected as- About 9 in 10 of the more than 2 million visitors in 2009 pects of sanitation and tourism. The analysis is based on were from the Asia-Pacific region, most especially Thailand a survey of 235 visitors at the international and domestic (close to two-thirds of all visitors). In the same year, foreign terminals of the airport at Vientiane, and at strategic sites visitors stayed for an average of 4.5 days and spent about visited by tourists. The respondents were almost evenly di- US$45/day. vided among Asians and westerners (Table 23) visiting the country for tourism (80%) or business (20%) purposes. With the rapid growth of visitor arrivals, it is not surpris- More than 70% of these visitors stayed in hotels or oth- ing that tourism has emerged as an important economic er accommodation costing less US$60 per day, and they activity, offering significant income and employment op- stayed in the country for an average of 8 days. portunities for Lao PDR. For example, the World Travel and Tourism Council (WTTC, 2011) expects that tourism The visitors were asked to rate how much they enjoyed se- and travel will generate a direct contribution of 2.7 tril- lected sites in the country. A value of 5 was assigned if the lion kip (4.3% of GDP) and 105,300 jobs (3.6% of total site was enjoyed “very much” while a value of 1 was as- employment) in 2011. These projections are higher than signed if the visitor did not enjoy the site (“not at all”). The both their values for 2010 and the relative contributions results are shown in Figure 37. The survey findings indicate of travel and tourism in better known tourist destinations. that the visitors enjoyed their visits to natural sites and Lu- For example, the WTTC (2011) estimated that travel and ang Prabang the most. The average rating for the capital tourism only had a direct contribution of 103,200 jobs (Vientiane) was fairly positive but among the lowest of the in 2010. The same source also indicates that the expected choices provided in the survey. 52 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | National Benefits of Improved Sanitation TABLE 23. BACKGROUND CHARACTERISTICS OF RESPONDENTS Variable Asian 1a Asian 2b Asian 3c Westernd Total No. of tourists interviewed 55 26 46 108 235 Gender (%) Male 55 54 57 58 57 Female 45 46 43 42 43 Average no. of previous trips to country 8 4 4 5 6 Average length of stay of this trip (days) 6 8 5 11 8 Purpose of visit (%) Tourist 65 73 87 86 80 Business 35 27 13 14 20 Cost of Hotel Tariff (US$) accommodation Free (stay with friends) 13 4 4 6 7 for tourists (% of respondents) 1-14 8 23 15 23 18 15-29 20 31 35 20 24 30-59 38 15 17 32 29 60-89 13 23 11 6 10 90-119 4 4 9 7 6 120-149 5 - 7 3 4 150 + - - 2 2 1 a b Notes: Refers to visitors from Indonesia, Malaysia, the Philippines and Thailand. Refers to visitors from China, Myanmar, North Korea and Vietnam. c Refers to visitors from Hong Kong, Japan, Singapore, South Korea and Taiwan. d Refers to visitors from Australia, New Zealand, Europe and North America. Source: ESI tourist survey FIGURE 37. PLACES VISITED AND ENJOYMENT OF STAY, NOT AT ALL (1) TO VERY MUCH (5)ª 3.7 Vientiane Capital 3.6 3.7 4.5 Luang Prabang 4.4 4.5 3.8 Vang Vieng 3.7 3.8 3.7 Other towns 3.4 3.7 4.3 Rural villages 3.2 4.1 4.3 Cultural sites 4.2 4.3 4.6 Natural sites 4.6 4.6 0 1 2 3 4 5 Tourists Business visitors All visitors Note: a Luang Prabang is a UNESCO World Heritage Site. Vang Vieng is a small town located between Vientiane and Luang Prabang, which was very popular among backpackers and low budget travelers. It is currently being developed to target higher-end visitors . Source: Annex Table G1. www.wsp.org 53 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | National Benefits of Improved Sanitation The visitors were also asked to rate sanitary conditions in The highest ratings were received by hotels and airports. general and at selected locations in the country on a scale In contrast, the lowest average rating was for bus stations of 1 to 5, with 5 suggesting that sanitary conditions are (1.9) and the city (2.0). “very good”. As a whole, the average rating for general sanitation conditions was 2.6 (Figure 38). While percep- There is clearly a need to increase the availability of toilets tions of general sanitation conditions were not really im- as a whole. Almost half of foreign visitors (46%) stated that pressive, the assessments of specific locations were slightly they were not able to find a toilet at a time of need. Such a better. For example, the survey found that the ratings were situation might be a serious cause for concern because over somewhere between “fair” to “good” for restaurants (3.8) two-thirds (68%) of the visitors providing a “yes” response and hotels (3.8). Figure 38 also suggests that the percep- to this question said that this had an impact on their stay. tions among tourists and business travelers do not appear to differ much. Tourists were also asked to state their experience with re- spect to the availability of soap and water for handwash- Table 24 provides more specific information on sanitation ing in restaurants, bus stations and public toilets (see Table conditions as perceived or experienced by foreign visitors. 24). The responses presented to them were on a scale of 1 The respondents were asked to rate the condition of toi- (“never”) to 5 (“always”). About 81% of the visitors said lets in hotels, restaurants, airports, bus stations, and pub- that soap and water was available sometimes to always in lic toilets around the cities visited. These locations were restaurants. The assessment for bus stations and the city as ranked on a scale of 1(“very poor”) to 5 (“very good”). a whole was considerably less favorable. FIGURE 38. GENERAL SANITARY EXPERIENCE, VERY POOR (1) TO VERY GOOD (5) 3.8 Restaurants 3.7 3.8 3.4 Lakes and rivers 3.2 3.5 3.3 Swimming pools 3.2 3.3 3.8 Hotel and guesthouse 3.8 environment 3.8 2.8 Vang Vieng 2.0 2.8 3.5 Luang Prabang 3.5 3.5 3.1 Vientiane Capital 3.3 3.1 2.6 General sanitary 2.7 condition 2.6 0 1 2 3 4 All visitors Business visitors Tourists Source: Annex Table G2 54 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | National Benefits of Improved Sanitation The respondents were also asked to identify 3 of 8 risk factors tion to friends and relatives. Table 25 shows selected statistics that concerned them the most during their stay in Lao PDR. on the gastro-intestinal tract (GIT) problems experienced by Figure 39 summarizes the results of this question and Annex the visitors during their stay in the country. It indicates that Table G4 provides the details. The greatest concern was for food about a fifth of the respondents experienced gastro-intestinal safety, cited by about 43% of respondents. Not far behind were problems, with the incidence rate among tourists (20%) concerns over public toilets (40%) and tap water (39%). slightly higher than that among business travelers (17%). On average, visitors felt the symptoms for slightly more than 2 Apart from impressions of sanitation conditions, actual health days and were incapacitated for about half a day. While most problems experienced by the visitors could also affect deci- of the visitors (64%) did not seek attention for the illness, sions to re-visit the country or to recommend it as a destina- those that did spent an average of about US$6 on treatment. TABLE 24. SANITARY EXPERIENCE IN RELATION TO TOILETS AND HAND WASHING Feature Tourists Business visitors All visitors Quality of toilets in (1= very poor to 5 = very good) Hotel 3.7 3.9 3.7 Restaurants 3.3 3.2 3.2 Airports 3.7 3.7 3.7 Bus stations 1.9 2.3 1.9 City 2.0 2.3 2.0 Toilet availability % could not find when needed 46.0 45.0 46.0 % affected stay adversely 64.0 81.0 68.0 Water and soap for hand washing (1 = never to 5 = always) Hotel 3.7 3.7 3.7 Restaurants 3.2 3.2 3.2 Airports 3.8 3.8 3.8 Bus stations 1.6 1.0 1.5 City 1.8 1.6 1.8 Source: Annex Table G3 FIGURE 39. FACTORS OF MOST CONCERN TO TOURISTS, %ª 23 Bottled water 43 and ice 27 44 Tap water 19 39 12 Swimming pool 2 water 10 45 Food safety 32 43 40 Public toilets 40 40 0 5 10 15 20 25 30 35 40 45 50 percent of respondents Tourists Business visitors All visitors Note: a A respondent can identify up to three factors; Source: Annex Table G4. www.wsp.org 55 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | National Benefits of Improved Sanitation TABLE 25. HEALTH TROUBLES EXPERIENCED BY VISITORS Item Tourists Business visitors All visitors Visitors with GIT infection (% of total) 20.0 17.0 19.0 Perceived causes (% of infected persons, multiple responses allowed) Drinking water 30.0 38.0 31.0 Food 76.0 86.0 78.0 Dirty environment 16.0 13.0 16.0 Hot weather 8.0 13.0 9.0 Average number of days: Symptoms were felt 2.1 2.8 2.2 Incapacitated due to illness 0.6 0.9 0.6 Treatment sought (%) None 68.0 50.0 64.0 Medical practitioner: out-patient 5.0 13.0 7.0 Other: out-patient 3.0 0.0 2.0 Self-treatment 24.0 38.0 27.0 Average cost of treatment (US$) 5.6 6.0 5.7 Source: Annex Table G5 Despite the less than positive assessment of sanitation con- cant. Hutton et al. (2009) estimate these losses to be of the ditions, concerns and disease episodes experienced by tour- order of 174 billion kip (US$17.3 million) per year at 2006 ists, about 87% of visitors intend to return to Lao PDR prices. This was calculated by assuming that 10% of the (Figure 40). In addition, 95% of the visitors said that they revenue gains from improved sanitation are lost as a result would recommend the country to friends. of poor sanitation conditions. Figure 41 shows key factors that caused respondents to hesi- 5.2 SANITATION AND BUSINESS ACTIVITY tate to return to the country. All respondents were asked this question, irrespective of whether they said they intended to Section 3.4.2 explained that poor sanitation has the po- return. The survey reveals no reason that is clearly domi- tential to influence the operation of firms and the deci- nant, perhaps reflecting the previous finding that many of sions of businesses to locate in a particular area. In order the visitors intend to return to the country. Nonetheless, to assess these hypothesized effects, a total of 17 busi- the most common reasons cited were the impression among nesses were surveyed through face-to-face interviews and visitors that they have seen everything there is to see in the in-depth discussions. These firms were selected based on country (5%) and poor sanitation (4%). Among the con- the potential link between sanitation and their business, tributory reasons (Annex Table G7), poor sanitation and and the importance of the sector and specific firm to the poor service emerged as the top factors that make visitors economy of Lao PDR. Naturally, the survey of foreign hesitate to return. firms was of those that have already located in Lao PDR, and hence a key category of firms – those that had decided The discussion above provides qualitative information on against locating there – did not form part of the sample. the possible effects of sanitation on tourism. While the Foreign firms were asked about the factors affecting their available data are not sufficient to calculate the monetary decision to locate in Lao PDR, and their experiences in impact, tourism lost due to poor sanitation could be signifi- the country. 56 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | National Benefits of Improved Sanitation FIGURE 40. INTENTION OF FOREIGN VISITORS TO RETURN TO LAO PDR, % 84 Tourists 96 98 Business 92 87 All visitors 95 0 10 20 30 40 50 60 70 80 90 100 percent of respondents Will return to Laos Will advise friends to visit Laos Source: Annex Table G6 FIGURE 41. REASONS FOR HESITANCY OF FOREIGN VISITORS TO RETURN TO LAO PDR, % 3.0 Too many tourists 0.0 4.0 3.0 Poor service 2.0 3.0 2.0 Not safe 2.0 2.0 5.0 Have seen all 2.0 6.0 3.0 Not value for money 4.0 2.0 4.0 Poor sanitation 0.0 5.0 0 1 2 3 4 5 6 7 percent of respondents All visitors Business visitors Tourists Source: Annex Table G7 www.wsp.org 57 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | National Benefits of Improved Sanitation Business owners were asked to rate their perception of sani- The foreign business owners/managers, in particular, con- tation in the location of their establishments on a scale of 1 sidered the Lao workforce to be very stable compared to (best) to 5 (worst). Figure 42 summarizes the respondents’ workers in other countries. One foreign restaurant owner answers to the different aspects of sanitation. The most mentioned that when he opened his business about eight favorable rating was given to water quality in rivers (2.4), years prior to the interview, his employees were often sick closely followed by air quality affected by poor sanitation and this had a negative impact on his business operations. (2.6) and household coverage of private toilets (2.6). In He added however that the health of his employees has contrast, the least favorable rating was given to toilets in improved and attributed this to better living standards in public places (4.2). Vientiane Capital. Table 26 shows the reasons cited by the firms for locating All the respondents stated that poor water quality could in their current place of business. The results were mixed, have a serious negative effect on business. In fact, the ma- which makes it difficult to make strong generalizations. jority of respondents mentioned access to clean water as However, it is important to note that none of the firms the most important aspect of sanitation. This is reflected mentioned sanitation-related conditions as a factor for their in Table 27, where the respondents gave an average rating choice of location. of 4 to the item “Poor water quality affects business.” The respondents also felt the quantity of water in Lao PDR is Table 27 shows the factors that affect the operation of adequate for their production most of the year. It is only the firms interviewed for this study. Notwithstanding the in the rainy season (3 months from July to September) that small sample size, business owners provided some evi- problems related to water arise. For example, one business dence that poor workforce health affects their businesses. owner stated that he occasionally had to close his restaurant This was particularly important to locally-owned food for a day or two during the rainy season because of lack of and beverage producers and pharmaceutical factories. water. Even though this restaurant uses bottled water for The respondents also mentioned that the actual impact of production, public water supply is still needed for cleaning workforce health on their business is positive as a whole. purposes and for customers bathrooms. FIGURE 42. RATING OF ENVIRONMENTAL SANITATION CONDITIONS IN THE LOCATION OF THE BUSINESS SURVEY INTERVIEW, BEST (1) TO WORST (5) Air quality from excreta 2.6 Air quality from solid waste 2.7 Air quality from vehicles 3.2 Management of industrial solid waste 2.8 +RXVHKROGRIĺFHVROLGZDVWH 3.3 Toilets in public places 4.2 Household coverage with private toilets 2.6 Management of industrial wastewater 3.5 Management of sewage 3.6 State of canals and rain water drainage 3.8 Water quality in rivers 2.4 0 1 2 3 4 5 Source: Annex Table H1 58 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | National Benefits of Improved Sanitation TABLE 26. REASONS FOR BUSINESSES SELECTING THEIR CURRENT LOCATION Food and Food and Travel Restaurants Pharmaceutical beverage beverage Hotels agencies/ Reason (Local/ factories (Local producers producers (International) tour operators International) Government) (Local) (International) (Local) Opportunity to spread brand       Central location       Business opportunity       Have location already       Close to market       Close to similar businesses       New market       Location is "out-of-town"       Government property       TABLE 27. THE IMPACT OF SANITATION-RELATED FACTORS ON BUSINESSES Sectors No. of Food and Food and Variable: Firms who say that… Restaurants Pharmaceutical responses beverage beverage (Local/ factories (Local producers producers International) Government) (Local) (International) Health Poor workforce health affects their business (% 11 50.0 - 33.0 50.0 respondents) Water Water quality is not adequate (% respondents) 11 - - - - Poor water quality affects their business 11 4.0 4.0 4.0 4.0 (1 = unimportant; 5 = important) They treat their own water (% respondents) 11 75.0 50.0 33.0 100.0 Average monthly cost of water treatment (US$) 6 10.0 2,000.0 10.0 625.0 Poor local environment (1 = unimportant; 5 = important) Affects customers 11 1.0 3.5 1.7 1.0 Affects current workers 11 1.0 3.5 1.0 1.0 Affects staff recruitment 10 1.0 3.0 1.0 1.0 Affects suppliers 9 1.0 1.5 1.0 1.0 Affects other company stakeholders 9 1.0 3.0 1.0 1.0 Average monthly cost of environment clean-up (US$) 8 12.0 1,750.0 12.0 500.0 Other aspects 0 Loss of business days due to local environmental 10 - - 33.0 - factors (% respondents) Fines paid for poor environment (% respondents) 9 - - - - Considered relocating firms (no of firms) 16 1 1 2 Source: ESI survey www.wsp.org 59 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | National Benefits of Improved Sanitation The fact that the interviewed business owners/managers on their business. Table 27 shows that only the foreign- found the water quantity to be adequate has to be seen in owned food and beverage firms seem to lend some degree the light of the use of a mix of water sources. One business, of importance (average score = 3.5) to the effects of the a slaughterhouse located in the outskirts of Vientiane Capi- environment on customers, current workers, recruitment tal has its own well, and uses the water from this well di- and stakeholders. The average amount spent on cleaning rectly for cleaning purposes. Other local food and beverage surroundings ranges from US$12/month for the small lo- produces as well as the Lao-owned restaurants, the pharma- cal family industries to US$1,750/month for the inter- ceutical factories and the international brewery mainly use national brewery. Such a large variance is of course likely water from the public water supply but filter it themselves. to be explained by the nature of the activities and scale of operations of the firms. Four of 11 interviewed businesses do not treat the water (note, 6 non-responses to this question). In two cases, the Only one of the local small-scale food and beverage produc- bakery and the foreign-owned restaurant, this must be in- ers had considered moving to another location. However, terpreted with care because these firms use bottled water the owner seemed to be more intent on moving her place of in production. The slaughterhouse does not treat the wa- residence, which is in the same building as the factory of the ter because it is mainly used for cleaning purposes and not firm, rather than the firm itself. Of the two foreign-owned directly in production. Only one firm, a Lao-owned res- food and beverage producers, only the bakery which is lo- taurant, uses water directly from the public water supply cated in the central area of Vientiane Capital also considered without further treatment for production. moving to another location. However, this was motivated mainly by the desire to get more space. The two pharmaceu- As shown Table 27, the cost of treatment ranges from tical firms had also considered moving to a different loca- US$10/month for the small local family industries to tion. Both are government-owned enterprises that want and US$2,000/month for the international brewery. While the originally had factories that are away from the city. However, cost variations across the firms are likely to be explained the expansion of the city meant that the existing factories by the scale and nature of their operations, it is important are now within city limits. Efforts to move the factories have to note that such costs were considered low by the respon- been constrained by an inability to find a suitable location dents. This was especially the case for the foreign respon- that can be easily accessed by its current workforce. dents who find the price of water in Lao PDR to be low relative to other countries. Table 28 shows measures related to cleaning surrounding areas and the training of staff on proper hygiene practices The local business owners and managers place little im- that were implemented by firms to deal with poor environ- portance on the effect of the surrounding environment mental conditions. TABLE 28. SANITATION AND BUSINESS COSTS: MAIN MEASURES TAKEN TO DEAL WITH A POOR ENVIRONMENT Sectors Responses Food and beverage Food and beverage Pharmaceutical producers Restaurants Hotels producers (Local) factories (International) Paid local authorities to clean streets      Introduced cleaning procedures      Staff cleaned areas outside the establishment      Trained staff in hygiene      Source: ESI survey 60 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | National Benefits of Improved Sanitation FIGURE 43. IF SANITATION IMPROVES CONSIDERABLY, DO YOU ENVISAGE EXPANDING YOUR OPERATIONS HERE?, % OF sanitation access in the country amount to about 1,313 billion RESPONDENTS kip (US$158 million) per year. The estimated costs for rural areas are higher because there are more households in these No Yes 25% 75% regions and health costs per household are higher compared to urban areas. Households that practice open defecation (OD) account for the highest proportion of the health costs. It is also worth noting that the current estimates are higher than the health-related costs in the ESI Impact Study (US$115 mil- lion).29 This is due to changes in economic and demographic conditions between 2006 and 2010, sanitation coverage, re- finements in the methodology and improved data sources. The estimated benefits of sanitation improvement depend on the groups that will receive the interventions as well as the options made available to them. Scenario 1 in Table 29 illustrates the case in which all households have access to sewers. It indicates that the projected gains amount to about 668 billion kip (US$81 million) per year or approxi- mately half of the estimated health costs. However, the cost Source: ESI survey of pursuing such an objective is likely to be very high and the suitability of having sewers in all parts of the country is also suspect. Without providing a specific option, Sce- While it seems that sanitation was not a serious factor in lo- nario 2 shows the benefits associated with having improved cating business operations, the interviews conducted for this sanitation access (not sewers) to households that currently study suggest that it does matter. Figure 43 shows that 75% do not have access to such facilities. The estimated benefits (or 9 out of 12) of the respondents envisaged expanding their amount to just over 228 billion kip (US$28 million). operations should there be significant improvements in sani- tation. Their impression was that improved sanitation con- 5.4 SUMMARY OF BENEFITS ditions are associated with generally better living standards, which in turn leads to more business opportunities. Sections 5.1 to 5.3 examined the broader benefits o improved sanitation in Lao PDR. It provided a range of annual health 5.3 HEALTH benefits for two scenarios. The first can be treated as an upper limit as it represents a situation in which all the households in The national health benefits from sanitation improvements the country have access to sewers. The second scenario, which depend on the cost of sanitation per household, the reduc- is a more achievable but still a challenging target in the medi- tion in relative risks associated with sanitation options and um term, captures the provision of access to improved sanita- the sanitation coverage in the country. Information on the tion (not necessarily access to sewers) for the population that first two variables was discussed in Section 4.1 while the currently have unimproved access. While the gains to business third was presented in Section 1.1. and tourism were not quantified in this study, the benefits of improved sanitation could also be significant. The ESI Impact Table 29 presents the estimated health costs associated with Study (Hutton et al., 2009), for example, estimated the tour- sanitation and the potential benefits of sanitation improve- ism losses from poor sanitation to be of the order of 150 bil- ment. It indicates that the health-related costs of the existing lion kip (US$17 million) per year at 2006 prices. 29 At 2006 prices, Hutton et al. (2009) report that the health-related costs associated with poor sanitation are about 1,165.6 billion kip. This is about 1,260.7 billion kip when valued at 2010 prices. www.wsp.org 61 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | National Benefits of Improved Sanitation TABLE 29. NATIONAL HEALTH IMPACTS OF POOR SANITATION National health impacts of poor sanitation Item Rural Urban National Sanitation Access (% households, year 2010) Open defecation a 41.0 3.0 28.0 a Unimproved (includes shared) 9.0 8.0 9.0 b Improved (not sewers) 50.0 89.0 63.0 c Improved (sewers) 6.8 0.4 nci No. of households (thousands, year 2010) Open defecation 310.7 10.1 320.8 Unimproved (includes shared) 68.2 26.8 95.0 Improved (not sewers) 378.9 298.3 677.2 Improved (sewers) 51.5 1.3 52.9 Totald 757.9 335.1 1,093.0 Health cost per household (thousand kip) Open defecatione 1,789.9 1,194.4 1,572.6 e Unimproved (includes shared) 1,069.9 712.5 939.5 Improved (not sewers) e 1,069.9 712.5 939.5 f Improved (sewers) 657.5 436.1 576.7 g Estimated national health costs (billion kip) Open defecation 556.2 12.0 568.2 Unimproved (includes shared) 73.0 19.1 92.1 Improved (not sewers) 405.5 212.5 617.9 Improved (sewers) 33.9 0.6 34.5 Total 1,068.5 244.2 1,312.7 h Heath cost savings with improved sanitation (billion kip) Scenario 1: All households have access to sewer facilities 570.2 98.0 668.3 Scenario 2: OD and unimproved get access to improved sanitation 223.7 4.8 228.6 a b c Notes: JMP (2012); JMP (2012) less proportion of households with access to sewers; Multiple Indicator Cluster Survey 2006 (as cited in JMP 2010a); d e combines information from the 4th Lao Expenditure and Consumption Survey (LECS4) and the ADB (2011); costs less averted costs from OD to f g basic (no wastewater treatment); costs less averted costs of OD to sanitation with wastewater treatment; Number of households multiplied by the cost/ h household, converted into billions; health costs in base less health costs in scenario; i nc . = not calculated 62 Economic Assessment of Sanitation Interventions VI. Costs of Improved Sanitation This section presents the costs of sanitation options. It also a wide variation in the expected useful life of the sanitation describes the costs from different perspectives – investment/ options, from dry pit latrines, which are expected to last for recurrent and payer. In Section 6.3, the marginal costs of about a year, to toilets that flush to a septic tank, which are moving up the sanitation ladder are provided. projected to last for 25 years. It is important to note that the expected lives of some toilet options were adjusted down- 6.1 COST SUMMARIES wards to account for the frequency of use. This was the case for shared facilities which were assumed to last half as long This section summarizes the costs of various sanitation op- as private counterparts. tions. It provides information on investment and recurrent costs, and the expected useful life of the different facilities.30 There is also a wide disparity in the costs and expected lives Investment costs were annualized to permit a comparison of the technologies examined in the urban sites. Table 31 between the sanitation options. Site-specific information shows that the annual costs per household in the urban sites on costs is provided in Annex Tables I1 to I6. range from 184,000 kip (US$22) for shared wet pit latrines to 1.11 million kip (US$134) for toilets that have access to There are wide differences in cost across the various sanita- sewers. There is also a wide variation in the expected use- tion options. Table 30 shows that the annual costs at the ful life of the sanitation options. Shared wet pit latrines are rural sites range from 191,000 kip (US$23) per household expected to last for about three years while toilets that flush for shared wet pit latrines to 816,000 kip (US$98) per to septic tanks are projected to last about 8 times longer. household for toilets that flush to septic tanks. There is also TABLE 30. COST OF DIFFERENT SANITATION OPTIONS FOR RURAL HOUSEHOLDS, 2010 Lump sum investment costs Total costs Estimated life Intervention Sites (thousand kip/household) (annualized, thousand kip household)a (years)b Shared: Wet pit latrine 344.4 190.7 3.0 2&3 Shared: Toilet to septic tank 1,993.7 586.2 12.5 2 Private dry latrine 218.9 245.2 1.0 3&4 Private wet latrine 889.1 267.6 6.0 2,3,4 & 6 Toilet to septic tank 4,272.3 815.8 25.0 2 a b Note: Total costs per facility per year are the sum of capital (annualized) and recurrent (maintenance and operation) costs. Refers to the expected life of the facility before full replacement. Source: Annex Tables I1 to I6 30 Program costs, which represent expenditure on software (promotion, education, monitoring) were not included in the analysis because of the lack of information from the sites. www.wsp.org 63 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Costs of Improved Sanitation TABLE 31. TOTAL COST OF DIFFERENT SANITATION OPTIONS FOR URBAN HOUSEHOLDS, 2010 Lump sum investment costs Total costs Estimated life Intervention Sites (thousand kip / household) (annualized, thousand kip household)a (years)b Shared: Wet pit latrine 319.3 184.1 3.0 1 Shared: Toilet to septic tank 1,495.3 507.1 12.5 1 Private wet latrine 1,049.2 306.5 6.0 1&5 Toilet to septic tanks 4,272.3 815.8 25.0 1&5 Toilet to sewers 5,545.9 1,113.4 25.0 1 a b Note: Total costs per facility per year are the sum of capital (annualized) and recurrent (maintenance and operation) costs. Refers to the expected life of the facility before full replacement. Source: Annex Tables I1 to I6 FIGURE 44. COMPONENTS OF COSTS PER RURAL HOUSEHOLD, THOUSAND KIP, 2010ª 269.9 Private toilet to septic tank 545.9 51.5 Private wet pit latrine 216.4 0.0 Private dry pit latrine 245.2 269.9 Shared toilet to septic tank 316.3 51.1 Shared wet pit latrine 139.5 Recurrent (annual) 0 100 200 300 400 500 600 Capital (annualized) thousand kip Note: a Total costs per facility per year are the sum of capital (annualized) and recurrent (maintenance and operation) costs. Source: Annex Tables I1 to I6 FIGURE 45. COMPONENTS OF COSTS PER URBAN HOUSEHOLD, THOUSAND KIP, 2010ª 404.9 Private toilet to sewer 708.6 269.9 Private toilet to septic tank 545.9 51.1 Private wet pit latrine 255.4 269.9 Shared toilet to septic tank 237.2 51.1 Shared wet pit latrine 133.0 Recurrent (annual) 0 100 200 300 400 500 600 700 800 Capital (annualized) thousand kip Note: a Total costs per facility per year are the sum of capital (annualized) and recurrent (maintenance and operation) costs. Source: Annex Tables I1 to I6 Figure 44 illustrates the main contributors to cost in rural ar- Figure 45 illustrates the main contributors to cost in urban eas. It indicates that annualized investment costs per household areas. It indicates that annualized investment costs per house- range from 140,000 kip (US$17) for shared wet pit latrines hold range from 133,000 kip (US$16) for shared wet pit la- to 546,000 kip (US$66) for toilets that flush to septic tanks. trines to 709,000 kip (US$85) for toilets that have access Recurrent costs per household also vary across facilities, with to sewers. Recurrent costs range from 51,000 kip (US$6) to the highest being 270,000 kip (US$33) per year for toilets that 405,000 kip (US$49) per year. As with rural areas, annual- flush to septic tanks. Annualized investment costs account for ized investment costs tend to dominate the costs of the facili- the majority of the costs of the technologies. ties. 64 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Costs of Improved Sanitation 6.2 FINANCING SANITATION This section discusses the various groups that finance sani- by government and donors). The largest contribution made tation options. At the outset, it is important to note two by donor agencies was for private wet pit latrines in rural points regarding the values presented in this section. First, areas (16%). The rather small contribution of donor agencies the contributions of government, donor agencies, NGOs is explained by the fact that most of the households in the and perhaps the private sector are underestimated here. This sample financed their toilets. For households that received is because program costs, which are more likely to be at- toilets through donor programs, the shares of household ben- tributed to these stakeholders, are excluded in the analysis eficiaries in costs are actually much smaller than those im- because of lack of data. Second, costs attributed to house- plied by Figure 46. For example, excluding the value of labor, holds that received support from other institutions are households that received private wet pit latrines from donors also underestimated. The sources of funds are based on a at Site 3 only contributed about 15% of total costs. household survey, where respondents who acquired toilets with the aid of other institutions were asked the number Despite the rather limited sample in the analysis, the con- days of labor that they contributed. These days cannot be clusion that households are primarily responsible for acquir- readily converted to values because the time period, and ing sanitation facilities is realistic. For the period 2008/9, hence the appropriate wage rate to use, in which the toilets Giltner et al. (2010) estimated that households accounted were acquired are not available. Third, very few respondents for 52.2% of total expenditures for basic sanitation and hy- claimed to have received assistance in acquiring their toilets giene in rural areas. The remainder was attributed to de- and these are limited to a subset of sanitation options at the velopment partners (35.3%) and the government (12.5%). sites. Only 89 out of the 834 rural respondents mentioned The paper also showed that 73.7% of these expenditures that they received some form of support and these were were for hardware and the rest were for software costs such limited to respondents that use private and shared wet pit as project management and behavior change communica- latrines. Only 37 out of the 379 urban respondents admit- tion.31 Expenditure on sanitation hardware was also only ted to having received support. This is broken down among attributed to households and development partners. All households that use private wet pit latrines (31 respon- household expenditures was on hardware only, while 61% dents), shared wet pit latrines (2 respondents) and toilets of donor expenditure was on hardware. Total expenditure that flush to septic tanks (4 respondents). for the period was US$5.9 million. This implies that total expenditure on hardware (73.7% of the total) was US$4.4 Figure 46 shows the sources of funding for the various options million. It also suggests that the expenditure of households at rural and urban sites. It indicates that most of the costs are (52.2% of the total) was US$3.1 million. Hence, house- shouldered by households (proportion of costs not financed holds contributed roughly 70.5% of hardware costs. FIGURE 46. PROPORTION OF SANITATION COSTS FINANCED FROM DIFFERENT SOURCES, %ª 89.3 Shared wet pit latrine 10.7 0.0 Rural 83.5 Private wet pit latrine 16.1 0.4 97.9 Private toilet to septic tank 0.5 1.6 Urban 87.2 Private wet pit latrine 12.8 0.0 0 20 40 60 80 100 Household Donor Government percent of households Note: a The values represent the shares of government and donors in hardware costs only. Hardware costs include investment and recurrent costs. Source: ESI survey. 31 Giltner et al. (2010) defined hardware as costs for latrine construction, including the labor supplied by the household. www.wsp.org 65 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Costs of Improved Sanitation 6.3 COSTS OF MOVING UP THE SANITATION LADDER Table 32 shows the costs of moving up the sanitation ladder latrines is negative for rural sites. Moreover, the increase for all field sites. In most cases, incremental costs are posi- in costs of moving from dry pit latrines to wet pit latrines tive as a household moves up the sanitation ladder. This re- is quite small. Large increases in cost are estimated when flects the point that more advanced sanitation options tend households move from private wet pit latrines to private to be more expensive because of investment costs. However, toilets that have access to septic tanks. The observed pattern one instance in which costs per household decline is in the for the urban sites is similar to that for the rural sites. movement from shared toilets that flush to septic tanks to private dry and wet pit latrines. This reflects the point that Some care must be exercised in interpreting the results in toilets flushing to septic tanks are much more expensive this section. This is because the costs per household with than other facilities. However, this could easily change if shared facilities are sensitive to the number of households there are many households using a particular facility. that use the facility. That is, costs per household are likely to decline for shared toilets if more households are using the The observed pattern for all sites is also generally reflected facility. However, if the analysis focuses on private facilities for rural sites (Figure 47). The incremental cost of mov- only, dry pit latrines are clearly the cheapest and toilets that ing from shared toilets that flush to septic tanks to dry pit flush to septic tanks are the most expensive. TABLE 32. INCREMENTAL COSTS OF MOVING UP THE SANITATION LADDER, ALL SITES, THOUSAND KIP, 2010 To Facility Shared toilet to Private dry pit Private wet pit Private Sites septic tank latrine latrine From Shared wet pit latrine 348.1 55.4 91.4 625.9 923.6 Shared toilet to septic tank -292.7 -256.6 277.9 575.5 Private dry pit latrine 36.1 570.6 868.2 Private wet pit latrine 534.5 832.2 Private toilet to septic tank 297.7 Source: Annex Table I7. A minus figure means that the option in left column (‘from’) costs less than the option in the right hand row (‘to’) FIGURE 47. INCREMENTAL COSTS OF MOVING UP THE SANITATION LADDER, THOUSAND KIP PER HOUSEHOLD, 2010 Private toilet with septic tank to sewer 548.2 Private wet pit latrine to private toilet with septic tank 509.2 Urban Shared toilet with septic tank to private wet pit latrine -200.6 Shared wet pit latrine to shared toilet with septic tank 323.0 Private wet pit latrine to private toilet with septic tank 548.2 Private dry pit latrine to private wet pit latrine 22.4 Rural Shared toilet with septic tank to private dry pit latrine -341.0 Shared wet pit latrine to shared toilet with septic tank 395.6 -400 -200 0 200 400 600 thousand kip Source: Annex Table I7 66 Economic Assessment of Sanitation Interventions VII. Efficiency of Improved Sanitation This section synthesizes the information from Sections 4 to Among the various sanitation options, the most favorable 6 to present the efficiency of sanitation options under ideal BCR estimates were found for shared wet pit latrines (10.4) and actual conditions. It also discusses the non-quantified and private dry pit latrines (9.0). However, the finding that impacts alongside the quantitative cost-benefit and cost- the private toilets with access to septic tanks had the highest effectiveness ratios. It consists of five sub-sections: NPVs (17.39 million kip or US$2,095) but a relatively low BCR (4.1) highlights the point that this is a relatively expen- • Efficiency of sanitation interventions, compared sive option that yields a high return. The cost-effectiveness with no facility (Section 7.1) measures, which are focused more on targets associated with • Efficiency of alternatives for moving up the sanita- human health, were also most favorable to dry pit latrines, tion ladder (Section 7.2) followed by wet pit latrines (shared and private). For exam- • Qualitative analysis of the efficiency indicators (Sec- ple, cost per disability-adjusted life-year (DALY) averted for tion 7.3) dry pit latrines was about 5.01 million kip (US$607), which • Cost variations and the efficiency estimates (Section is the lowest among the options considered. 7.4) • Scaling up the results for national policy making The efficiency indicators discussed above were under ideal (Section 7.5) conditions. As argued in Section 4.6.4, benefits under ac- tual conditions may be lower for reasons including poor 7.1 EFFICIENCY OF SANITATION hygiene practices and non-extensive use of the facilities that IMPROVEMENTS COMPARED TO NO are made available to the beneficiaries. Table 33 shows that FACILITY the differences were most noticeable for dry and wet pit latrines, where the BCR under actual conditions was lower Economic analysis combines evidence of the cost and ben- than under ideal conditions by 20% and 15%, respectively. efits of sanitation improvements. All the indicators pre- sented here were calculated by estimating costs and benefits Figure 48 illustrates the site-specific BCRs for the sanita- over a planning horizon of 20 years, and discounting future tion options at the rural sites. The graph shows that all in- costs and benefits to the present day using a discount rate of terventions yield benefits that are higher than costs under 12%. Efficiency indicators are introduced in Section 3 and ideal conditions. It also indicates that the highest BCR un- defined in the Glossary. der ideal conditions is for private wet pit latrines at Site 2 (10.9). However, the BCR for shared wet pit latrines at the Table 33 summarizes the results for the rural sites under same site (10.7) and private dry pit latrines at Site 3 (10.4) ideal and actual settings. Under ideal settings, the efficiency are not very different. This suggests that the averages shown indicators show that all the sanitation options yield positive in Table 33, which favor shared wet pit latrines, are consid- net benefits. The benefit-cost ratios (BCRs) were all greater erably influenced by inter-site differences. That is, the low than unity and the net present values (NPVs) for all the op- estimate for private wet pit latrines compared to shared wet tions were positive. All of the interventions also had short pit latrines is due to substantially lower BCR estimates for pay-back periods (of two years or less). private wet pit latrines in Sites 4 and 6. www.wsp.org 67 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Efficiency of Improved Sanitation and Hygiene The findings above suggest two clear points. First, relatively sanitation options, the most favorable and least favorable high BCRs suggest that there is merit in offering low-cost estimates were for private wet pit latrines and shared toilets technologies (i.e. dry and wet pit latrines) in rural areas. This with access to septic tanks, respectively. Cost effectiveness is especially important when funds are scarce. When more ratios were also favorable to wet pit latrines. For example, funds are available however, it would be unwise to overlook the cost per DALY averted for shared wet pits was 9.85 mil- toilets that have access to septic tanks. For one, the returns lion kips (US$1,193), which is substantially lower than the (4.1 in the case of Site 2) are still higher than every dollar in- option with the second lowest cost effectiveness ratio (pri- vested. Moreover, these facilities have a high NPV. For exam- vate wet pit). Unlike the BCR and cost-effectiveness mea- ple, the NPV for such facilities in Site 2 is slightly more than sures, the highest NPV was estimated for toilets that have 2.5 times higher than for private wet pit latrines (see Annex access to sewers. This finding reflects high returns for these Table J2). Second, site-specific conditions, even within ru- relatively expensive facilities. ral areas, should be carefully examined when recommending sanitation options. This is clear from the wide range of BCRs The efficiency indicators under actual conditions were also found at the sites. It is not clear whether private facilities are less favorable than the estimates under ideal conditions. superior to shared facilities. In the case of wet pit latrines at However, the differences are generally small, with the larg- Site 2, the BCR of private facilities was higher than for shared est discrepancy in BCRs being about 5% for wet pit latrines. facilities. However, the reverse is was found at Site 3. Figure 49 shows the site-specific BCRs for all sanitation op- Table 34 summarizes the results for the urban sites. Under tions at all of the urban sites. It indicates that all interven- ideal settings, the estimated BCRs and NPVs show that all tions yield benefits that are higher than costs, and shows that the sanitation options yield net benefits. Among the various private wet pit latrines at Site 1 had the most favorable BCR. TABLE 33. RURAL AREA EFFICIENCY MEASURES FOR MAIN GROUPINGS OF SANITATION INTERVENTIONS, COMPARED TO “NO TOILET” Shared wet pit Shared toilet Toilet to Item Scenario Dry pit latrine Wet pit latrine latrine to septic tank septic tank Sites 2&3 2 3&4 2,3,4 & 6 2 No of households 47 7 101 312 48 COST-BENEFIT MEASURES (WEIGHTED AVERAGE FOR SITES) Ideal 10.4 3.6 9.0 7.8 4.1 Benefit per kip of input (kip) Actual 9.3 3.4 7.2 6.6 3.7 Ideal >100 >100 >100 >100 93 Internal rate of return (%) Actual >100 >100 >100 >100 >100 Ideal 1 1 1 1 2 Pay-back period (years) Actual 1 2 1 2 2 Ideal 13,807 11,306 14,588 14,428 17,389 Net present value (thousand kip) Actual 12,174 10,175 11,385 11,885 15,426 COST-EFFECTIVENESS MEASURES (WEIGHTED AVERAGE FOR SITES) Cost per DALY averted Ideal 6,882 25,345 5,011 7,872 33,382 (thousand kip) Actual 7,050 25,400 5,534 9,935 33,454 Cost per case averted Ideal 55 186 43 62 246 (thousand kip) Actual 58 187 50 80 246 Cost per death averted Ideal 150,965 447,173 104,291 155,324 588,980 (thousand kip) Actual 151,291 448,139 120,105 199,530 590,252 Source: Annex Tables J1 to J6. 68 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Efficiency of Improved Sanitation and Hygiene FIGURE 48. BENEFIT-COST RATIO, ALL SANITATION OPTIONS AT ALL RURAL SITES 10.0 Site 2 10.7 7.0 Shared wet pit latrine Site 3 9.1 9.3 Average 10.4 3.4 Shared toilet to septic tank Site 2 3.6 8.3 Site 3 10.4 6.8 Private dry pit latrine Site 4 8.4 7.2 Average 9.0 10.0 Site 2 10.9 7.2 Site 3 9.0 5.9 Private dry pit latrine Site 4 7.3 4.7 Site 6 5.6 6.6 Average 7.8 3.7 Private toilet to septic tank Site 2 4.1 0 2 4 6 8 10 12 BCR (actual) BCR (ideal) Source: Annex Tables J1 to J6. TABLE 34. URBAN AREA EFFICIENCY MEASURES FOR MAIN GROUPINGS OF SANITATION INTERVENTIONS, COMPARED TO “NO TOILET” Shared wet pit Shared toilet Toilet to Item Scenario Dry pit latrine Wet pit latrine latrine to septic tank septic tank Sites 1 1 1&5 1&5 1 No of households 7 11 169 127 12 COST-BENEFIT MEASURES (WEIGHTED AVERAGE FOR SITES) Ideal 6.0 2.2 6.2 2.3 3.1 Benefit per kip of input (kip) Actual 5.8 2.2 5.9 2.2 na Ideal >100 >100 >100 >100 >100 Internal rate of return (%) Actual >100 >100 >100 >100 na Ideal 1 2 1 2 2 Pay-back period (years) Actual 1 2 1 3 na Ideal 7,084 4,721 12,559 9,034 16,168 Net present value (thousand kip) Actual 6,895 4,533 11,815 8,477 na COST-EFFECTIVENESS MEASURES (WEIGHTED AVERAGE FOR SITES) Cost per DALY averted Ideal 9,852 26,120 16,028 28,751 53,832 (thousand kip) Actual 9,852 26,120 16,508 29,252 na Cost per case averted Ideal 74 196 124 220 405 (thousand kip) Actual 74 196 128 224 na Cost per death averted Ideal 195,511 518,317 302,279 554,087 1,068,236 (thousand kip) Actual 195,511 518,317 310,962 563,143 na Note: ‘na’ = not applicable, because sewerage option was modeled, with no field observations Source: Annex Tables J1 to J6. www.wsp.org 69 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Efficiency of Improved Sanitation and Hygiene FIGURE 49. BENEFIT-COST RATIO, ALL SANITATION OPTIONS AT URBAN SITES 5.8 Shared wet pit latrine Site 1 6.0 2.2 Shared toilet to septic tank Site 1 2.2 8.7 Site 1 9.0 3.9 Private wet pit latrine Site 5 4.2 5.9 Average 6.2 3.7 Site 1 3.8 1.6 Private toilet to septic tank Site 5 1.8 2.2 Average 2.3 0.0 Private toilet to sewer Site 1 3.1 0 2 4 6 8 10 BCR (actual) BCR (ideal) Source: Annex Tables J1 to J6. The estimates in Figure 49 suggest that differences across sites 7.2 EFFICIENCY OF ALTERNATIVES FOR may have a significant influence on aggregate or summary re- MOVING UP THE SANITATION LADDER sults. For example, it was earlier found that toilets with access to sewers had more favorable BCRs than toilets with access to This section discusses the incremental net benefits of mov- septic tanks. However, a closer examination of the values in ing up the sanitation ladder. This is important for decision Figure 49 suggests the contrary. It indicates that the relatively makers considering investments in more advanced sanita- low BCR for septic tanks was influenced by the estimates for tion options. The analysis is relevant to Lao PDR because Site 5, which does not have a sewer system. When the two there are households that already have access to sanitation facilities are compared in a common location (Site 1), the options other than OD. Hence, in many cases, the key BCRs are slightly more favorable to septic tanks. question might be to upgrade from a low cost option (e.g. dry and wet pit latrines) to more expensive technologies A number of observations can be made from the efficiency (e.g. toilets with septic tanks). estimates of various sanitation options in the rural and ur- ban sites. The clearest result is the relatively high BCR for Table 35 presents performance indicators as rural house- low-cost options (i.e. wet and dry pit latrines). However, this holds move up the sanitation ladder. The results vary from does not suggest that options higher-up the sanitation ladder one improvement to the next. Based on the BCRs, the (i.e. toilets with access to septic tanks or sewers), which have movement from shared wet pit latrines to improved facili- high NPVs, should be ignored. In addition, these findings ties will generate net losses (BCR < 1). A similar conclusion must be treated with care because of noticeable differences in can be found in the movement from private dry pit latrines results for similar sanitation options across sites. to private wet pit latrines and from private toilets to septic 70 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Efficiency of Improved Sanitation and Hygiene tanks. Such a reduction in efficiency measures, which is also Table 36 presents performance indicators associated with observed at specific sites, is due to the relatively large in- moving up the sanitation ladder at urban sites. While re- crease in the costs of facilities. In contrast, the results show sults are also mixed, these are similar to those of the rural that a movement from shared toilets that flush to septic sites in the sense that there are likely to be net losses as tanks to private facilities is likely to generate a small net households move from wet pit latrines to toilets that flush gain. to septic tanks. TABLE 35. RURAL AREA EFFICIENCY MEASURES FOR MAIN GROUPINGS OF SANITATION INTERVENTIONS, COMPARING DIFFERENT POINTS ON THE SANITATION LADDER, IDEAL SETTING To From Shared toilet to septic tank Dry pit latrine Wet pit latrine Toilet to septic tank BENEFITS PER KIP OF INPUT (IDEAL) Shared wet pit latrine 0.4 0.9 0.8 0.4 Shared toilet to septic tank 2.5 2.2 1.1 Dry pit latrine 0.9 0.5 Wet pit latrine 0.5 PAYBACK PERIOD (YEARS, IDEAL) Shared wet pit latrine 0 0 0 1 Shared toilet to septic tank 0 0 1 Dry pit latrine 0 1 Wet pit latrine 1 COST PER DALY AVERTED (THOUSAND KIP, IDEAL) Shared wet pit latrine 18,463 (1,871) 990 26,500 Shared toilet to septic tank (20,333) (17,472) 8,037 Dry pit latrine 2,861 28,371 Wet pit latrine 25,510 COST PER CASE AVERTED (THOUSAND KIP, IDEAL) Shared wet pit latrine 131 (12) 7 191 Shared toilet to septic tank (143) (124) 59 Dry pit latrine 19 203 Wet pit latrine 183 COST PER DEATH AVERTED (THOUSAND KIP, IDEAL) Shared wet pit latrine 316,416 (26,466) 24,567 458,223 Shared toilet to septic tank (342,882) (291,849) 141,807 Dry pit latrine 51,033 484,689 Wet pit latrine 433,656 Source: Annex Tables K1 to K5. www.wsp.org 71 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Efficiency of Improved Sanitation and Hygiene TABLE 36. URBAN AREA EFFICIENCY MEASURES FOR MAIN GROUPINGS OF SANITATION INTERVENTIONS, COMPARING DIFFERENT POINTS ON THE SANITATION LADDER To From Shared toilet to septic tank Wet pit latrine Toilet to septic tank Toilet to sewers BENEFITS PER KIP OF INPUT (IDEAL) Shared wet pit latrine 0.4 1.0 0.4 0.5 Shared toilet to septic tank 2.8 1.0 1.4 Wet pit latrine 0.4 0.5 Toilet to septic tank 1.3 PAYBACK PERIOD (YEARS, IDEAL) Shared wet pit latrine 1 0 1 1 Shared toilet to septic tank (1) 0 0 Wet pit latrine 1 1 Toilet to septic tank (0) COST PER DALY AVERTED (THOUSAND KIP, IDEAL) Shared wet pit latrine 16,267 6,175 18,899 43,980 Shared toilet to septic tank (10,092) 2,631 27,712 Wet pit latrine 12,724 37,804 Toilet to septic tank 25,081 COST PER CASE AVERTED (THOUSAND KIP, IDEAL) Shared wet pit latrine 122 50 145 331 Shared toilet to septic tank (73) 23 208 Wet pit latrine 96 281 Toilet to septic tank 185 COST PER DEATH AVERTED (THOUSAND KIP, IDEAL) Shared wet pit latrine 322,806 106,768 358,576 872,726 Shared toilet to septic tank (216,038) 35,771 549,920 Wet pit latrine 251,808 765,957 Toilet to septic tank 514,149 Source: Annex Tables K1 to K5. 7.3 QUALITATIVE ANALYSIS OF THE From the perspective of sanitation hardware, the results EFFICIENCY INDICATORS should also be interpreted as conservative estimates of net benefits, because a number of on- and off-site benefits were The results discussed in Sections 7.1 and 7.2 should be not included in the analysis. treated with care. On the cost side, these only capture sanitation hardware; i.e. sanitation facilities. The analysis The most obvious of the omitted on-site benefits are the ignores program costs, which would reflect sanitation and other diseases associated with poor sanitation such as hygiene programs, and the costs of delivering the facilities hepatitis and parasitic diseases. While these diseases on to households. their own may not be as significant as diarrheal diseases, 72 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Costs of Improved Sanitation their collective impact might be substantial. Neither did 7.4 COST VARIATIONS AND THE EFFICIENCY the analysis value the pain and suffering experienced by ESTIMATES people who are inflicted with diseases. In the case of time savings, the quantitative analysis was confined to defeca- Costs could vary significantly within a particular technology. tion. Time losses associated with urination among house- This could be due to differences in materials used in construc- holds that do not have access to sanitation facilities is an tion and the size of the facility itself. With a view towards on-site benefit that was not incorporated in the analysis. identifying the upper limit for these costs, Figure 50 illus- More favorable efficiency estimates are also likely to be trates the economically feasible investment costs for different obtained if it is possible to quantify the intangibles such sanitation options at Site 1. In the case of shared toilets with as comfort, prestige, privacy, cleanliness, and the safety of access to septic tanks, for example, the present values of costs women and children. This can be seen from the discus- and benefits are equal to each other when investment costs sion in Section 4, which showed that households with ac- are 6.1 million kip. This is about four times higher than the cess to toilets had a higher level of satisfaction than those investment costs used in the analysis (1.5 million kip). The without. largest proportionate difference between the “maximum” and “actual” investment costs is for private wet pit latrines. Off-site benefits include the impacts on tourism, business and aesthetics (external environment). The impacts of re- At this stage, it is also important to recall that investment duced water pollution on fisheries and the recreational costs per household for toilets with access to sewers were uses of water are also potentially important consider- modeled rather than estimated from a field setting in Lao ations that were not quantified in this analysis. The omis- PDR. Specifically, the methodology used the ratio of invest- sion of off-site benefits may have implications for the net ment costs for sewerage to septic tanks in Indonesia, where benefits of moving up the sanitation ladder. The quantita- the cost of toilets with access to sewers was 1.3 times larger tive analysis in the previous sections indicates that toilets than the cost of toilets with access to septic tanks. In the case with access to septic tanks or sewers have net benefits that of the ESI study for Vietnam (Nguyen et al., 2012), this ratio are lower than those associated with dry pit latrines and was about 2.4. Applying the ratio from Vietnam to the cur- wet pit latrines. This is of course driven mostly by the fact rent study suggests that investment costs for toilets with ac- that toilets with access to septic tanks or sewers are more cess to sewers would be about 13.3 million kip (= 4.3 million expensive. However, the extent to which septic tanks are kip x 2.4). Such an assumption would still have generated a better than pits in terms of reducing pollution loads sug- favorable BCR because the experiment here shows that in- gests that the net benefits of the former are likely to be vestment costs for such a facility could rise up to 25.8 million higher. kip before the BCR becomes equal to unity. FIGURE 50. INVESTMENT COSTS THAT WILL MAKE THE BENEFIT-COST RATIO EQUAL TO UNITY AT SITE 1, MILLION KIP PER HOUSEHOLD 0.3 Shared wet pit latrine 2.6 1.5 6KDUHGSRXUĻXVKWRLOHWWRVHSWLFWDQN 6.1 1.0 Private wet pit latrine 11.2 4.3 24.1 3ULYDWHSRXUĻXVKWRLOHWWRVHSWLFWDQN 5.5 25.8 Private toilet to sewers Cost used in analysis 0 5 10 15 20 25 30 0D[LPXPFRVWVSRVVLEOH PLOOLRQNLS Source: Author’s calculations www.wsp.org 73 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Costs of Improved Sanitation For all facilities illustrated in Figure 50, the investment Low-cost facilities clearly offer a viable option to meet short- costs that will make the BCRs equal to unity are larger than term needs in the face of scarce resources. However, longer- the values used in the analysis. Costs and quality are likely term solutions such as wastewater and septage treatment to be, other things equal, positively related, suggesting that facilities should not be ruled out altogether. While these households can continue to reap net benefits if they use facilities were not evaluated in the study, their capacity to more durable materials in the construction of their toilet reduce pollution, especially in urban areas, could result in facilities. The conclusions above are of course illustrative benefits that go beyond the households themselves. For ex- and simply apply to Site 1. However, the finding that the ample, the potential reduction in the amount of untreated NPVs for the other sites are also positive suggests that more waste flowing directly into water bodies could improve the expensive, or larger facilities, could still be built at the other ability of these resources to provide services (e.g., recreation sites without reversing the conclusions about economic fea- and fishing). sibility. 7.6 SUMMARY 7.5 SCALING UP RESULTS FOR NATIONAL POLICY MAKING As a whole, the study found that there were net benefits for all the interventions considered at the sites. These were The aim of this study goes beyond the assessment of the shown by BCRs that are greater than unity and positive improvements in sanitation options at the field sites. The NPVs. Net benefits were generally higher for low-cost tech- ultimate objective is to use the results from the sites in the nologies, particularly dry and wet pit latrines in rural areas formulation of national policies related to improvements in and wet pit latrines in urban areas. Low-cost sanitation op- sanitation access. Field sites were carefully selected so that tions also tend to have lower costs associated with given the results could be applied to various locations and popu- health targets (cost-effectiveness ratios) and faster payback lation groups in the country. periods. However, the NPVs were in many cases larger for technologies located higher up in the sanitation ladder (sep- Formulating a national policy on sanitation options is a dif- tic tanks and sewers). Efficiency indicators under actual set- ficult task. Limited financial resources in the light of po- tings also tend to be less favorable than under ideal settings. tentially large investment in sanitation options cannot be ignored. The sustainability of such investment in terms of There are of course many sources of uncertainty. The net maintenance and operation over time should also be con- benefits calculated in the study might actually be underesti- sidered. Moreover, it is unlikely that a single sanitation op- mated. Intangible benefits such as comfort, prestige and the tion fits all settings. personal safety of women and children were not quantified in the analysis. Benefits that accrue outside the household An important finding of this study is that low-cost sani- (national benefits) such as aesthetics, tourism, business and tation options yield net benefits and have relatively short water (fisheries and other uses of inland waters) were also payback periods. This is exemplified by the findings for dry excluded from the quantitative analysis. Since these benefits pit latrines at Sites 3 and 4. In Site 2 and all the urban sites, might be more significant to sanitation options at the top of where dry pit latrines were not evaluated, wet pit latrines the ladder the net gains from such interventions are higher had the most favorable net benefits. These examples suggest than the values estimated here. It is also important to note that sanitation interventions do not necessarily have to be that the omission of program costs from the analysis sug- for expensive options. This point becomes very important gests that the results apply strictly to sanitation facilities. when taken in the context of the limited budgets of the They do not cover the costs of delivering such facilities to government, donor agencies and civil society. the beneficiaries. 74 Economic Assessment of Sanitation Interventions VIII. Discussion 8.1 STUDY MESSAGES AND INTERPRETATION Improved sanitation generates benefits to society that go beyond potential healthcare savings to households and the 8.1.1 MAIN MESSAGES government. The contribution of sanitation investment to a cleaner environment, particularly water resources, benefits The key finding of the study is that there are net benefits society as a whole. The gains come in the form of lower clean- associated with all of the interventions evaluated. The up costs and the potential increase in the use of water re- benefit-cost ratios (BCRs) were greater than one for all in- sources for activities such as fishing and recreation. Even larg- terventions, ranging from 2.2 (shared toilets that flush to er benefits to the community and to the country as a whole septic tanks in urban areas) to 10.4 (shared wet pit latrines could arise if the cleaner environment and water resources in rural areas). In most cases, net benefits are less favorable contribute to higher tourist revenues and lower business as households move up the sanitation ladder. In general, costs. All of this suggests the importance of the participation this is explained by higher incremental costs compared to of the government and NGOs in addressing the problem of incremental benefits. However, some care must be exercised sanitation. Such participation is not limited to funding sani- in interpreting the results because of differences in site- tation projects but also includes campaigns to increase aware- specific conditions (e.g. incomes and initial disease rates). ness of the importance of proper sanitation and hygiene. In addition, benefits not included in the study could have made the results for sanitation interventions more favor- 8.1.2 ROBUSTNESS OF RESULTS able. These include intangible benefits (e.g. comfort, pres- tige, privacy status and safety), environmental benefits and There are uncertainties surrounding the value of the inputs impacts on tourism and business. used in the quantitative analysis. The main sources of un- certainty include (text in parentheses indicates the basis for It is important to note that many of the quantified ben- the actual values used in the analysis): efits are not financial (i.e., they go beyond a reduction in out-of-pocket expenses due to poor sanitation). Gains in • Value of productive time (estimated provincial GDP terms of averted health-related productivity and mortal- per capita) ity loses, and lost productive time due to accessing toilets • Value of premature death (human capital approach) are largely non-financial in nature. The only clear financial • Proportion of productive time lost per day due to poor gains are the potential for reduced healthcare expenditure sanitation (30% of hourly value of GDP per capita for (treatment and medication) and savings on water treatment adults and 15% for children under the age of five years) and purchased water. These savings will vary depending on • Disease incidence and mortality rates (WHO estimates) environmental and socio-economic contexts, and hence on • Cost of sanitation options (literature search, expert whether reductions in environmental pollution affects wa- opinion, surveys) ter sourcing behavior. • Discount rate (World Bank and literature search) www.wsp.org 75 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Discussion Uncertainties arise because of the presence of alternative procedure involves changing an assumption in the analysis values that could have been used in the analysis. This is the and recalculating the BCR. Site 1 was chosen because it case for productive time and premature death. Another rea- has the widest range of sanitation options evaluated in the son is the absence of rigorous studies to support the values study. used in the analysis – proportion of productive time used per day. There might also be instances in which the values Three experiments are expected to have a negative impact are available but not precise or specific enough in terms of (i.e., to reduce the BCR), on the economic feasibility of the study sites (provincial GDP and WHO disease rate) and the different options in Site 1. These are: (a) using national the period of analysis being different from the availability GDP estimates; (b) increases in investment and/or recur- of secondary data (WHO disease rates). Finally, there are rent costs; and (c) increases in the discount rate. For ex- estimates that by nature exhibit wide variance – e.g. cost ample, the use of national GDP reduced the benefit-cost of sanitation options. Some of these uncertainties are par- ratio of shared wet pit latrines at Site 1 from 6.0 to 3.6. This tially addressed by the estimation of costs and benefits at six represents an approximate 40% decline in the returns for different sites, and under ideal and actual scenarios. How- wet pit latrines for each kip invested in the facility. It is im- ever, it is useful to examine how sensitive the results are to portant to note that the negative impact of using national changes in these variables. GDP is confined to Site 1 and other locations with GDPs that are higher than the national average.32 For sites with Table 37 illustrates the impacts on the BCRs of different a provincial GDP of lower than the national average, one sanitation options at Site 1 under alternative scenarios. The could expect a rise in the BCRs of all the facilities. TABLE 37. BENEFIT-COST RATIOS OF INTERVENTIONS IN SITE 1 UNDER ALTERNATIVE ASSUMPTIONS, BENEFITS PER KIP INVESTEDa Shared Private Scenario Wet pit Toilet to Wet pit Toilet to Toilet to latrine septic tank latrine septic tank sewer Baseline 6.0 2.2 9.0 3.8 3.1 Scenario Using national GDP instead of "provincial GDP" 3.6 1.3 4.2 1.8 1.5 100% of time for adults and 50% of time for children 14.9 5.6 26.9 11.4 8.8 (people under 15 years) 10% increase in diarrheal incidence rates 6.1 2.3 9.0 3.8 3.1 10% increase in incidence rates of all diseases 6.2 2.3 9.1 3.9 3.1 10% increase in diarrheal mortality rates at same 6.0 2.3 9.0 3.8 3.1 incidence rates 50% increase in investment costs 4.4 1.9 6.4 2.9 1.8 50% increase in recurrent costs 5.2 1.7 8.2 3.2 2.0 50% increase in investment and recurrent costs 4.0 1.5 6.0 2.5 1.4 Discount rate is half 7.1 2.8 10.1 5.0 4.1 Discount rate is double 5.4 1.9 7.6 2.7 2.2 a Annex Table K6 provides estimates of the net present values for the different scenarios 32 In the current study, Site 3 (Vientiane Province) had an estimated provincial per capita GDP of about 93% of the national average. The other sites (2, 4, 5, and 6) had a provincial GDP per capita that was slightly above the national average. 76 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Discussion Table 37 shows that none of the alternative scenarios caused many of these low-cost technologies have shorter estimated the BCRs to be less than one. In other words, the sanitation useful lives, it must be emphasized that such choices are likely options continue to be favorable. However, there are some to be more suitable to meeting short-term considerations. areas that require closer inspection. One is the sensitivity of the values to changes in the income estimates. For example, The results of this study provide valuable inputs for a national the 62% drop in the opportunity cost of time due to the use analysis of sanitation options and the formulation of plans to of the national GDP estimate caused a 54% decline (from meet national targets. As inputs for a national analysis, the 3.8 in the baseline to 1.8 in the scenario) in the BCR of results could be used to evaluate and select between options toilets to septic tank. Recurrent and investment costs were in various settings. The framework and, to a limited extent, also relevant for toilets to sewers. For such facilities, a 50% the assumptions and data used here could also be adopted for increase in recurrent and investment costs led to a 56% de- settings or technologies that were not covered in the study. cline (from 3.1 in the baseline to 1.4 in the scenario) in the BCR of the facility. 8.2.2 TRANSLATING EVIDENCE INTO ACTION The simulations also highlight the importance of properly The results of this study are useful to various groups. Stake- valuing the time of adults and children. The current analysis holders in the water and sanitation sector can use them for assumes that adult time is valued at 30% of their income strategic plans and the formulation of budgets. The results while the time of children is about half of adult time. Valu- of the cost-benefit and cost-effectiveness analyses can assist ing adult time at 100% of their income will raise the BCRs in deciding on the appropriate technologies for different of the different options by at least 150% (for shared wet settings in the country. The cost estimates can also provide pit latrines). This finding highlights the point that current valuable inputs to the formulation of budgets. income assumptions are conservative. The results can be used by government agencies involved in 8.2 UTILIZATION OF RESULTS IN DECISION making plans for the sector and in implementing sanitation MAKING projects. These agencies include: the Water Resources and Environment Administration (WREA); Water Resources and 8.2.1 POTENTIAL USES OF RESULTS Environment Office; Ministry of Public Works and Transport (MPWT); Public Works and Transport Institute of MPWT; The results of the study have many uses in the decision-mak- Provincial Department of Public Works and Transport; Dis- ing processes in the sanitation sector. These can be used as a trict Office of Public Works and Transport; Provincial Nam source for advocacy in sanitation improvements. In particu- Papas (a state-owned urban service provider); Urban Devel- lar, these can be used to emphasize the benefits associated opment and Administration Authorities; Ministry of Health; with improved sanitation and the net benefits associated with Provincial Public Health Department; and National Center various sanitation options. Such advocacy can target house- for Environmental Health and Water Supply (Nam Saat). holds in terms of investing in toilets. Equally important is The study results can assist donors and NGOs in their col- convincing government, donors, and other institutions of laboration with national government agencies and local gov- the importance of investment in basic sanitation facilities ernment units, to the extent that they are consulted in the and off-site treatment facilities, and in designing programs to planning process. The results are also highly relevant in the promote behavior change. selection and design of projects of these donors and NGOs. The findings and study approach can also be used in selecting The results of the study can also be used to sensitize other the appropriate sanitation interventions for various sites. This institutions like the media about the impact of sanitation is particularly important in identifying the technologies that improvements and the various sanitation options. This will yield the highest net returns in the long term. Where funds helps in advocacy, which may eventually increase the aware- are scarce, the study shows that there are net benefits from in- ness of households of the costs and benefits of sanitation vestment in low-cost sanitation technologies. However, since improvements. www.wsp.org 77 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Discussion 8.2.3 INTEGRATING ECONOMIC CONSIDERATIONS sion of software and hardware, leveraging funds from other INTO A DECISION MAKING PROCESS sources, and the use of subsidies to encourage the beneficia- ries to contribute to the investment. A discussion of these In real life, many factors influence decisions. Some are ev- subsidies is provided in Evans et al (2009).33 idence-based while others are related to political decision making. The study shows how economic analysis, in terms Implementation approaches are concerned with the way in of quantifying costs and benefits and eventually calculating which projects and programs facilitate the delivery of sanita- net benefits, can be used to generate decision-making aids. tion interventions to target beneficiaries. These approaches The analysis could be extended for a broader analysis of op- can be classified as: (a) Community-Led Total Sanitation tions. As in multi-criteria analysis, such an exercise may re- (CLTS); (b) sanitation marketing; (c) informed choice; (d) quire an extensive set of criteria. These criteria may include supply-driven approach; and (e) strategic urban sanitation.34 the availability of resources, selection of the appropriate Implementation approaches may also be accompanied by implementation and financing approaches, environmental measures that motivate hygiene behavior change. It is impor- factors, and the acceptability and willingness of the target tant to note that a specific project or program may include a beneficiaries of sanitation programs. mix of the elements of the aforementioned approaches. 8.3 DELIVERING SANITATION IMPROVEMENTS Sanitation programs and projects may also involve partner- TO TARGET BENEFICIARIES ships, or agreements between two or more stakeholders to share knowledge, skills and responsibilities. Such partner- 8.3.1 KEY APPROACHES IN THE DELIVERY OF ships may be at the level of implementation and financing, SANITATION IMPROVEMENTS and may involve collaboration between the government and the private sector or different levels of government. For There are many instances in which improvements in sanita- example, it is possible to have a financing partnership in tion facilities can only be made available through projects which one group provides funding while another imple- or programs implemented by the government (national ments the project. and local), donor agencies, private firms and NGOs. The households without latrines or toilets are likely to be poor 8.3.2 PROGRAM APPROACHES IN LAO PDR and will have difficulty in paying for such facilities. Off-site treatment facilities often require investment outlays that This study initially considered reviewing 17 of the many are beyond the means of households in the community. programs in Lao PDR, dating back as far as 1996. However, In addition, the fact that these facilities benefit communi- this was reduced to six because of the lack of available infor- ties rather than just one household raises questions about mation. The programs reviewed for this study are:35 how the investment outlays will be financed or distributed among the potential beneficiaries. • Northern and Central Regions Water Supply and Sanitation Sector Project (NCRWSSSP) There are many ways in which access to improved sanita- • Houaphanh Health Development Program (HHDP) tion facilities has been delivered to households and commu- • Primary Health Care Program Phase II (PHCP2) nities. There are two important dimensions in this process • Water and Sanitation Projects in Meun and Nan – financial and implementation approaches. Districts (WSPMN) • Environmental Sanitation Upgrading Project (ESUP) Financial approaches refer to the manner in which funds • Strengthening National Water Supply and Sanita- are provided. These include direct payments for the provi- tion Strategy Program (SNWSP) 33 The subsidies are also summarized in Rodriguez et al. (2011). 34 A short description of these approaches is provided in Annex 1 of Rodriguez et al. (2011). 35 Annex Table K7 provides basic information about these projects. Some of the acronyms used in this study were supplied by the authors. 78 Economic Assessment of Sanitation Interventions Four of these projects were implemented in villages or dis- Figure 51 summarizes the implementation and financing ap- tricts or provinces relevant to the study sites. These were proaches and partnerships involved in the projects reviewed the WSPMN (Sites 3 and 5), ESUP (Hatsady Tai village in in the study. It indicates that the supply-driven implementa- Site 1), SNWSP (Site 6) and NCRWSSSP (multiple loca- tion approach was the most common practice. Only HHDP tions including Site 5). However, many of the households used the CLTS approach in the implementation of the proj- in the ESI survey were unaware that they were beneficiaries ect. Most projects also provided partial subsidies. of these projects. 8.3.3 A CALL FOR A MORE THOROUGH The oldest of the above projects (SNWSP and PHCP2) be- ASSESSMENT OF APPROACHES gan in 2003, while the most recent (WSPMN) started in 2009. Most of the projects have finished (as late as 2010 A thorough assessment of the program approaches has been for NCRWSSSP and ESUP, while the HHDP was sched- very difficult to conduct in Lao PDR due to a lack of project uled for completion in 2012). These projects were funded documentation evaluating implementation and impact, espe- externally. Five were funded by donor agencies while one cially after project completion. In addition, very few projects (ESUP) received funding support from the Asian Institute were examined here, which restricts the ability of this study to of Technology. The projects were implemented by govern- make reliable inferences. Without a doubt, evaluating the effec- ment agencies, which in four cases involved staff from the tiveness of the approaches is important in order to ensure that Center for Environmental Health and Water Supply (Nam the target beneficiaries get the most from programs. It is also Saat) of the Ministry of Health. However, government essential to avoiding mistakes committed in previous projects. agency implementation of projects was generally supported by the funding agencies. Given this lack of program evaluation, this paper makes a call for further studies in the evaluation of the various implemen- All of these projects had water supply and/or sanitation tation and financing approaches in the sanitation sector of components. With the exception of the HHDP, the proj- Lao PDR. Such studies could include developing a clear and ects provided hardware (Annex Table K7). PHCP2 and robust framework and indicators with which the approaches ESUP also provided software. could be evaluated and compared. FIGURE 51. IMPLEMENTATION APPROACHES AND PARTNERSHIPS IN THE SELECTED PROJECTS CLTS 1 Implementation coach Supply driven 5 Credit 1 Financing Partial subsidy 4 No subsidy 1 0 1 2 3 4 5 number of projects Source: Annex Table K7 www.wsp.org 79 IX. Recommendations This section outlines the key recommendations of the Recommendation 2: The country’s efforts should be fo- study. Many of these recommendations are not new to cused on increasing access to improved sanitation in ru- stakeholders in Lao PDR; however, they are reiterated on ral areas the strength of the findings of the current study. While not directly drawn from the study, it is important to em- As of 2010, only about half of the people living in rural phasize that there is an urgent need to increase access to areas had access to improved sanitation. Open defecation improved sanitation in Lao PDR. This can be seen clearly was also rampant, practiced by about 4 in 10 people in rural from JMP statistics for 2010 which indicate that about 4 areas. If current trends continue, about 2 out 3 people in in 10 people (37%) in the country did not have access to these areas will have access to improved sanitation by 2015. improved sanitation facilities. This is further supported by evidence that the economic costs of poor sanitation are Allocating scarce resources to rural areas is essential for a substantial.36 number of reasons. First, access to improved sanitation in urban areas is already quite high. Second, rural areas are Recommendation 1: The sanitation options made avail- home to nearly 70% of all households in the country. able to the population should focus on affordability Third, the estimates in Section 7 show that the benefit-cost ratios (BCRs) for specific sanitation options in rural areas Accomplishing increased access to improved sanitation were higher than their counterparts in urban areas. This was does not require expensive toilet facilities. This study due to a combination of poorer health (and hence greater found that the highest net returns were for wet and dry capacity to benefit), and because on average, the sanitation pit latrines in rural areas, and wet pit latrines in urban options were less expensive. Fourth, as indicated in Recom- areas. mendation 1, sanitation investment in rural areas does not have to be focused on expensive options. Shared toilets can also provide improved access for fami- lies, compared with the alternative – open defecation. The first two of these reasons suggest that there is little From an economic perspective, shared toilets are also room for improving access to sanitation in urban areas, and economically attractive. In locations where space and that increases in sanitation coverage in rural areas are likely funds are a constraint, these facilities may continue to to have a larger impact at national level. The third reason offer a practical alternative to a private toilet (one toilet is based on the finding that, from a purely economic per- per household). spective, the return on every dollar invested in rural areas 36 Estimates made by Hutton et al. (2009) showed that annual costs of poor sanitation in the country amounted to about US$193 million or 5.6% of GDP in 2006. Since the estimates were based on sanitation coverage rates for 2006, when only 45% of households had access to improved sanitation, it can be asserted that improvements in sanitation coverage through 2010 mean that the economic impacts could already be significantly lower. While this statement may be true, it is still very likely that the costs are quite large. Estimates in Section 5.3 show that the health-related costs associated with the 2010 sanitation coverage rates were 1,312 billion kip (US$157 million). This is still about 2.4% of 2010 GDP and ignores other impacts included in the study by Hutton et al. (2009). 80 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Recommendations is higher than in urban areas. The fourth reason implies finding that only half of the respondents in the survey that, given a constrained national budget, more households claimed to have washed their hands after defecating, this could be provided with access to improved facilities in rural underscores the need for evidence-based behavior change areas than in urban areas. approaches that emphasize the potential benefits that can be realized through improved sanitation. While the results These points do not suggest that investment in urban ar- of this study can feed into such advocacy efforts, further eas should be abandoned altogether. For one thing, 11% of research is needed to understand the demand side of sani- the urban population still does not have access to improved tation. Such research could include studies of household sanitation. However, investment in urban areas may have preferences, motivations and challenges with respect to to go beyond latrines and more into off-site treatment fa- the acquisition of different sanitation options. cilities. These facilities, according to Baetings and O’Leary (2010), are still in short supply even in cities such as Vien- Recommendation 4: Further research and evidence on tiane. However, due to higher average incomes in urban ar- the impact of poor sanitation eas, household as well as private sector investment should be sought before resorting to government budgets. Following the limitations cited in Section 8, there is clear- ly a need for more research in the sanitation sector. These Recommendation 3: The government, donor agencies studies could include: and other institutions will continue to have an integral role in increasing access to improved sanitation. • Generating more specific information on access to sanitation facilities. The current practice involves Information from the World Bank shows that one-third collecting information on the facilities available to of the Lao population lives on less than 1.25 international households. There is no national information on the dollars a day, and two-thirds of the population live on less state of existing facilities ( i.e., whether these facilities than 2 international dollars a day. As the households with are functioning properly, and the actual service levels no access to improved sanitation facilities are likely to be- they provide). There is also very little information long to this segment of the population, the government, on whether the design of such facilities conforms to donor agencies and other institutions will continue to play pre-determined specifications, as might be the case an important role in increasing access to improved sanita- with septic tanks. tion. The role of these institutions could be in funding and • Generating reliable site-specific and age-group-spe- implementing large scale behavior change programs, and cific incidence and mortality rates for sanitation-re- in assisting and/or funding innovative market-based instru- lated diseases such as diarrhea and helminths. Value ments that can facilitate the provision of such facilities to of statistical life estimates for Lao PDR will also en- the poorest populations. hance estimates of the value of premature death as- sociated with poor sanitation. This argument is further supported by the findings from • Establishing rigorous and site-specific or at least the focus group discussions (FGDs) where respondents country-specific quantitative links between sanita- cited economic reason for not having a toilet. However, tion and: (a) disease incidence (attribution factors); some care must be exercised in the manner in which in- (b) tourism; (c) water use and access; (d) water stitutions participate in increasing access to improved quality; (e) environment; and (f ) business activity. sanitation. The FGDs and household survey in the cur- This involves identifying a rigorous methodology rent study found that respondents at all sites cited “never and estimates for establishing the magnitude of the offered a toilet” as a reason for not having such a facility. benefits associated with improved sanitation, and if This response creates the impression that households seem possible, with specific sanitation options. This can to be waiting for an intervention rather than trying to ad- be relevant especially in the case of treatment sys- dress sanitation problems on their own. Along with the tems that are likely to cause an improvement in the www.wsp.org 81 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Recommendations quality of bodies of water and the environment as a whole. The improvements associated with these resources could in turn translate into a clearer un- derstanding of the benefits to tourism and business activities. • Establishing stronger evidence of the performance of projects in actual settings, and the various imple- mentation and financial approaches of such activi- ties. A critical first step in this exercise is the proper recording and compilation of the documents from such projects. This documentation should be lim- ited to project completion reports and also mon- itoring the impact of the project well beyond its completion. • In selecting between the specific options, decision makers must be cognizant of the initial conditions of the target beneficiaries. This understanding is es- sential to increasing the success and sustainability of the option chosen. This is supported by the finding of the study that an option could have divergent ef- ficiency indicators in different sites. For example, the BCRs from shared wet pit latrines were found to be higher than for private wet pit latrines in rural areas. However, the reverse was true for urban ar- eas. From the perspective of project implementers, this highlights the need for pre-project assessment. On the other hand, the government can help project implementers by strengthening information systems at potential project sites. 82 Economic Assessment of Sanitation Interventions References ADB [Asian Development Bank]. 2011. Key Indicators for Asia Esrey. S. A., J. B. Potash. L. Roberts and C. Shiff. 1991. Ef- and the Pacific 2011: Lao People’s Democratic Republic. Down- fects of improved water supply and sanitation on ascariasis, loaded on 17 December 2011 from www.adb.org/statistics. diarrhea, dracunculiasis, hookworm infection, schistosomi- asis, and trachoma. Bulletin of the World Health Organiza- Baetings, E. and D. O’Leary. 2010. Rapid Assessment of tion. 69(5):609-21. Household Sanitation Services: Vientiane, Lao PDR. Water and Sanitation Program, World Bank, December. Evans. B., C. van der Voorden and A. Peal. 2009. Public Funding for Sanitation: The Many Faces of Sanitation Sub- Boardman, A. D. Greenberg, A. Vining and D. Weimer. sidies. Water Supply and Sanitation Collaborative Council, 2006. Cost-Benefit Analysis: Concepts and Practice. 3rd ed., Geneva, Switzerland. Prentice-Hall, New Jersey. Fewtrell. L., R. B. Kaufmann, D. Kay, W. Enanoria, L. Brooker, S., P. Singhasivanon, J. Waikagul, S. Supavej, S. Haller and J. M. Colford. 2005. Water, sanitation, and hy- Kojima, T. Takeuchi, T. Luong and S. Looareesuwan. 2003. giene interventions to reduce diarrhoea in less developed Mapping soil-transmitted helminthes in Southeast Asia and countries: A systematic review and meta-analysis. Lancet implications for parasite control. Southeast Asian Journal of Infectious Diseases. 5(1):42-52. Tropical Medicine and Public Health. 34(1): 24-36. Gerard, P. 2004. Integrating Wetland Ecosystem Values into Colins, J. 2011. Scaling Up Rural Sanitation Project, Piloting Urban Planning: The Case of That Luang March, Vientiane, CLTS in Southern PDR: Lessons and Prospects. Unpublished Lao PDR. The World Conservation Union Asia Regional manuscript. August. Environmental Programme and World Wildlife Fund Lao Country Office, Vientiane. Conlan, J., B. Khamlome, K. Vongxay, A. Elliot, L. Pallant, B. Scripa, S. Blacksell, S. Fenwick and A. Thompson. 2012. Giltner, S., P. Dutton and P. Kouangpalath. 2010. Lao PDR Soil-transmitted helminthiasis in Laos: A community-wide Sanitation and Hygiene Financing Study. Water and Sanita- cross-sectional study of humans and dogs in a mass drug tion Programme, World Bank. administration environment. American Journal of Tropical Medicine and Hygiene. 86(4): 624-634. Gramlich, E. 1998. A Guide to Benefit-Cost Analysis. 2nd edition. Prentice Hall (re-issued by Waveland Press), New Curtis, V., L. Danguah and R. Aunger. 2009. Planned, mo- Jersey. tivated and habitual hygiene behavior: an eleven country review. Health Education Research. 24(4): 655-673. Hortez, P., D. Bundy, K. Beegle, S. Brooker, L. Drake, N. de Silva, A. Montressor, D. Engels, M. Jukes, L. Chitsulo, Esrey, S. A. and J.-E. Habicht. 1986. Epidemiologic evidence J. Chow, R. Laxminarayan, C. Michaud, J. Bethony, R. for health benefits from improved water and sanitation in Correa-Oliviera, X. Shuhua, A. Fenwick and L. Savioli. developing countries. Epidemiology Review. 8:117-28. 2006. Helminth infections: Soil transmitted heminth in- fections and schistosomiasis. Chapter 24 in D. Jamison, J. Esrey, S. A., R. Feachem and J. Hughes. 1985. Interventions Breman, A. Measam and others (editors). Disease Control for the control of diarrheal diseases among young children: Priorities in Development Countries. World Bank, Wash- Improving water supplies and excreta disposal facilities. ington D.C. Bulletin of the World Health Organization. 63(4):757- 772. www.wsp.org 83 Hortez, P., N. de Silva, S. Brooker and J. Bethony. 2003. Lao Statistical Bureau. Undated-b. Population Census 2005. Soil Transmitted Helminth Infections: The Nature, Causes and Downloaded on 24 May 2012 from http://www.nsc.gov.la/ Burden of the Condition. Disease Control Priorities (DCCP) index.php?option=com_content&view=article&id=37:pop Working Paper No. 3, Fogarty International Center, Na- ulation &catid=6&Itemid=38 tional Institute of Health, Maryland. LNTA. 2010. 2009 Statistical Report on Tourism in Laos. Hutton, G., U. Rodriguez, A. Winara, A. Nguyen, S. Lao National Tourism Administration, Vientiane, Lao Heng, P. Kov, L. Chuan, I. Blackett, A. Weitz. 2012. Eco- PDR. nomic assessment of sanitation interventions in Southeast Asia. World Bank, Water and Sanitation Program. Nguyen, V.A., G. Hutton, H.T. Lan, P. Dan, L.T. Hoa and B. T. Nhung. 2012. Economic Assessment of Sanitation Inter- Hutton, G., B. Larsen, L. Leebouapao and S. Voladet. ventions in Vietnam. Water and Sanitation Program, World 2009. Economic Impacts of Sanitation in Lao PDR. Water Bank. and Sanitation Program, World Bank. Pholsena, S., K. Yasui, R. Jogo and M. Fukuda. 2003. Hutton, G., U. Rodriguez, L. Napitupulu, P. Thang and P. Project evaluation method of study on improvement of Kov. 2008. Economic Impacts of Sanitation in Southeast Asia. roads in the southern region of Lao PDR. Journal of the Water and Sanitation Program. World Bank. Eastern Asia Society for Transportation Studies. 5(October): 3000-3014. JMP [Joint Monitoring Programme]. 2008. Progress on Sanitation and Drinking-Water 2008 update. WHO and Prüss A. and S. Mariotti. 2000. Preventing trachoma UNICEF. through environmental sanitation: a review of the evi- dence base. Bulletin of the World Health Organization. JMP. 2010a. Estimates for the Use of Improved Sanitation Fa- 78:258-66. cilities: Lao People’s Democratic Republic. wssinfo.org Rodriguez U., G. Hutton, N. Jamora, D. Harder, J. Ockel- JMP. 2010b. Progress on Sanitation and Drinking-Water ford and E. Galing. 2011. Economic assessment of sanitation 2010 update. WHO and UNICEF. interventions in the Philippines. Water and Sanitation Pro- gram, World Bank. JMP. 2012. Progress on Sanitation and Drinking-Water 2012 update. WHO and UNICEF. UNICEF. 2010. At a Glance: Lao People’s Democratic Re- public. United Nations Children’s Fund. Downloaded 26 Kwon, K. 2005. Financial Feasibility of Composting Market November 2011 from http://www.unicef.org/infobycoun- Waste in Vientiane, Lao PDR. Master’s Thesis, Department try/laopdr_ statistics.html. of Civil Engineering, University of Toronto. Waddington. H, B. Snilstveit, H. White, and L. Fewtrell. Lao Statistical Bureau. Undated-a. Population Census 2005. 2009. Water, Sanitation and Hygiene Interventions to Com- Downloaded on 26 November 2011 from http://www.nsc. bat Childhood Diarrhoea in Developing Countries. The In- gov.la/index.php?option=com_content&view=article&id= ternational Initiative for Impact Evaluation (3ie). Synthetic 18&Itemid= 19&showall=1 Review 001, August. 84 Economic Assessment of Sanitation Interventions WEPA. Undated. State of Water Environment, Water-related Issues and Policies. Water Environment Partnership in Asia. Downloaded 14 March 2012 from http://www.wepa-db. net/policies/state/laos/overview.htm. WHO. 2008. The Global Burden of Disease: 2004 Update. World Health Organization, Geneva. WHO. 2011a. World Health Statistics. World Health Orga- nization, Geneva. WHO. 2011b. World Health Survey: Report of Lao People’s Democratic Republic. Downloaded on 19 December 2011 from http://www.who.int/healthinfo/survey/whsresults/en/ index6.html Winara, A., G. Hutton, Oktarinda, E. Pumomo, K. Hadi- wardoyo, I. Merdykasari, T. Numadi, B. Bruinsma, D. Gunawan, D. Fadilah and M. Albrecht. 2011. Economic assessment of sanitation interventions in Indonesia. Water and Sanitation Program, World Bank. World Bank. 2011a. World Development Indicators: Real in- terest rate (%). Downloaded on 17 December 2011 from http://data.worldbank.org/indicator/FR.INR.RINR. World Bank. 2011b. World Development Indicators: GDP per capita (current US$). Downloaded on 17 December 2011 from http://data.worldbank.org/indicator/ NY.GDP. PCAP.CD. World Bank. 2011c. World Development Indicators: Poverty headcount ratio at $1.25 a day (PPP) (% of population). Downloaded on 17 December 2011 from http://data. worldbank.org/indicator/ SI.POV.2DAY. WTTC. 2011. Travel and Tourism Economic Impact 2011: Laos. World Travel and Tourism Council, London, U.K. www.wsp.org 85 ANNEX A TABLE A1: SANITATION COVERAGE BY REGION, % OF HOUSEHOLDS, 2011 Province Improved toilet Unimproved toilet No toilet (open defecation) NORTH 61.3 5.1 33.6 Phongsaly 34.1 4.1 61.8 Luang Namtha 67.3 0.1 32.6 Oudomxay 44.2 8.9 46.9 Bokeo 69.3 0.2 30.5 Luang Prabang 58.6 2.1 39.3 CENTER 67.8 1.8 30.4 Huaphanh 58.8 12.5 28.7 Sayaboury 89.7 3.5 6.8 Xiengkhuang 54.1 12.6 33.3 Vientiane 88.2 1.7 10.1 Vientiane Capital 97.9 0.7 1.4 Bolikhamxay 84.0 0.4 15.6 Khammuane 42.1 0.9 57.0 SOUTH 34.8 2.0 63.2 Savannakhet 43.0 0.4 56.5 Saravane 22.3 0.2 77.5 Sekong 37.7 10.1 52.1 Champasak 43.2 1.0 55.8 Attapeu 37.2 5.1 57.6 TOTAL 59.2 2.9 37.9 RESIDENCE Urban 91.3 1.0 7.7 Rural 48.2 3.6 48.2 Rural with road 51.2 3.7 45.0 Rural without road 22.5 2.3 75.2 Source: 2011 Lao Social Indicator Survey 86 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE A2: ASSESSMENT OF ADVANTAGES AND LIMITATIONS OF DIFFERENT DESIGN OPTIONS No Design Advantages Limitations DESIGNS INVOLVING FIELD DATA COLLECTION 1 Economic study designed entirely for • Addresses the specific questions of • Expensive and lengthy period research purposes, including matching the research • May not capture health impact and randomization of comparison groups • Highly scientific design • Limited generalisability 2 Economic research attached to other • Captures health impact with degree of • Expensive and lengthy period research studies (e.g. randomized clinical precision • Few ongoing clinic trials trials) • Can conduct additional research on • Requires collaboration from start other impacts • Trials may not reflect real conditions • Add-on research cost is small • Limited comparison options • Statistical analysis possible 3 Economic research attached to pilot • Add-on research cost is small • Few pilot programs available study, with or without randomization • Options are policy relevant • Pilots often not designed with scientific • Matched case-control possible evaluation in mind (e.g. before vs. after • Can start research in mid-pilot surveys) • Pilot conditions not real life • Limited comparison options 4 Economic research attached to routine • Reflects real life conditions (e.g. • No research infrastructure government or NGO/donor programs, uptake and practices) • No scientific design without randomization • Research addresses key policy • Limited comparison options questions • Matched case-control possible DESIGNS INVOLVING SECONDARY DATA COLLECTION 5 Collection of data from a variety of local • Relatively low cost • Results imprecise and uncertain sources to conduct a modeling study • Short time frame feasible • Actual real-life implementation issues • Can compare several options and not addressed settings in research model • Can mix locally available and non-local data 6 Extraction of results from previous • Low cost • Limited relevance and results not economic studies • Results available rapidly trusted by policy makers • Gives overview from various • Published results themselves may not interventions and settings be precise www.wsp.org 87 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE A3: DISEASES LINKED TO POOR SANITATION AND HYGIENE, AND PRIMARY TRANSMISSION ROUTES AND VEHICLES Primary transmission Disease Pathogen Vehicle route DIARRHEAL DISEASES (GASTROINTESTINAL TRACT INFECTIONS) Rotavirus diarrhea Virus Fecal-oral Water, person-to-person Typhoid/paratyphoid Bacterium Fecal-oral and urine-oral Food, water + person-person Vibrio cholera Bacterium Fecal-oral Water, food Escherichia Coli Bacterium Fecal-oral Food, water + person-person Amebiasis (amebic dysentery) Protozoa 1 Fecal-oral Person-person, food, water, animal feces Giardiasis Protozoa 1 Fecal-oral Person-person, water (animals) Salmonellosis Bacterium Fecal-oral Food Shigellosis Bacterium Fecal-oral Person-person + food, water Campylobacter Enteritis Bacterium Fecal-oral Food, animal feces Helicobacter pylori Bacterium Fecal-oral Person-person + food, water Protozoa Other viruses 2 Virus Fecal-oral Person-person, food, water Malnutrition Caused by diarrheal disease and helminthes HELMINTHES (WORMS) Intestinal nematodes 3 Roundworm Fecal-oral Person-person + soil, raw fish Digenetic trematodes (e.g. Flukes (parasite) Fecal/urine-oral; fecal-skin Water and soil (snails) Schistosomiasis Japonicum) Cestodes Tapeworm Fecal-oral Person-person + raw fish EYE DISEASES Trachoma Bacterium Fecal-eye Person-person, via flies, fomites, coughing 1 Adenoviruses (conjunctivitis) Protozoa Fecal-eye Person-person SKIN DISEASES Ringworm (Tinea) Fungus (Ectoparasite) Touch Person-person Scabies Fungus (Ectoparasite) Touch Person-person, sharing bed and clothing OTHER DISEASES Person-person, food (especially shellfish), Hepatitis A Virus Fecal-oral water Hepatitis E Virus Fecal-oral Water Poliomyelitis Virus Fecal-oral, oral-oral Person-person Leptospirosis Bacterium Animal urine-oral Water and soil - swamps, rice fields, mud Sources: WHO http://www.who.int/water_sanitation_health/en/ and [75, 76] 1 2 3 There are several other protozoa-based causes Other viruses include: Intestinal nematodes include: of GIT, including • Adenovirus – respiratory and • Ascariasis (roundworm - soil) • Balantidium coli – dysentery, intestinal gastrointestinal infections • Trichuriasis trichiura (whipworm) ulcers • Astrovirus – gastrointestinal infections • Ancylostoma duodenale/Necator americanus • Cryptosporidium parvum - gastrointestinal • Calicivirus – gastrointestinal infections (hookworm) infections • Norwalk viruses – gastrointestinal infections • Cyclospora cayetanensis - gastrointestinal • Reovirus – respiratory and gastrointestinal infections infections • Dientamoeba fragilis – mild diarrhea • Isospora belli/hominus – intestinal parasites, gastrointestinal infections 88 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE A4: WATER QUALITY MEASUREMENT PARAMETERS PER LOCATION, AND TEST METHOD Number of samples taken Parameter Unit Location Canal, drain, Sewage draining to Well Tap river, pond water/river Thermotolorant coliforms/E-coli (TTC) cfu/100 ml Laboratory 54 6 30 - Biological Oxygen Demand (BOD5) mg/L Laboratory 45 6 - - Chemical Oxygen Demand (COD) mg/L Laboratory 54 6 - - Dissolved Oxygen (DO) mg/L Laboratory 54 6 - - Nitrate (NO3) mg/L Laboratory 54 - 12 - Ammonia (NH4) mg/L Laboratory 54 6 30 - Conductivity (μS/cm) μS/cm Laboratory 54 6 30 - Turbidity (NTU) NTU Laboratory 54 6 30 - pH - value Laboratory 54 6 - - Residual chlorine mg/L Laboratory - - - 12 Temperature Celsius Field 54 6 30 6 www.wsp.org 89 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE A5. KEY FORMULAS, VARIABLES AND DATA SOURCES FOR CALCULATING MONETIZED BENEFITS Impacts included Variable Data sources 1. HEALTH (All calculations are made using disaggregated data inputs on disease and age grouping: 0-4 years, 5-14 years, 15+ years) Diarrheal disease incidence (0-4 years) WHO statistics Diarrheal disease incidence (over 5 years) Helminthes prevalence Global review Indirect diseases incidence (malaria, ALRI) WHO statistics 1.1 Health care savings Malnutrition prevalence UNICEF/WHO statistics Calculation: [Prevalence or incidence X Attribution Attribution of fecal-oral diseases to poor WHO. Value = 88% to poor sanitation X ((% seeking sanitation outpatient care X visits per case X unit Attribution of helminthes to poor sanitation Global review. Value = 100% cost per visit (medical and patient)) + (Inpatient admission rate X days per % disease cases seeking health care case X unit cost per day (medical and Outpatient visits per patient patient))] X Proportion of disease cases averted Inpatient admission rate ESI household survey Inpatient days per admission Health service unit costs Other patient costs (transport, food) % disease cases averted International literature review 1.2 Health morbidity-related Days off productive activities ESI household survey productivity gains Basis of time value: GDP per capita National economic data Calculation: [Prevalence X Attribution to poor World Bank data sanitation X Days off productive activities X Value of time] X Proportion Average product per capita (at sub-national of disease cases averted level, where available) - 30% for adults, 15% for children Mortality rate (all diseases) WHO statistics Basis of time value: GDP per capita National economic data 1.3 Premature mortality savings World Bank data Calculation: Annual value of lost production of working [Mortality rate X Attribution to poor adults (human capital approach), from the time sanitation X Value of life] X Proportion of death until the end of (what would have been) of disease cases averted their product life. Discount rate for future earnings Government cost of capital estimate (8%) Long-term economic growth Assumption Value-of-statistical-life Meta-analyses from developed country studies 1.4 Disability-adjusted life-years (DALY) Duration of disability ESI household survey averted Disability weighting WHO burden of disease project Calculation: Healthy life expectancy WHO statistics DALY = YLD+YLL YLD: discounted disability based on Discount rate for future disease burdens Literature search (12%) weight and years equivalent time Morbidity and mortality rates Various: see 1.1 and 1.3 (above) YLL: discounted future years of healthy life lost 90 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE A5. KEY FORMULAS, VARIABLES AND DATA SOURCES FOR CALCULATING MONETIZED BENEFITS (CONTINUED) Impacts included Variable Data sources 2. WATER (for household use) (weighted average costs were estimated for each water source and for each household water treatment method) Drinking water sources (%) in wet and dry seasons 2.1 Household water access savings Annual financial cost per household, per ESI household survey water source Calculation: Annual costs X % costs reduced, per Annual non-financial cost per household, water source per water source Proportion of access cost reduction under ESI household survey; assumption scenario of 100% improved sanitation, per water source Proportion of households treating their water, by method 2.2 Household water treatment savings ESI household survey Full annual cost per water treatment Calculation: method (% households treating water per Proportion of households currently treating ESI household survey; assumption: as well as method X annual cost) X % households who stop treating under scenario of 100% stopping treatment, households may switch to who stop treating improved sanitation an alternative – cheaper – treatment method if the cleaner water sources enable different water purification methods 3. ACCESS TIME SAVINGS (weighted average costs estimated for each age category and gender – young children, children and male and female adults) Household composition (demographics) Sanitation practice, by age group Average round trip time to access site of ESI household survey open defecation Calculation: Average number of round trips to % household members using OD X defecation site per day Time saved per trip due to private toilet X average trips per day X value of time Basis of time value: GDP per capita National economic data World Bank data Average product per capita (at sub-national level, where available) – 30% for adults, 15% for children www.wsp.org 91 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE A6: HOUSEHOLDS SAMPLED VERSUS TOTAL HOUSEHOLDS PER VILLAGE/COMMUNITY Improved Unimproved Item Septic Shared Shared Shared Total Dry pit Wet pit Others OD tanks wet pit septic tank others Numbers of households ACTUAL SAMPLE Site 1 - 72 84 16 7 11 4 - 194 Site 2 - 67 48 - 36 7 1 33 192 Site 3 30 65 1 - 11 1 2 102 212 Site 4 71 72 4 - - - - 50 197 Site 5 - 97 43 2 5 1 - 37 185 Site 6 - 108 - - 8 1 - 114 231 Total 101 481 180 18 67 21 7 336 1,211 PLANNED SAMPLE Site 1 - 101 99 - - - - - 200 Site 2 - 64 49 - 40 - 47 200 Site 3 31 66 - - 10 - 93 200 Site 4 80 80 - - - - - 40 200 Site 5 30 70 60 - - - - 40 200 Site 6 30 80 50 - - - - 40 200 TABLE A7: SAMPLE SIZES OF OTHER SURVEYS AT STUDY SITES Focus Group Discussion Water Quality Measurement Site No. of Canal, drain, Sewage draining to Male Female Well Tap sessions river, pond water body/river 1 (urban) 2 6 8 6 8 6 6 2 (rural) 3 6 13 6 6 6 - 3 (rural) 4 12 13 8 - 6 - 4 (rural) 4 12 15 8 - 6 - 5 (urban) 4 14 17 6 6 6 6 6 (rural) 4 17 13 8 - 6 - All sites 21 67 79 42 20 36 12 92 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables ANNEX B TABLE B1: HEALTH RATES FOR DISEASES, BY SITE, VALUES PER 1,000 PEOPLE Average rural sites Average urban sites Site 1 Site 2 Site 3 Site 4 Site 5 Site 6 Number of cases per 1,000 people (all age groups) DIRECT DISEASES Diarrhea 719.6 433.7 402.5 686.8 820.6 708.5 466.4 663.6 Helminths 655.5 593.0 578.9 627.7 686.9 654.9 607.7 650.5 Number of cases per 1,000 people (Under the age of 5 years) DIRECT DISEASES Diarrhea 4,143.4 3,074.2 3,074.2 4,143.4 4,143.4 4,143.4 3,074.2 4,143.4 Helminths 1,000.0 1,000.0 1,000.0 1,000.0 1,000.0 1,000.0 1,000.0 1,000.0 INDIRECT DISEASES Malnutrition 316.0 316.0 316.0 316.0 316.0 316.0 316.0 316.0 Malaria 4.4 4.4 4.4 4.4 4.4 4.4 4.4 4.4 ALRI 84.8 84.8 84.8 84.8 84.8 84.8 84.8 84.8 Total (under 5s) 5,548.7 4,479.4 4,479.4 5,548.7 5,548.7 5,548.7 4,479.4 5,548.7 Number of deaths per 1,000 people (All age groups) DIRECT DISEASES Diarrhea 0.5 0.4 0.3 0.4 0.5 0.4 0.4 0.4 Helminths 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 Number of deaths per 1,000 people (Under the age of 5 years) DIRECT DISEASES Diarrhea 3.6 3.6 3.6 3.6 3.6 3.6 3.6 3.6 Helminths 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 INDIRECT DISEASES Malnutrition 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 Malaria 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 ALRI 1.6 1.6 1.6 1.6 1.6 1.6 1.6 1.6 Measles 1.6 1.6 1.6 1.6 1.6 1.6 1.6 1.6 Total (under 5s) 7.7 7.7 7.7 7.7 7.7 7.7 7.7 7.7 Disability Life Years per 1,000 people (DALYs): All age groups DIRECT DISEASES Diarrhea 11.0 3.5 3.2 4.6 30.1 4.7 3.9 4.2 Helminths 4.0 3.6 3.5 3.8 4.2 4.0 3.7 3.9 Disability Life Years per 1,000 people (DALYs): Under the age of 5 years DIRECT DISEASES Diarrhea 36.0 34.5 34.5 36.0 36.0 36.0 34.5 36.0 Helminths 6.3 6.3 6.3 6.3 6.3 6.3 6.3 6.3 INDIRECT DISEASES Malnutrition 3.2 3.2 3.2 3.2 3.2 3.2 3.2 3.2 Malaria 4.3 4.3 4.3 4.3 4.3 4.3 4.3 4.3 ALRI 13.8 13.8 13.8 13.8 13.8 13.8 13.8 13.8 Measles 12.9 12.9 12.9 12.9 12.9 12.9 12.9 12.9 Total (under 5s) 76.5 74.9 74.9 76.5 76.5 76.5 74.9 76.5 www.wsp.org 93 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE B2: COMPARISON OF DATA SOURCES FOR SELECTED DISEASES Cases/1,000 people Disease Age Data Source Rural Urban ESI Survey 25.9 20.8 WHO (World Health Survey 2011) 468.00 284.00 Under 5 WHO (2005) 3,801.3 3,801.3 WHO rates (used in ESI Impacts study) 2,012.4 1,154.4 Diarrhea ESI Survey 10.1 26.90 Age 5-14 WHO (2005) 520.0 520.0 ESI Survey 31.60 15.9 Age 15+ WHO (2005) 260.00 260.00 Under 5 1,000.00 1,000.00 Brooker et al. (2003), Conlan et al. (2012), Helminths Age 5-14 1,000.00 1,000.00 Hortez et al. (2006 and 2003) Age 15+ 477.4 477.4 Malnutrition Underweight Under 5 WHO (World Health Statistics 2011) 316.0 316.0 Stunted Under 5 WHO (World Health Statistics 2011) 476.0 476.0 Under 5 ESI Survey 2.5 80.0 Malaria Under 5 Larsen (2007) 4.4 4.4 Age 15+ FHSIS Under 5 Larsen (2007) 84.8 84.8 ALRI World Health Survey (2011) 536.00 568.00 94 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE B3: EVIDENCE ON TREATMENT-SEEKING BEHAVIOR FOR OTHER DISEASES % seeking treatment from Data source by disease, No treatment Observations Other formal Private Self- rural/urban and year Hospitals Pharmacy (%) facilities informal care treatment DIARRHEA WHO (0-4 years) Urban na 92.9 7.1 na na - Rural na 51.3 45.7 na na 9.6 National na 59.9 37.8 na na 7.8 ESI Impacts study (2005, national) 0-4 years na 37.5 21.3 21.3 na 28.8 5-14 years na 26.3 15.0 15.0 50.0 15 and over na 21.1 12.0 12.0 60.0 ESI Sites (2009, urban) all age groups 13 46.2 53.8 - - 30.8 - ESI Sites (2009, rural) all age groups 41 29.3 29.3 2.4 - 36.6 29.3 SYMPTOMS OF ALRI WHO (0-4 years) Urban na 34.8 22.0 41.0 na na 10.9 Rural na 38.1 24.0 36.1 na na 9.7 National na - - - na na - ESI Sites (2009, urban) all age groups 5 80.0 - - - 20.0 20.0 ESI Sites (2009, rural) all age groups 23 56.5 34.8 - - 26.1 4.3 ESI Sites (2009, all sites) all age groups 28 60.7 28.6 - - 25.0 7.1 MALARIA ESI Sites (2009, urban) all age groups 18 66.7 16.7 - - 5.6 16.7 ESI Sites (2009, rural) all age groups 67 74.6 16.4 - - 40.3 6.0 ESI Sites (2009, all sites) all age groups 85 72.9 16.5 - - 32.9 8.2 www.wsp.org 95 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE B4: UNIT COSTS ASSOCIATED WITH TREATMENT OF DISEASES Rural (thousand kip) Urban (thousand kip) Health provider a Health care Incidentals Health care Incidentalsa Diarrhea Hospitals (out-patient) 161.7 161.1 132.3 80.6 Hospitals (in-patient)b 211.7 161.1 169.5 80.6 Other formal care 170.0 82.8 139.0 6.3 Informal care 100.0 - 100.0 - Self-treatment 11.4 - - - Helminths Hospitals (out-patient) 132.7 161.1 78.3 80.6 b Hospitals (in-patient) - - - - Other formal care 23.9 82.8 18.8 6.3 Informal care 100.0 - 100.0 - Self-treatment 11.4 - - - ALRI Hospitals (out-patient) 300.0 161.1 1,575.0 80.6 b Hospitals (in-patient) 212.5 - - - Other formal care 160.2 - (37.0) - Informal care - - - - Self-treatment 100.0 - 100.0 - Malaria Hospitals (out-patient) 1,088.5 161.1 2,333.3 80.6 Hospitals (in-patient) b 214.4 - 135.0 - Other formal care 89.4 - 10.0 - Informal care 100.0 - 100.0 - Self-treatment 105.6 - 105.6 - a Incidentals only represent transport costs; b Hospital in-patient care represents costs of the entire duration of stay in the facility. 96 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables ANNEX C TABLE C1: FULL WATER QUALITY MEASUREMENT RESULTS (cfu/ BODs COD DO NO3 NH4 Conduc- Tur- Residual Tempe- Source description pH Uses 100ml) (mg/l) (mg/l) (mg/l) (mg/l) (mg/l) tivity bidity Chlorine rature Brown water and mix up >23 7.5 189.8 2.6 0.4 10 602 11 7.7 - 31 NI with gray Gray water in the open >23 37.4 184.1 2.7 0.5 8 610 13 7.4 - 33 NI drain Gray water flow into >23 19.7 197.4 1.7 0.3 6 689 16 7.7 - 31 NI community Gray water in drain >23 10.7 186 1.4 0.6 4 579 13 7.6 - 31 NI Brown and gray water >23 12.2 60.8 3.5 1 3 451 20 7.1 - 31 NI collected Gray water collected >23 13.8 56.2 2.7 2.7 0.8 390 10 7.7 - 36 NI Open drain and gray >23 42.1 205.2 1.5 1.9 0.6 520 15 7.8 - 30 NI water Gray water in community >23 36.9 235.4 1.3 2.1 2 890 16 7.6 - 31 NI drainage Gray water in open drain >23 12.7 216.3 1.1 3.7 0.6 521 11 7.3 - 31 NI Gray water collected >23 3.2 182.2 1.9 0.9 1 493 2 7.8 - 36.2 NI from open drain Gray water in open drain >23 44.2 260.1 2.4 1.1 0.4 151 20 7.1 - 32 NI Tap water inside the - - - - - - - - - 0.1 B house Tap water inside the - - - - - - - - - 0.05 BC house Tap water - - - - - - - - - 0.04 31,5 B Tap water inside the - - - - - - - - - 0.05 B house Tap water outside the - - - - - - - - - 0.05 BC house Tap water - - - - - - - - - 0.06 31 B Canal water after village 0 4.4 16 8.9 <0.25 0.1 89 23 6.9 - 41 I Irrigation canal water at 2.2 18.7 20 9.1 <0.25 0.3 96 9 7 - 40,5 I the end of downstream village A fish pond close to the 5.1 12.5 22 8.6 0.8 0.2 96 46 6.8 - 36 F house in the village Gray water from 2.2 19.8 50 4.3 0.9 0.3 303 47 7.1 - 39 NI household use close to the well Water collection in the 16 10.8 16 8.9 <0.25 0.4 93 42 7 - 36,8 NI middle of village A pond in the village 0 15.8 34 6 0.3 0.5 180 10 7.4 - 36 F Water collection 0 9.9 4 8.2 0.7 0.2 114 49 7.1 - 36,5 I upstream A pond close to village 5.1 9.9 12 12.1 0.7 0.3 118 20 7.1 - 40 CB Drain water 2.2 8.6 10 6.7 <0.25 0.4 271 53 8.1 - 40,8 NI A pond in the village 0 10.1 10 7.1 <0.25 0.2 316 6 7.4 - 37,2 F www.wsp.org 97 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE C1: FULL WATER QUALITY MEASUREMENT RESULTS (CONTINUED) (cfu/ BODs COD DO NO3 NH4 Conduc- Tur- Residual Tempe- Source description pH Uses 100ml) (mg/l) (mg/l) (mg/l) (mg/l) (mg/l) tivity bidity Chlorine rature A small pool by the road 5.1 10.5 12.2 8.2 0.4 0.3 127 23 7.2 - 40 F A bore hole with electrical 0 - - - - 0.1 691 0 - - 30 CB A protected dug well 0 - - - - 0.2 101 9 - - 28 CB A protected dug well with >23 - - - - 0.1 53 4 - - 31 CBD cover A protected dug well with 9.2 - - - - 0.1 68 31 - - 30 CB roofing A protected dug well with 9.2 - - - - 0.3 121 1 - - 28 CBD concrete rings and cover Private bore hole used 0 - - - - 0.3 858 0 - - 32 CB for bathing Fish pond 5.1 1.6 15.2 1 5.1 0.5 329 11 6.9 - 28 F Canal water >23 4.3 14.8 1.9 55.1 0.6 315 26 6.9 - 27 I Middle of stream 16 6.8 15.8 1.2 0.4 0.6 342 215 8.1 - 28 G Drain >23 16.6 225.9 1.3 5.2 2.5 395 1820 7.6 - 34 NI Upstream water 16 6.6 144.3 14.2 2.4 0.2 311 8 8.3 - 28 CB Downstream river >23 3.2 157.6 16 3.4 0.4 274 336 8.3 - 28 G Drain >23 32.3 265.8 3.3 1.8 0.5 1372 354 7.3 - 32 NI Fish Pond >23 11.1 166 4.1 3.8 1 275 3900 7.5 - 31 F Protected dug well 9.2 - - - 5 0.4 328 3 - - 29 CD Well >23 - - - 50.1 0.5 317 6 - - 27 CBD Middle stream well 16 - - - 0.4 0.5 341 2 - - 28 CD Protected dug well 5.1 - - - 3.2 0.4 587 3 - - 29 CB Protected dug well 9.2 - - - 5.4 0.6 373 0 - - 29 CBD Upstream well 0 - - - 1.2 0.5 363 0 - - 28,2 G Small pond with lotus >23 0.8 15.2 4.4 0.6 0.1 241 42 7.2 - 28 F Small river upstream from >23 1.3 15.2 5.1 0.7 0.2 181 34 7.7 - 29 B village Small stream >23 6.9 18.9 5 1.1 0.05 213 68 7.2 - 27 NI River upstream >23 0.4 15.2 4.7 1.8 0.08 320 28 7.6 - 31 B Fish pond >23 4.2 15.2 5.4 0.5 0.17 132 62 7.2 - 29 F River down stream >23 0.9 3.8 5.1 1.6 0.29 178 45 7.6 - 30.5 BG River center of village >23 2.9 3.8 7.3 1.4 0.14 185 41 7.8 - 31 B River down stream >23 2.9 7.6 5.5 1.2 0.12 181 40 8 - 31.5 BCG Communal tap >23 - - - - 0.23 335 2 - - 28.5 BCD Communal tap only water >23 - - - - 0.13 366 3 - - 28 CD in the morning Communal tap >23 - - - - 0.13 391 8 - - 29 BCD Communal tap >23 - - - - 0.19 389 20 - - 28 BCD Private water connection >23 - - - - 0.11 420 2 - - 28.5 BCD Communal tap >23 - - - - 0.14 429 0.6 - - 28 BCD River center of village >23 0.7 9.5 12 1 0.2 304 7 8.1 - 28.2 G Fish pond >23 4.2 55 11 1.6 0.2 696 95 7.8 - 28 F Pond end of village >23 0.6 22 11 0.5 0.26 328 12 7.7 - 30 F 98 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE C1: FULL WATER QUALITY MEASUREMENT RESULTS (CONTINUED) (cfu/ BODs COD DO NO3 NH4 Conduc- Tur- Residual Tempe- Source description pH Uses 100ml) (mg/l) (mg/l) (mg/l) (mg/l) (mg/l) tivity bidity Chlorine rature River upstream >23 3.5 13.3 14 1.1 0.15 299 4 8.1 - 28 G Nan river >23 10.7 41 12 1.2 0.17 297 27 8.2 - 27 BG Nan river >23 6.9 18.2 14 1.4 0.16 312 30 8 - 27 BG Large stream through >23 25.8 24.7 12 - 3.5 609 55 7.3 - 28 G village Drain through village >23 50.8 55 12 - 3 792 90 7.5 - 29.2 NI Drain under road >23 34.3 26.6 13 - 0.4 645 135 7.1 - 29 NI Stream/drain from paddy >23 7 3.8 14 - 0.16 309 9 8 - 29 NI Drain >23 58.8 41.8 12 - 3.6 658 51 7.4 - 29 NI Drain at center of village >23 27.1 30.4 10 - 0.2 1001 34 7.5 - 29 NI stream well >23 - - - - 0.18 447 1.8 - - 28 D Well >23 - - - - 0.12 576 0.8 - - 28 B Well >23 - - - - 0.2 382 0.7 - - 29 CD Well 16 - - - - 0.14 590 0.9 - - 27.5 D Well >23 - - - - 0.21 791 8.6 - - 29 B Well >23 - - - - 0.22 450 0.4 - - 29.5 BCD Tap - - - - - - - - - 0.05 - BCD Tap - - - - - - - - - 0.10 - BCD Tap - - - - - - - - - 0.40 - BC Tap - - - - - - - - - 0.60 - BC Tap - - - - - - - - - 0.80 - BCD Tap - - - - - - - - - 0.70 - BCD Natural pond >23 - 1044 1.19 1.1 4.4 130 1120 6.5 - 30 NP Natural pond >23 - 76 1.8 3.9 4.8 217 939 7.3 - 36 NP Fish pond >23 - 104 1.76 3.4 3.4 227 1600 7.1 - 32 F Fish pond >23 - 57 1.59 7.4 3 766 2540 6.9 - 33 F Fish pond >23 - 104 2.06 3.6 2.6 186 1720 7.1 - 33 F Canal >23 - 104 2.52 0.9 2.2 917 49 7.2 - 30 NI Fish pond >23 - 133 3.52 1 1 1188 284 7.3 - 30 F River >23 - 76 7.92 0.6 0.27 1578 14 7.9 - 32 BD Fish pond >23 - 95 6.37 0.06 0.15 300 67 7.3 - 29 F Well >23 - - - 0.5 0.17 90.1 9 - - 29 BCD Well 0 - - - 0.5 0.4 55.7 13 - - 32 D Well >23 - - - 73.6 0.6 1302 8 - - 29 BCD Well >23 - - - 55.1 2 1320 2 - - 29 BD Well 16 - - - 27.3 0.5 892 0 - - 28 CB Well 0 - - - 3.5 0.4 124.1 20 - - 30 CBD Source Type: A = canal, drain, river, pond; B = sewage draining to water/river; C = well; D = Tap Uses : C = Cooking, B = bathing, D = drinking, F = fish source, I = irrigation, G = water for gardening, NI = not indicated, NP = natural pond Location code: HT = Hatsady Tai, HN = Hatsady Neua, K = Khoknoy, LN = Lao Nat, N = Nasala, NF = Na Fai, NI = Nong Ing, NNN = Nam Nga North to bridge, NP = Napapai, P = Pakchan, PC = Phon Chaleun, PN = Phonkham Neua, PS = Phon Sai, PT = Phonkham Tai, S = Sailom, SMK = Si Moung Khoun, T = Thongloum, - .. not available or not tested www.wsp.org 99 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE C2: WATER ACCESS AND TREATMENT PRACTICES AND RELATED COST PER SITE Water source Item Site 1 Site 2 Site 3 Site 4 Site 5 Site 6 Rural Urban All sites Piped water % Access 11.1 - 0.5 4.1 27.4 16.6 5.6 19.0 9.9 a Costs 60.7 - 7.4 34.1 112.4 32.7 18.9 85.7 40.0 % Access cost - na 100.0 100.0 57.5 55.0 83.9 27.9 66.2 Non-piped protected Bottled water % Access 82.3 85.1 7.1 22.3 37.6 17.9 31.9 60.7 41.0 Costs 548.1 456.8 35.8 110.3 218.4 115.9 174.0 388.4 241.6 % Access cost - - - - - - - - - Others % Access 6.6 13.8 23.4 68.3 17.7 47.3 38.3 12.0 30.0 Costs (thousand kip) 43.6 35.1 197.5 468.8 90.8 222.6 230.5 66.4 178.7 % Access cost - 28.4 99.9 94.8 98.4 90.9 79.5 47.7 69.4 Unprotected % Access - 1.1 69.0 5.3 17.2 18.2 24.1 8.3 19.1 Costs - 0.0 627.2 60.2 88.7 45.7 186.4 43.0 141.2 % Access cost na 100.0 94.4 100.0 100.0 100.0 98.6 100.0 99.0 All sources % Access 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 Costs 652.4 491.9 867.8 673.4 510.2 416.8 609.9 583.5 601.6 % Access cost - 2.0 91.8 80.0 47.6 63.8 60.3 23.0 48.5 a Costs are in thousand kip per household per year TABLE C3: HOUSEHOLDS CITING POOR WATER QUALITY BY SITE, % OF WATER USERS PER OPTION Site Summary Water source Characteristic Site 1 Site 2 Site 3 Site 4 Site 5 Site 6 Rural Urban All Piped water (treated) Bad appearance 6.5 7.1 4.3 3.9 11.4 13.6 7.4 9.0 5.8 Bad smell 12.4 11.2 16.4 9.9 7.6 6.5 10.9 10.0 9.7 Bad taste 1.8 11.6 20.7 6.2 14.4 3.7 10.4 8.2 9.5 With sediment 3.6 12.3 4.3 7.7 8.4 4.3 7.0 6.0 6.2 Non-piped protected Bad appearance - 35.7 24.3 51.4 11.4 21.6 32.7 5.8 20.4 source (including Bad smell 20.0 20.4 13.2 26.8 15.2 1.6 14.9 17.6 16.1 untreated piped) Bad taste - 20.2 11.8 23.1 1.7 3.8 14.2 0.9 9.4 With sediment - 22.9 19.5 42.7 15.6 1.1 20.7 7.9 16.8 Non-protected Bad appearance - 11.5 34.6 65.0 18.4 23.9 33.5 9.3 21.3 sources Bad smell - 5.8 28.7 44.9 12.3 4.5 20.5 6.2 15.1 Bad taste - 5.8 24.4 39.9 9.2 - 17.0 4.7 13.0 With sediment - 5.8 30.8 65.0 12.3 - 24.5 6.2 18.5 100 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE C4: CITED REASONS FOR USING WATER SOURCES BY SITE,% OF WATER USERS FOR EACH OPTION Water source Reason Rural Urban All Site 1 Site 2 Site 3 Site 4 Site 5 Site 6 Piped water (treated) Quality 89.2 83.9 87.6 89.3 98.7 95.7 88.7 78.6 75.6 Quantity 58.7 62.0 59.7 63.9 71.6 62.1 51.5 60.2 51.0 Cost 78.6 79.8 79.0 71.6 75.3 82.8 80.6 87.7 75.8 No alternative 66.3 41.9 58.8 13.0 68.6 61.4 51.7 70.2 81.4 Non-piped protected Quality 76.9 85.7 79.6 100.0 66.5 78.5 67.4 71.7 92.4 source Quantity 44.2 86.1 57.1 100.0 41.1 43.7 46.0 72.6 45.6 Cost 84.3 87.8 85.4 100.0 87.2 75.0 94.9 75.9 81.1 No alternative 76.6 45.0 66.9 0.0 76.9 72.9 85.3 89.0 72.4 Non-piped Quality 74.5 14.1 56.0 0.0 100.0 64.5 44.9 27.9 87.5 unprotected source Quantity 40.4 21.9 34.7 0.0 47.1 32.9 35.0 43.3 46.4 Cost 72.0 28.7 58.7 0.0 58.6 73.7 70.0 56.7 83.3 No alternative 85.8 45.9 73.5 0.0 58.6 96.5 100.0 90.8 86.8 www.wsp.org 101 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE C5: TREATMENT PRACTICES BY SITE Water source Site 1 Site 2 Site 3 Site 4 Site 5 Site 6 Rural Urban All sites NUMBER OF HOUSEHOLDS USING Piped sources 21 0 1 8 49 38 47 70 117 Non-piped protected source 171 187 65 180 103 150 582 274 856 Non-piped unprotected source 0 5 142 8 32 40 195 32 227 Total 192 192 208 196 184 228 824 376 1200 PERCENTAGE OF HOUSEHOLDS USING THE SOURCE Piped water sources Households treating water 76.2 na 100.0 87.5 93.9 18.4 31.9 88.6 65.8 Boiling 52.4 na 100.0 87.5 93.9 18.4 31.9 81.4 61.5 Chlorine 4.8 na - - - - - 1.4 0.9 Filter (mechanical) 23.8 na - - - - - 7.1 4.3 Filter (home-made) 4.8 na - - - - - 1.4 0.9 Stand & Settle 4.8 na - - - - - 1.4 0.9 Other - na - - 6.1 2.6 2.1 4.3 3.4 Non-piped protected sources Households treating water 31.0 28.3 40.0 77.2 40.8 34.0 46.2 34.7 42.5 Boiling 18.1 15.0 33.8 73.9 35.0 22.0 37.1 24.5 33.1 Chlorine - - - - - - - - - Filter (mechanical) 6.4 1.1 - 0.6 - 2.0 1.0 4.0 2.0 Filter (home-made) 1.2 - 1.5 1.7 - 6.0 2.2 0.7 1.8 Stand & Settle 1.2 - 7.7 - - - 0.9 0.7 0.8 Other 0.6 1.1 1.5 2.2 3.9 2.0 1.7 1.8 1.8 Non-piped unprotected sources Households treating water na 80.0 51.4 87.5 100.0 45.0 52.3 100.0 59.0 Boiling na 60.0 41.5 87.5 100.0 37.5 43.1 100.0 51.1 Chlorine na - - - - - - - - Filter (mechanical) na - - - - - - - - Filter (home-made) na - 0.7 - - - 0.5 - 0.4 Stand & Settle na - 5.6 - - - 4.1 - 3.5 Other na - 0.7 - - - 0.5 - 0.4 Average for all sources Households treating water 35.9 29.7 48.1 78.1 65.2 33.3 46.8 50.3 47.9 Boiling 21.9 16.1 39.4 75.0 62.0 24.1 38.2 41.5 39.3 Chlorine 0.5 - - - - - - 0.3 0.1 Filter (mechanical) 8.3 1.0 - 0.5 - 1.3 0.7 4.3 1.8 Filter (home-made) 1.6 - 1.0 1.5 - 3.9 1.7 0.8 1.4 Stand & Settle 1.6 - 6.3 - - - 1.6 0.8 1.3 Other 0.5 1.0 1.0 2.0 3.8 1.8 1.5 2.1 1.7 102 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE C6: WATER ACCESS AND HOUSEHOLD TREATMENT COSTS AVERTED, THOUSAND KIP Annual average cost saved per household Annual average cost per household following 100% sanitation coverage Site Water source Water Water source Water Total Total access treatment access treatment 1 (urban) 652.4 165.8 818.2 8.1 1.7 9.8 2 (rural) 491.9 84.8 576.8 0.5 3.1 3.6 3 (rural) 867.8 147.3 1,015.1 7.8 17.6 25.4 4 (rural) 673.4 831.5 1,504.9 90.4 152.0 242.4 5 (urban) 510.2 275.4 785.6 5.9 58.6 64.5 6 (rural) 416.8 83.0 499.8 11.7 4.6 16.3 Average rural 610.5 277.3 887.9 26.7 42.5 69.2 Average urban 592.8 211.7 804.5 7.2 25.6 32.7 Average all 605.5 258.8 864.3 21.2 37.7 58.9 households www.wsp.org 103 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables ANNEX D TABLE D1: PLACE OF DEFECATION OF HOUSEHOLDS WITH NO “OWN” TOILET Adult Children (aged 5-14 years) Neighbor Own plot Outside Neighbor Own plot Outside N N (%) (%) plot (%) (%) (%) plot (%) 1 (urban) 16 100.0 - - 5 100.0 - - 2 (rural) 151 35.1 - 64.9 55 32.7 9.1 58.2 3 (rural) 340 4.7 3.5 91.8 169 6.5 10.1 83.4 4 (rural) 141 - 2.8 97.2 90 - - 100.0 5 (urban) 121 6.6 5.0 88.4 39 5.1 7.7 87.2 6 (rural) 298 - 1.7 98.3 136 - 12.5 87.5 Summary Rural 930 7.4 2.3 90.3 450 6.4 8.7 84.9 Urban 137 17.5 4.4 78.1 44 15.9 6.8 77.3 All 1067 8.7 2.5 88.8 494 7.3 8.5 84.2 TABLE D2: DAILY TIME SPENT ACCESSING TOILET FOR THOSE WITH NO TOILET Adulta Children (aged 5-14 years) Time per trip and waiting Time per trip and waiting No. of times per day No. of times per day (minutes) (minutes) 1 (urban) 7.00 1.17 11.88 1.24 2 (rural) 11.88 1.67 15.16 1.45 3 (rural) 15.16 1.74 14.42 1.39 4 (rural) 14.42 1.83 11.90 1.36 5 (urban) 11.90 1.17 15.20 1.24 6 (rural) 15.20 1.32 0.00 1.21 Summary Rural 14.38 1.60 9.46 1.34 Urban 10.24 1.17 14.08 1.24 All sites 13.75 1.53 10.16 1.33 a Accounts for time spent accompanying children to a place of defecation. 104 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE D3: PRACTICES RELATED TO YOUNG CHILDREN Parents accompanying young Parents accompanying their children children outside the yard Average number of No. of Site times visited in the day responses Number saying % % prior to the survey ‘Yes‘ 1 (urban) 98 40 40.8 - 1.7 2 (rural) 118 22 18.6 6.2 1.8 3 (rural) 162 44 27.2 21.0 1.9 4 (rural) 146 22 15.1 9.0 1.5 5 (urban) 118 21 17.8 11.9 1.5 6 (rural) 183 38 20.8 9.8 1.5 Summary Rural 609 126 20.7 13.0 1.7 Urban 216 61 28.2 4.1 1.6 All sites 825 187 22.7 10.1 1.6 TABLE D4: PREFERENCES RELATED TO TOILET CONVENIENCE, FROM HOUSEHOLDS Perceived benefits of sanitation (B6.1): proximity Those without toilet: reasons to get a toilet (%) cited as satisfied or very satisfied (%) Site Proximity is an important Those with toilet Those without toilet Saves time (B7.16) characteristic (B7.17) 1 (urban) 83.8 na na na 2 (rural) 84.2 62.1 100.0 100.0 3 (rural) 68.9 63.0 98.0 98.0 4 (rural) 55.2 61.1 100.0 100.0 5 (urban) 80.6 58.9 97.3 97.3 6 (rural) 92.1 60.1 100.0 100.0 Summary Rural 74.8 61.5 99.3 99.3 Urban 82.4 58.9 97.3 97.3 www.wsp.org 105 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE D5: AVERAGE TIME SAVED PER PERSON OR HOUSEHOLD PER YEAR (DAYS) Children 5-14 Children under 5 Adult time with Average per Average per Site Adultsa years years young children person household 1 (urban) 15.3 1.6 0.6 0.3 3.4 17.7 2 (rural) 18.5 4.2 2.2 0.2 5.2 25.1 3 (rural) 29.2 9.4 4.9 0.5 7.1 43.9 4 (rural) 20.3 6.1 3.1 0.3 6.0 29.8 5 (urban) 13.8 2.6 1.1 0.2 3.6 17.6 6 (rural) 16.5 5.1 1.8 0.3 5.4 23.7 Summary Rural 21.1 6.2 3.0 0.3 5.9 30.6 Urban 14.5 2.1 0.8 0.2 3.5 17.7 All sites 16.5 3.3 1.5 0.3 4.3 21.6 a Does not include the time spent accompanying children to a place of defecation TABLE D6: VALUE OF TIME PER PERSON/HOUSEHOLD PER YEAR (THOUSAND KIP) Children 5-14 Children under 5 Adult time with young Average per Site Adults years years children household 1 (urban) 1,438 74 29 27 1,568 2 (rural) 1,179 132 69 14 1,394 3 (rural) 961 154 81 16 1,212 4 (rural) 732 110 55 11 908 5 (urban) 495 47 20 6 567 6 (rural) 649 100 35 12 796 Summary Rural 870 124 59 13 1,067 Urban 978 61 24 16 1,079 All sites 945 80 35 15 1,076 a Does not include the time spent accompanying children to a place of defecation 106 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables ANNEX E TABLE E1: IMPORTANT CHARACTERISTICS OF A TOILET FOR THOSE CURRENTLY WITHOUT Average score Characteristic No. responses (1 = not important; 5 = very important) Comfortable toilet position 332 4.0 Cleanliness and freedom from unpleasant odours and insects 332 4.1 Not needing to share with other households 332 4.1 Having privacy when at the toilet 332 4.1 Proximity of toilet to house 332 4.0 Pour-flush toilet compared to dry pit latrine 332 4.2 Having a toilet disposal system that does not require emptying (piped sewer versus septic 332 3.8 tank) Having a toilet disposal system that does not pollute your own, your neighbors’, or your 332 4.1 community’s environment Willingness to pay for improved toilet? 215 963,200 Kip Type of toilet they would get (%) Pour-flush toilet 330 99.7 Pit latrine 0 0.3 www.wsp.org 107 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE E2: LEVEL OF SATISFACTION WITH CURRENT TOILET OPTION Improved sanitation Unimproved sanitation Characteristic Dry pit Open Shared Flush toilets Average Average latrine defecation latrines Comfort 3.2 1.5 2.9 1.7 2.6 1.9 Cleanliness 3.3 1.4 3.0 1.7 2.9 1.9 Privacy 3.5 1.9 3.2 1.7 2.6 1.9 Proximity 3.3 1.7 3.1 1.7 2.5 1.9 Pride 3.3 1.5 3.0 1.7 2.6 1.9 Feeling good with guests 3.3 1.5 3.0 1.7 2.5 1.9 Workload for maintaining 3.3 2.0 3.2 2.4 2.8 2.5 Pollution of your environment 3.4 1.8 3.2 2.2 3.0 2.4 Avoiding diseases 3.4 1.9 3.2 2.3 2.9 2.4 Reduces smell 3.5 1.9 3.3 2.2 3.0 2.4 Avoiding conflict 3.4 2.4 3.3 2.2 2.9 2.3 Safety of children 3.5 2.2 3.3 2.1 2.8 2.2 Toilet use at night 3.5 1.7 3.2 1.8 2.6 2.0 Toilet use when raining 3.5 1.7 3.2 1.8 2.6 1.9 Good for elderly people 3.4 1.6 3.2 1.9 3.1 2.1 Avoid snakes and biting insects 3.5 2.0 3.3 2.2 3.1 2.4 Avoid snakes/insects 3.5 1.7 3.2 1.8 2.6 1.9 108 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables ANNEX F TABLE F1: SCORING OF DIFFERENT TYPES OF LIVING AREA Site Averages Item 1 2 3 4 5 6 Rural Urban All State of sanitation in the neighborhood very bad (1) to very good (5) Uncollected/undisposed household 3.2 4.2 4.2 3.6 3.1 3.7 3.9 3.1 3.7 waste/garbage Open/visible sewage or wastewater 3.3 4.2 3.7 3.6 3.5 3.4 3.7 3.4 3.6 Accumulation of storm/rain water 3.1 4.2 3.7 3.5 3.5 3.5 3.7 3.3 3.6 Smoke from burning waste/garbage 2.0 3.9 3.6 3.5 3.0 4.1 3.8 2.5 3.4 Smell from sewage/defecation/waste 3.0 4.0 4.0 3.5 3.5 3.9 3.8 3.2 3.6 Dust & dirt in streets/roads/alleys 3.4 4.2 4.0 3.4 4.5 4.3 4.0 4.0 4.0 Dust & dirt in shops/markets/restaurants 3.4 4.2 4.0 3.5 4.4 4.3 4.0 3.9 4.0 Rodents around uncollected waste etc. 3.2 4.0 4.0 3.5 3.3 3.7 3.8 3.3 3.6 Insects around uncollected waste etc. 3.4 4.4 4.0 3.9 3.8 3.9 4.0 3.6 3.9 Simple average 3.1 4.1 3.9 3.6 3.6 3.9 3.9 3.4 3.7 To what extent do the following activities occur in your neighborhood Never (1) to Pervasive (4) Open defecation 1.1 2.4 3.1 2.3 1.7 2.5 2.6 1.4 2.2 Land affected by sewage drains and 1.6 2.1 1.8 1.7 1.5 1.5 1.7 1.6 1.7 wastewater Garbage/waste dumpsites/landfills 1.4 2.1 2.3 2.0 1.5 2.0 2.1 1.5 1.9 Land flooded seasonally 1.8 2.2 1.9 1.8 1.7 1.4 1.8 1.7 1.8 Land is flooded permanently with poor 1.1 1.4 1.3 1.3 1.3 1.4 1.3 1.2 1.3 quality sitting water Simple average 1.4 2.0 2.1 1.8 1.5 1.8 1.9 1.5 1.8 www.wsp.org 109 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE F2: PROPORTION OF HOUSEHOLDS WITH AND WITHOUT TOILET WHO HAVE UNIMPROVED SANITATION PRACTICE Site Averages Item 1 2 3 4 5 6 Rural Urban All Households with access to toilet % of responses saying often or always Open defecation 1.6 0.6 2.8 8.2 1.4 0.9 3.2 1.5 2.5 Open urination 1.6 15.7 30.8 32.7 4.8 7.8 21.7 2.9 14.4 See children defecating in yard 4.9 22.0 35.8 25.6 2.3 14.5 24.0 3.6 16.6 Septic tanks % of total responses Built less than 2 years ago and 18.8 - - - - - - 6.0 2.1 desludged Built 2-5 years ago and desludged 33.3 12.7 5.0 - 2.6 1.4 5.1 13.3 7.0 Built more than 5 years ago and 60.0 15.3 - 5.6 5.8 7.3 11.3 39.7 27.8 desludged Last time septic tanks were desludged % of responses for septic tanks aged 5 years and above Within the last 5 years 88.4 90.9 na 100.0 100.0 100.0 93.3 89.0 89.8 More than 5 years ago 10.1 9.1 na - - - 6.7 9.6 9.1 Don't know 1.4 - na - - - - 1.4 1.1 Households with pit latrines % of responses Experienced seepage/flooding into na na 9.7 28.2 na na 22.5 na 22.5 pit (sometimes or often in rainy season) Pit overflowed (yes) na na 3.2 9.9 na na 7.8 na 7.8 110 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE F3: IMPLICATION OF CURRENT TOILET OPTION FOR EXTERNAL ENVIRONMENT Improved sanitation Unimproved sanitation Characteristic Wet pit latrine Dry latrine Average No toilet Pollution of your or neighbors’ environment (question B6.1) Site1 (urban) 2.6 na 2.6 na Site 2 (rural) 2.9 na 2.9 1.6 Site 3 (rural) 3.2 0.8 2.4 1.4 Site 4 (rural) 3.1 1.2 2.2 1.6 Site 5 (urban) 2.8 na 2.8 1.8 Site 6 (rural) 3.3 na 3.3 1.5 Summary Rural 3.1 1.1 2.6 1.5 Urban 3.2 na 3.2 1.8 All 3.2 1.1 2.8 1.5 Smell around house (question B6.1) Site1 (urban) 2.9 na 2.9 na Site 2 (rural) 3.0 na 3.0 1.9 Site 3 (rural) 3.0 1.2 2.5 1.5 Site 4 (rural) 3.1 1.2 2.2 1.6 Site 5 (urban) 2.8 na 2.8 1.9 Site 6 (rural) 3.3 na 3.3 1.4 Summary Rural 3.1 1.2 2.7 1.5 Urban 3.3 na 3.3 1.9 All 3.2 1.2 2.9 1.6 www.wsp.org 111 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE F4: PERCEPTIONS OF ENVIRONMENTAL SANITATION STATE, BY OPTION TYPE Are you aware of any of the following? Perception of environmental sanitation state Interven- 1 (none/never) to 5 (pervasive) 1 (very bad) to 5 (very good) Site tion/ Open Stag- Flooded Flooded Stan- Control Dirt Direct defeca- nant Garbage seaso- perma- Rubbish Sewage ding Smoke Smell Rodents Insects outside inside tion water nally nently water 1 Intervention 2.1 1.5 1.7 1.7 1.3 2.7 2.8 2.6 1.2 2.4 3.1 3.0 2.7 3.0 (urban) 2 Intervention 1.3 1.6 1.5 1.9 1.2 4.1 3.9 3.9 3.8 3.8 4.0 4.0 3.7 4.2 (rural) Control 1.2 1.6 1.4 1.6 1.0 4.0 4.2 4.1 3.4 3.8 4.3 4.3 3.8 4.2 3 Intervention 3.0 1.7 2.1 1.8 1.2 3.9 3.3 3.3 3.2 3.6 3.8 3.7 3.7 3.6 (rural) Control 3.0 1.7 2.2 1.5 1.4 4.3 3.9 3.8 3.5 4.1 3.9 3.9 4.0 3.9 4 Intervention 2.8 2.2 2.3 2.3 1.4 3.3 3.2 3.1 3.2 3.1 2.9 3.0 3.2 3.6 (rural) Control 2.0 1.8 2.1 1.7 1.3 3.4 3.2 3.2 3.2 3.4 3.4 3.4 3.1 3.8 5 Intervention 2.2 1.8 2.2 1.9 1.4 2.7 3.2 3.1 2.4 2.9 4.3 4.2 2.8 3.5 (urban) Control 2.2 1.6 2.0 1.7 1.3 2.6 3.1 3.4 2.7 3.8 4.5 4.4 3.1 3.5 6 Intervention 1.8 1.5 1.6 1.6 1.3 3.4 3.0 3.1 3.8 3.5 4.1 4.1 3.3 3.7 (rural) Control 2.5 1.5 2.0 1.5 1.3 3.4 3.0 3.2 4.0 3.7 4.1 4.1 3.5 3.6 Summary Rural 2.3 1.7 1.9 1.8 1.3 3.7 3.4 3.4 3.5 3.6 3.8 3.8 3.5 3.8 Urban 2.1 1.6 1.9 1.8 1.3 2.7 3.0 2.9 1.9 2.7 3.7 3.6 2.8 3.3 All 2.2 1.7 1.9 1.8 1.3 3.4 3.3 3.3 3.0 3.3 3.8 3.7 3.3 3.6 112 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE F5: RANKING IMPORTANCE OF ENVIRONMENTAL SANITATION, BY OPTION TYPE Importance of environmental sanitation management (Q I.2) Intervention/ Site Standing Dirt Direct Control Rubbish Sewage Smoke Smell Rodents Insects water outside inside 1 Intervention 3.9 3.8 3.6 3.6 3.7 3.7 3.7 3.5 3.5 (urban) 2 Intervention 4.2 4.2 4.2 4.1 4.2 4.2 4.1 4.1 4.1 (rural) Control 3.8 3.7 3.8 3.6 3.7 3.8 3.8 3.8 3.7 3 Intervention 3.9 3.7 3.6 3.7 3.7 3.7 3.6 3.5 3.5 (rural) Control 4.0 3.9 3.7 3.7 3.9 3.7 3.8 3.5 3.4 4 Intervention 3.8 3.8 3.8 3.8 3.8 3.9 3.9 3.8 3.9 (rural) Control 4.0 4.0 3.9 3.9 3.9 4.0 3.9 4.0 4.0 5 Intervention 3.9 3.9 3.9 3.9 3.9 4.0 4.1 3.9 3.9 (urban) Control 4.0 3.9 4.0 3.8 3.8 4.0 4.0 4.0 3.9 6 Intervention 3.9 3.8 3.8 3.8 3.8 3.9 3.9 3.9 3.9 (rural) Control 3.8 3.7 3.7 3.8 3.8 3.8 3.8 3.8 3.8 Summary Rural 3.9 3.9 3.8 3.8 3.9 3.9 3.9 3.8 3.8 Urban 3.9 3.9 3.8 3.7 3.8 3.8 3.9 3.7 3.7 All 3.9 3.9 3.8 3.8 3.9 3.9 3.9 3.8 3.8 TABLE F6: FINANCING FROM HOUSEHOLD AND PROJECT SOURCES Site Item 3 5 6 Rural/Urban Rural Urban Rural Facilities received Wet pit latrine Wet pit latrine Wet pit latrine Sample size 76 102 116 Households with sanitation from the program, of which 38 37 53 Government 1 2 1 ADB 0 0 0 Red Cross 28 4 1 Others 0 1 2 Not known 9 30 49 Households contributing (% of beneficiaries) Cash 52% 50% 50% Materials 7% 11% 7% Labor 91% 97% 100% Value of household inputs per beneficiary (thousand kip) Cash 140 143 357 Materials 311 157 415 Labor contribution per beneficiary (hours) 37 22 39 Value of project input per household (thousand kip) 383 466 174 www.wsp.org 113 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE F7: HOUSEHOLD CHOICES AND OTHER INTERVENTIONS Site 3 5 6 All sites Rural/Urban 206 183 227 Number of households receiving intervention 39 37 53 129 Was household given a choice to participate? (%) Yes, voluntary 51.3 51.4 64.2 56.6 No, not voluntary 43.6 43.2 34.0 90.1 Not applicable 5.1 5.4 1.9 5.5 Was household given a choice of options? (%) Yes, choice available 28.2 40.5 41.5 865.2 No, choice not available 71.8 56.8 43.4 8.3 Not applicable 0.0 2.7 15.1 108.1 Hygiene awareness (%) - Did the program/community provide hygiene awareness at the same time? Yes 69.2 48.6 43.4 62.9 No 28.2 35.1 34.0 66.8 Not applicable 2.6 16.2 22.6 28.4 Water intervention offered (%) - Did the program/community provide water services to your household? Yes 7.7 8.1 18.9 56.3 No 92.3 86.5 77.4 193.8 Not applicable 0.0 5.4 3.8 2.1 TABLE F8: APPROPRIATE TECHNOLOGY Number of % households with insufficient % households with pit % households with pit Rural/ water for flushinga floodingb overflowb Site households urban interviewed Sometimes Often Sometimes Often Sometimes Often 1 urban 179 23.5 11.8 na na na na 2 rural 191 20.5 - na na na na 3 rural 206 33.3 8.3 6.9 - 3.5 - 4 rural 194 nc nc 15.7 12.9 10.0 - 5 urban 183 16.7 16.7 na na na na 6 rural 227 33.3 - na na na na All sites 1,180 26.0 7.0 11.2 6.2 6.6 0.0 a b Applies to wet pit latrines and pour-flush toilets only; applies to dry pit latrines only 114 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE F9: ACTUAL PROGRAM PERFORMANCE IN RELATION TO KEY SELECTED INDICATORS FOR PROGRAM EFFECTIVENESS, RURAL SITES ONLY Site Variable 1 2 3 4 5 6 All Rural/Urban Urban Rural Rural Rural Urban Rural Households with access to toilets 194 159 110 147 148 117 875 Number of toilets provided by - - 38 - 37 53 128 government, NGOs, donors and other institutions % of households, with members who often or always: Use bush for defecation 1.6 0.6 2.8 8.2 1.4 0.9 2.5 Use bush for urination 1.6 15.7 30.8 32.7 4.8 7.8 14.4 Children seen defecating in yard 4.9 22.0 35.8 25.6 2.3 14.5 16.2 % of households, with members who often or always: Children using or stool disposed in 85.7 85.5 69.6 70.7 88.4 88.5 81.9 toilet/latrine Wash hands with soap yesterday 67.7 97.5 66.4 72.8 67.3 75.9 74.8 Wash hands after defecation 47.9 70.9 40.2 49.7 49.0 51.7 52.1 % of households, with members who often or always: Using well which is not covered 64.9 na - 46.7 23.1 20.0 28.8 Using bucket to withdraw water 40.4 na 60.0 46.7 19.2 60.0 43.5 from well Signs of feces on the floor inside 4.6 6.9 12.0 6.0 22.6 4.8 9.3 the toilet Signs of insects inside the toilet 15.0 10.6 25.6 18.1 40.5 19.7 21.0 Running water in or near toilet 27.5 77.7 17.9 20.7 8.3 32.0 31.6 Soap available inside or near the 42.5 76.6 33.3 61.2 31.5 57.1 50.8 toilet facility for washing hands www.wsp.org 115 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE F10: ACTUAL PROGRAM PERFORMANCE IN RELATION TO KEY SELECTED INDICATORS FOR PROGRAM EFFECTIVENESS Site Impact Indicator 1 2 3 4 5 6 Urban Rural Rural Rural Urban Rural Health % household members using 100.0 99.8 68.2 93.9 94.9 63.8 improvement improved toilet regularly (basic sanitation) Health (hygiene % households washing hands 47.9 73.3 37.5 50.5 49.5 49.1 intervention) after defecation Water source % of households with facilities 100.0 82.7 51.5 75.3 79.8 50.7 that partially of fully isolate water from human excreta Water treatment % households using non- 42.4 11.4 19.8 4.1 6.8 29.2 boiling household water treatment methods Access time % household members using 95.8 88.8 90.0 84.0 98.3 99.2 own toilet instead of off-plot options Men 95.4 90.1 90.9 85.8 98.4 99.4 Women 97.0 88.5 90.0 83.3 98.2 98.9 Children 5-14 93.8 87.0 88.9 85.8 98.3 99.1 Children 0-4 94.4 88.9 90.8 74.5 98.1 100.0 116 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables ANNEX G TABLE G1: PLACES VISITED (% RESPONDENTS) AND ENJOYMENT OF STAY (1 = NOT AT ALL TO 5 = VERY MUCH) Luang Rural Cultural Cat- Hotel Vientiane Vang Vieng Other towns Natural sites Service Level N Prabang Villages sites egory tariff % Score % Score % Score % Score % Score % Score % Score % Score Tourist Free 7 86.0 3.5 14.0 5.0 14.0 4.0 29.0 4.5 29.0 4.00 71.00 3.60 29.00 4.00 100.00 3.90 1-14 41 93.0 3.6 63.0 4.6 56.0 4.0 29.0 3.8 22.0 4.40 80.00 4.20 66.00 4.60 98.00 4.00 15-29 52 100.0 3.7 52.0 4.6 54.0 3.8 31.0 3.4 33.0 4.20 92.00 4.50 63.00 4.80 100.00 3.90 30-59 52 100.0 3.8 46.0 4.2 38.0 3.7 17.0 3.6 35.0 4.40 96.00 4.30 52.00 4.60 100.00 4.00 60-89 19 95.0 3.5 58.0 4.3 26.0 3.8 16.0 4 32.0 3.50 74.00 4.10 47.00 4.60 89.00 3.60 90-119 8 100.0 4.5 38.0 5.0 13.0 1.0 13.0 4 38.0 4.70 100.00 4.60 50.00 4.80 100.00 4.50 120-149 6 100.0 3.8 17.0 4.0 0.0 - 17.0 5 17.0 4.00 83.00 4.00 50.00 3.70 100.00 4.30 150+ 3 100.0 3.3 67.0 5.0 33.0 4.0 33.0 5 33.0 5.00 100.00 5.00 33.00 5.00 100.00 4.30 Sub-total 188 97.0 3.7 51.0 4.5 42.0 3.8 24.0 3.7 30.0 4.30 88.00 4.30 56.00 4.60 98.00 4.00 Busi- Free 10 90.0 3.8 0.0 - 0.0 - 30.0 4.3 10.0 4.00 40.00 4.20 20.00 4.50 100.00 4.00 ness 1-14 1 100.0 3 0.0 - 0.0 - 0.0 - 100.0 3.00 100.00 4.00 - - 100.00 4.00 15-29 5 100.0 3.4 80.0 4.3 40.0 3.5 40.0 3.1 20.0 5.00 60.00 4.70 40.00 4.50 100.00 3.80 30-59 16 100.0 3.8 0.0 - 6.0 4.0 13.0 4.5 19.0 3.30 56.00 4.30 25.00 4.80 100.00 4.30 60-89 5 100.0 3.4 0.0 - 0.0 - 20.0 2 40.0 3.50 60.00 4.00 20.00 4.00 100.00 4.00 90-119 7 100.0 4.1 0.0 - 0.0 - 0.0 - - - 57.00 3.80 - - 86.00 4.00 120-149 3 100.0 2.7 33.0 5.0 0.0 - 67.0 1.5 67.0 1.50 67.00 4.50 - - 100.00 4.00 150+ 0 na na na na na na na na na na na na na na na na Sub-total 47 98.0 3.6 11.0 4.4 6.0 3.7 21.0 3.4 21.0 3.20 55.00 4.20 19.00 4.60 98.00 4.10 TOTAL 235 98.0 3.7 43.0 4.5 35.0 3.8 23.0 3.7 29.0 4.10 82.00 4.30 49.00 4.60 98.00 4.00 www.wsp.org 117 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE G2: GENERAL SANITARY EXPERIENCE (1 = VERY POOR TO 5 = VERY GOOD) Hotel and General Hotel Vientiane Luang Pra- Guesthouse Swimming Lakes and Category N sanitary Vang Vieng Restaurants tariff Capital bang Environ- Pools Rivers condition ment Tourist Free 7 3.00 3.20 4.00 na 4.20 na 2.70 3.10 1-14 41 2.60 2.90 3.60 2.60 3.70 3.70 3.90 3.90 15-29 52 2.40 3.00 3.60 2.80 3.50 3.00 3.30 3.80 30-59 52 2.60 3.10 3.40 3.10 3.80 2.80 3.30 3.80 60-89 19 2.50 3.10 2.80 2.80 3.90 3.00 3.40 3.70 90-119 8 3.00 4.00 4.50 1.00 4.40 4.50 4.30 4.20 120-149 6 3.50 3.20 4.00 na 4.40 4.00 3.00 4.20 150+ 3 3.00 4.00 4.50 4.00 5.00 5.00 4.50 4.70 Sub-total 188 2.60 3.10 3.50 2.80 3.80 3.30 3.50 3.80 Business Free 10 3.30 3.50 na na 4.30 3.00 3.60 4.00 1-14 1 3.00 3.00 na na 5.00 5.00 4.00 5.00 15-29 5 2.20 3.40 3.50 2.00 3.00 2.00 4.00 3.00 30-59 16 2.70 3.10 na 2.00 3.80 2.00 2.90 3.70 60-89 5 2.40 3.60 na na 4.00 4.00 3.00 3.80 90-119 7 3.00 3.40 na na 3.60 3.00 3.30 3.80 120-149 3 1.70 3.30 na na 4.00 3.50 2.50 3.00 150+ 0 na na na na na na na na Sub-total 47 2.70 3.30 3.50 2.00 3.80 3.20 3.20 3.70 TOTAL 235 2.60 3.10 3.50 2.80 3.80 3.30 3.40 3.80 118 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE G3: SANITARY EXPERIENCE IN RELATION TO TOILETS AND HAND WASHING Quality of toilets (1= very poor to 5 = very Water and soap for hand washing ( 1 = never Toilet availability good) to 5 = always) Cat- Hotel N % could not egory tariff Restau- Bus % impact Restau- Bus Hotel Airports City find when Hotel Airports City rants stations on stay rants stations needed Tourist Free 7 4.2 3.4 4.4 1.0 3.5 57.0 50.0 4.0 3.2 4.0 1.0 2.3 1-14 41 3.3 2.9 3.9 2.3 2.1 54.0 59.0 3.6 3.2 3.8 1.4 1.7 15-29 52 3.5 3.2 3.8 1.4 1.5 52.0 67.0 3.7 2.9 3.9 1.6 1.6 30-59 52 3.8 3.4 3.5 2.0 2.0 40.0 67.0 3.8 3.3 3.8 1.7 1.8 60-89 19 3.6 3.2 3.6 1.8 1.3 53.0 70.0 3.7 3.5 3.7 2.0 1.4 90-119 8 4.4 4.0 4.0 na na na na 3.5 3.3 2.0 na na 120-149 6 3.8 3.8 3.8 2.0 5.0 17.0 100.0 4.0 3.3 3.3 2.0 4.0 150+ 3 5.0 4.5 4.0 na na 67.0 50.0 4.0 4.0 4.0 na na Sub-total 188 3.7 3.3 3.7 1.9 2.0 46.0 64.0 3.7 3.2 3.8 1.6 1.8 Busi- Free 10 4.0 3.4 3.9 1.3 2.0 50.0 100.0 4.0 3.6 4.0 1.0 1.0 ness 1-14 1 5.0 4.0 4.0 3.0 3.0 na na na na 4.0 1.0 3.0 15-29 5 2.8 2.2 3.8 na 2.0 80.0 100.0 3.3 3.0 4.0 na na 30-59 16 3.8 3.1 3.6 4.0 2.0 50.0 50.0 3.6 3.1 3.8 1.0 na 60-89 5 3.8 3.6 3.4 3.0 na na na 4.0 3.2 3.3 na na 90-119 7 4.4 3.8 3.6 na 3.0 29.0 100.0 4.0 3.6 4.0 na 1.0 120-149 3 3.7 3.3 3.0 1.0 1.0 67.0 100.0 4.0 2.7 4.0 1.0 1.5 150+ 0 na na na na na na na na na na na na Sub-total 47 3.9 3.2 3.7 2.3 2.3 45.0 81.0 3.7 3.2 3.8 1.0 1.6 TOTAL 235 3.7 3.2 3.7 1.9 2.0 46.0 68.0 3.7 3.2 3.8 1.5 1.8 www.wsp.org 119 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE G4: WHAT FACTORS WERE OF MOST CONCERN? (% OF RESPONDENTS) Cat- Hotel Bottled Swimming Public Unsanitary Shaking Currency N Tap water Food safety egory tariff water and ice pool water toilets toilets hands notes Tourist Free 7 14.0 14.0 0.0 57.0 14.0 14.0 14.0 14.0 1-14 41 24.0 56.0 10.0 44.0 34.0 5.0 5.0 10.0 15-29 52 23.0 42.0 12.0 48.0 50.0 4.0 4.0 6.0 30-59 52 21.0 42.0 17.0 44.0 40.0 8.0 8.0 8.0 60-89 19 21.0 53.0 33.0 42.0 53.0 11.0 11.0 5.0 90-119 8 25.0 13.0 0.0 38.0 25.0 na na 13.0 120-149 6 50.0 17.0 0.0 57.0 14.0 na na 14.0 150+ 3 33.0 67.0 0.0 33.0 na na na 33.0 Sub-total 188 23.0 44.0 12.0 45.0 40.0 6.0 6.0 8.0 Busi- Free 10 60.0 20.0 0.0 30.0 40.0 na na 30.0 ness 1-14 1 0.0 100.0 0.0 0.0 100.0 na na na 15-29 5 20.0 0.0 20.0 60.0 20.0 na na na 30-59 16 31.0 25.0 0.0 19.0 38.0 na na 13.0 60-89 5 60.0 0.0 0.0 40.0 60.0 na na 20.0 90-119 7 57.0 29.0 0.0 29.0 14.0 na na 29.0 120-149 3 33.0 0.0 0.0 67.0 100.0 na na na 150+ 0 na na na na na na na na Sub-total 47 43.0 19.0 2.0 32.0 40.0 na na 17.0 TOTAL 235 27.0 39.0 10.0 43.0 40.0 5.0 5.0 10.0 120 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE G5: HEALTH PROBLEMS EXPERIENCED BY FOREIGN VISITORS Gastro-intesti- Suspected source of GIT infec- Average num- nal tract (GIT) tions (% of sick persons, mul- Medical care (%) ber of days of: infections tiple responses possible) Cat- Hotel Medical Other Average N egory tariff Visitors % of Drinking Dirty practi- practi- Self- Cost Hot Symp- Incapa- with in- respon- water or Food environ- None tioner: tioner: med- paid by weather toms citation fection dents ice ment out- out- ication patient patient patient (US$) Tourist Free 7 1 14.0 100.0 - - - 1.0 0.0 100.0 - - - - 1-14 41 8 20.0 - 100.0 13.0 - 2.1 0.1 63.0 - - 38.0 4.0 15-29 52 12 23.0 42.0 58.0 8.0 8.0 2.1 0.9 83.0 8.0 - 8.0 12.5 30-59 52 7 13.0 43.0 86.0 29.0 14.0 2.1 0.5 71.0 14.0 14.0 - 2.5 60-89 19 6 32.0 17.0 83.0 33.0 17.0 2.7 0.7 33.0 - - 67.0 3.8 90-119 8 2 25.0 - 50.0 - - 1.5 0.5 100.0 - - - - 120-149 6 1 17.0 100.0 100.0 - - 1.0 1.0 - - - 100.0 10.0 150+ 3 0 - na na na na na na na na na na na Sub-total 188 37 20.0 30.0 76.0 16.0 8.0 2.1 0.6 68.0 5.0 3.0 24.0 5.6 Busi- Free 10 2 20.0 50.0 100.0 - 50.0 5.0 1.0 - - - 100.0 3.0 ness 1-14 1 0 - na na na na na na na na na na na 15-29 5 1 20.0 100.0 100.0 100.0 - 2.0 1.0 100.0 - - - - 30-59 16 2 13.0 50.0 50.0 - - 1.5 1.0 50.0 - - 50.0 - 60-89 5 0 - na na na na na na na na na na na 90-119 7 2 29.0 - 100.0 - - 1.0 0.0 100.0 - - - - 120-149 3 1 33.0 - 100.0 - - 5.0 2.0 - 100.0 - - 18.0 150+ 0 0 na na na na na na na na na na na na Sub-total 47 8 17.0 38.0 86.0 13.0 13.0 2.8 0.9 50.0 13.0 - 38.0 6.0 TOTAL 235 45 19.0 31.0 78.0 16.0 9.0 2.2 0.6 64.0 7.0 2.0 27.0 5.7 www.wsp.org 121 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE G6: INTENTION TO RETURN OF FOREIGN VISITORS Return to Lao PDR? (%) Advise friends to visit Lao PDR? (%) Category Hotel tariff N Yes No May be Yes No May be Tourist Free 7 71 0 29 100 0 0 1-14 41 85 5 10 100 0 0 15-29 52 85 0 15 98 0 2 30-59 52 83 4 13 96 0 4 60-89 19 74 5 21 84 5 11 90-119 8 100 0 0 100 0 0 120-149 6 100 0 0 100 0 0 150+ 3 100 0 0 67 33 0 Sub-total 188 84 3 13 96 1 3 Business Free 10 100 0 0 90 0 10 1-14 1 100 0 0 100 0 0 15-29 5 100 0 0 80 20 0 30-59 16 100 0 0 94 0 6 60-89 5 80 0 20 100 0 0 90-119 7 100 0 0 100 0 0 120-149 3 100 0 0 67 0 33 150+ 0 0 0 0 0 0 0 Sub-total 47 98 0 2 92 2 6 TOTAL 235 87 2 11 95 1 4 122 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE G7: REASONS FOR FOREIGN VISITORS HESITATING TO RETURN TO LAO PDR Reasons for hesitancy in returning (% cited) Main Contributory Cat- Hotel N egory tariff Poor Not Poor Not Have Poor Too many Have Not Poor Too many sanita- value for Not safe sanita- value for seen all service tourists seen all safe service tourists tion money tion money Tourist Free 7 14 - - - - - - 14 - - 14 - 1-14 41 2 2 7 - - 2 10 12 7 5 22 20 15-29 52 6 2 4 2 8 2 15 8 17 8 13 2 30-59 52 6 2 8 2 2 6 13 6 17 - 15 2 60-89 19 11 5 - 5 - 11 37 21 26 - 26 5 90-119 8 - - 13 - - 13 - - - - - - 120-149 6 - - 17 17 - - 33 33 - 17 17 - 150+ 3 - - - - - - - - - - - - Sub-total 188 5 2 6 2 3 4 15 10 14 4 16 6 Busi- Free 10 - - - - - - - - - - - 10 ness 1-14 1 - - - - - - - - - - - - 15-29 5 - 20 - - - - - - - - - - 30-59 16 - - - - - - 13 - 6 13 13 13 60-89 5 - - - - - - - - - - - 20 90-119 7 - 14 - 14 - - 14 - - - 14 14 120-149 3 - - 33 - 33 - - 33 - 33 - 33 150+ 0 na na na na na na na na na na na na Sub-total 47 - 4 2 2 2 - 6 2 2 6 6 13 TOTAL 235 4 3 5 2 3 3 13 9 11 4 14 7 www.wsp.org 123 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables ANNEX H TABLE H1: RATING OF ENVIRONMENTAL SANITATION CONDITIONS IN THE LOCATION OF THE BUSINESS SURVEY INTERVIEW (1= BEST; 5 = WORST) Food and Food and Travel Restaurants Pharmaceutical beverage beverage Hotels agencies/ Variable (Local/ factories (Local/ All producers producers (International) tour operators International) government) (Local) (International) (Local) Water quality in rivers 2.0 3.5 1.0 3.3 2.5 2.0 2.4 State of canals and 3.2 4.5 4.0 4.3 4.0 3.0 3.8 rainwater drainage Management of sewage 2.4 4.5 4.3 3.7 4.5 3.5 3.6 Management of industrial 3.0 4.5 nr 4.0 nr 3.0 3.5 wastewater Household coverage of 1.6 4.0 2.5 3.0 3.5 2.5 2.6 private toilets Toilets in public places 3.4 5.0 5.0 4.3 5.0 3.5 4.2 Household/office solid 3.2 4.5 1.0 4.0 3.5 3.0 3.3 waste Management of industrial 2.0 4.0 0.0 3.0 2.5 3.5 2.8 solid waste Air quality related to 2.6 3.0 3.7 3.3 3.5 4.0 3.2 vehicles emissions Air quality related to solid 2.2 3.5 1.5 2.7 3.5 3.5 2.7 waste Air quality related to poor 2.0 3.0 2.5 3.0 3.5 3.5 2.6 excreta management Number of companies 5 2 3 3 2 2 17 Number of responses 5 2 3 3 2 2 17 nr = no responses 124 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables ANNEX I TABLE I1: SITE 1 AVERAGE COST PER HOUSEHOLD FOR DIFFERENT SANITATION OPTIONS, USING FULL (ECONOMIC) COST (THOUSAND KIP, YEAR 2010) Shared wet pit Shared toilet to Private wet pit Toilet to septic Cost Item Toilet to sewer latrine septic tank latrine tank Investment costs: Initial one-off spending 133.0 237.2 255.4 545.9 708.6 (annualized)a Recurrent costs: Average annual 51.1 269.9 51.1 269.9 404.9 spendingb Average annual cost calculations Expected life (years) 3.0 12.5 6.0 25.0 25.0 Cost/household 184.1 507.1 306.5 815.8 1,113.4 Cost/capita 35.2 97.0 58.7 156.1 213.1 Of which: % capital 72% 47% 83% 67% 64% % recurrent 28% 53% 17% 33% 36% Number of households 7 11 72 84 12 a b Program costs excluded. Only represents cost of maintenance and operations. Program costs excluded. TABLE I2: SITE 2 AVERAGE COST PER HOUSEHOLD FOR DIFFERENT SANITATION OPTIONS, USING FULL (ECONOMIC) COST (THOUSAND KIP, YEAR 2010) Shared wet pit Shared toilet to Private wet pit Toilet to Cost Item latrine septic tank latrine septic tank Investment costs: Initial one-off spending 136.1 316.3 216.4 545.9 (annualized)a Recurrent costs: Average annual 51.1 269.9 51.1 269.9 spendingb Average annual cost calculations Expected life (years) 3.0 12.5 6.0 25.0 Cost/household 187.2 586.2 267.6 815.8 Cost/capita 38.9 121.8 55.6 169.4 Of which: % capital 73% 54% 81% 67% % recurrent 27% 46% 19% 33% Number of households 36 7 67 48 a Program costs excluded. b Only represents cost of maintenance and operations. Program costs excluded. www.wsp.org 125 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE I3: SITE 3 AVERAGE COST PER HOUSEHOLD FOR DIFFERENT SANITATION OPTIONS, USING FULL (ECONOMIC) COST (THOUSAND KIP, YEAR 2010) Cost Item Shared wet pit latrine Private dry pit latrine Private wet pit latrine Investment costs: Initial one-off spending 150.9 245.2 216.4 (annualized)a Recurrent costs: Average annual 51.1 - 51.1 spendingb Average annual cost calculations Expected life (years) 3.0 1.0 6.0 Cost/household 202.0 245.2 267.6 Cost/capita 32.7 39.6 43.2 Of which: % capital 75% 100% 81% % recurrent 25% 0% 19% Number of households 11 30 65 a Program costs excluded. b Only represents cost of maintenance and operations. Program costs excluded. TABLE I4: SITE 4 AVERAGE COST PER HOUSEHOLD FOR DIFFERENT SANITATION OPTIONS, USING FULL (ECONOMIC) COST (THOUSAND KIP, YEAR 2010) Cost Item Private dry pit latrine Private wet pit latrine Investment costs: Initial one-off spending 245.2 216.4 (annualized)a Recurrent costs: Average annual - 51.1 spendingb Average annual cost calculations Expected life (years) 1.0 6.0 Cost/household 245.2 267.6 Cost/capita 49.5 54.0 Of which: % capital 100% 81% % recurrent 0% 19% Number of households 71 72 a Program costs excluded. b Only represents cost of maintenance and operations. Program costs excluded. 126 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE I5: SITE 5 AVERAGE COST PER HOUSEHOLD FOR DIFFERENT SANITATION OPTIONS, USING FULL (ECONOMIC) COST (THOUSAND KIP, YEAR 2010) Cost Item Private wet pit latrine Toilet to septic tank Investment costs: Initial one-off spending (annualized)a 255.4 545.9 Recurrent costs: Average annual spendingb 51.1 269.9 Average annual cost calculations Expected life (years) 6.0 25.0 Cost/household 306.5 815.8 Cost/capita 63.1 167.9 Of which: % capital 83% 67% % recurrent 17% 33% Number of households 97 43 a Program costs excluded. b Only represents cost of maintenance and operations. Program costs excluded. TABLE I6: SITE 6 AVERAGE COST PER HOUSEHOLD FOR DIFFERENT SANITATION OPTIONS, USING FULL (ECONOMIC) COST (THOUSAND KIP, YEAR 2010) Cost Item Private wet pit latrine Investment costs: Initial one-off spending (annualized)a 216.4 b Recurrent costs: Average annual spending 51.1 Average annual cost calculations Expected life (years) 6.0 Cost/household 267.6 Cost/capita 61.4 Of which: % capital 81% % recurrent 19% Number of households 108 a Program costs excluded. b Only represents cost of maintenance and operations. Program costs excluded. www.wsp.org 127 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE I7: INCREMENTAL COSTS OF MOVING UP THE SANITATION LADDER TO Facility Shared toilet to Private dry pit Private wet pit Private toilet to Private toilet to septic tank latrine latrine septic tank sewer SITE 1 Shared wet pit latrine 323.0 122.4 631.6 929.3 Shared toilet to septic tank (200.6) 308.6 606.3 Private wet pit latrine 509.2 806.9 Private Toilet to septic tank 297.7 SITE 2 Shared wet pit latrine 399.0 80.4 628.6 Shared toilet to septic tank (318.6) 229.5 Private wet pit latrine 548.2 SITE 3 Shared wet pit latrine 43.2 65.5 Private dry pit latrine 22.4 SITE 4 Private dry pit latrine 22.4 SITE 5 Private wet pit latrine 509.2 FROM SITE 6 (NOT APPLICABLE, ONE FACILITY ONLY) Rural sites (uses average of costs in relevant sites) Shared wet pit latrine 395.6 54.5 76.9 625.1 Shared toilet to septic tank (341.0) (318.6) 229.5 Private dry pit latrine 22.4 570.6 Private wet pit latrine 548.2 Urban sites (uses average of costs in relevant sites) Shared wet pit latrine 323.0 122.4 631.6 929.3 Shared toilet to septic tank (200.6) 308.6 606.3 Private wet pit latrine 509.2 806.9 Private Toilet to septic tank 297.7 All sites (uses average of costs in sites) Shared wet pit latrine 348.1 55.4 91.4 625.9 923.6 Shared toilet to septic tank (292.7) (256.6) 277.9 575.5 Private dry pit latrine 36.1 570.6 868.2 Private wet pit latrine 534.5 832.2 Private toilet to septic tank 297.7 128 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables ANNEX J TABLE J1: SITE 1 (URBAN), EFFICIENCY MEASURES FOR MAIN GROUPINGS OF SANITATION INTERVENTIONS, COMPARED TO “NO TOILET” Shared wet pit Shared toilet to Private wet pit Private toilet to Private toilet to Item Scenario latrine septic tank latrine septic tank sewer Number of observations 7 11 72 84 na Cost-benefit measures Benefits per kip of input Ideal 6.0 2.2 9.0 3.8 3.1 (kip) Actual 5.8 2.2 8.7 3.7 na Internal rate of return Ideal >100 >100 >100 >100 >100 (%) Actual >100 >100 >100 >100 na Pay-back period (years) Ideal 1 2 1 2 2 Actual 1 2 1 2 na Net present value Ideal 7,084 4,721 19,200 15,939 16,168 (thousand kip) Actual 6,895 4,533 18,462 15,201 na Cost-effectiveness measures Cost per DALY averted Ideal 9,852 26,120 16,601 39,056 53,832 (thousand kip) Actual 9,852 26,120 16,601 39,056 na Cost per case averted Ideal 74 196 125 294 405 (thousand kip) Actual 74 196 125 294 na Cost per death averted Ideal 195,511 518,317 329,434 775,014 1,068,236 (thousand kip) Actual 195,511 518,317 329,434 775,014 na www.wsp.org 129 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE J2: SITE 2 (RURAL), EFFICIENCY MEASURES FOR MAIN GROUPINGS OF SANITATION INTERVENTIONS, COMPARED TO “NO TOILET” Shared wet pit Shared toilet to Private wet pit Private toilet to Item Scenario latrine septic tank latrine septic tank Number of observations 36 7 67 48 Cost-benefit measures Benefits per kip of input Ideal 10.7 3.6 10.9 4.1 (kip) Actual 10.0 3.4 10.0 3.7 Internal rate of return Ideal >100 >100 >100 93.4 (%) Actual >100 >100 >100 >100 Pay-back period (years) Ideal 1 1 1 2 Actual 1 2 1 2 Net present value Ideal 14,158 11,306 20,952 17,389 (thousand kip) Actual 13,028 10,175 18,990 15,426 Cost-effectiveness measures Cost per DALY averted Ideal 8,556 25,345 12,409 33,382 (thousand kip) Actual 8,575 25,400 12,435 33,454 Cost per case averted Ideal 63 186 91 246 (thousand kip) Actual 63 187 92 246 Cost per death averted Ideal 150,965 447,173 218,930 588,980 (thousand kip) Actual 151,291 448,139 219,403 590,252 TABLE J3: SITE 3 (RURAL), EFFICIENCY MEASURES FOR MAIN GROUPINGS OF SANITATION INTERVENTIONS, COMPARED TO “NO TOILET” Item Scenario Shared wet pitlatrine Private dry pitlatrine Private wet pitlatrine Number of observations 11 30 65 Cost-benefit measures Benefits per kip of input Ideal 9.1 10.4 9.0 (kip) Actual 7.0 8.3 7.2 Internal rate of return Ideal >100 >100 >100 (%) Actual >100 >100 >100 Pay-back period (years) Ideal 1 1 1 Actual 1 1 1 Net present value Ideal 12,656 17,154 16,874 (thousand kip) Actual 9,381 13,406 13,125 Cost-effectiveness measures Cost per DALY averted Ideal 1,403 1,638 1,889 (thousand kip) Actual 2,058 2,403 2,771 Cost per case averted Ideal 29 34 39 (thousand kip) Actual 43 50 58 Cost per death averted Ideal 64,621 75,438 87,011 (thousand kip) Actual 94,785 110,651 127,626 130 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE J4: SITE 4 (RURAL), EFFICIENCY MEASURES FOR MAIN GROUPINGS OF SANITATION INTERVENTIONS, COMPARED TO “NO TOILET” Item Scenario Shared wet pit latrine Shared toilet to septic tank Number of observations 71 72 Cost-benefit measures Benefits per kip of input Ideal 8.4 7.3 (kip) Actual 6.8 5.9 Internal rate of return Ideal >100 >100 (%) Actual >100 >100 Pay-back period (years) Ideal 1 1 Actual 1 2 Net present value Ideal 13,504 13,224 (thousand kip) Actual 10,532 10,252 Cost-effectiveness measures Cost per DALY averted Ideal 6,437 7,424 (thousand kip) Actual 6,858 7,910 Cost per case averted Ideal 47 54 (thousand kip) Actual 50 58 Cost per death averted Ideal 116,482 134,352 (thousand kip) Actual 124,100 143,139 www.wsp.org 131 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE J5: SITE 5 (URBAN), EFFICIENCY MEASURES FOR MAIN GROUPINGS OF SANITATION INTERVENTIONS, COMPARED TO “NO TOILET” Item Scenario Shared wet pit latrine Shared toilet to septic tank Number of observations 97 43 Cost-benefit measures Benefits per kip of input Ideal 4.2 1.8 (kip) Actual 3.9 1.6 Internal rate of return Ideal >100 37.4 (%) Actual >100 32.6 Pay-back period (years) Ideal 1 5 Actual 1 6 Net present value Ideal 7,629 4,368 (thousand kip) Actual 6,881 3,620 Cost-effectiveness measures Cost per DALY averted Ideal 15,602 36,704 (thousand kip) Actual 16,438 38,672 Cost per case averted Ideal 123 289 (thousand kip) Actual 130 305 Cost per death averted Ideal 282,122 663,710 (thousand kip) Actual 297,251 699,300 132 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE J6: SITE 6 (RURAL), EFFICIENCY MEASURES FOR MAIN GROUPINGS OF SANITATION INTERVENTIONS, COMPARED TO “NO TOILET” Item Scenario Shared wet pit latrine Number of observations 108 Cost-benefit measures Benefits per kip of input Ideal 5.6 (kip) Actual 4.7 Internal rate of return Ideal >100 (%) Actual >100 Pay-back period (years) Ideal 1 Actual 2 Net present value Ideal 9,711 (thousand kip) Actual 7,819 Cost-effectiveness measures Cost per DALY averted Ideal 8,958 (thousand kip) Actual 14,046 Cost per case averted Ideal 64 (thousand kip) Actual 100 Cost per death averted Ideal 170,960 (thousand kip) Actual 268,071 www.wsp.org 133 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables ANNEX K TABLE K1: SITE 1 (RURAL), EFFICIENCY MEASURES FOR MAIN GROUPINGS OF SANITATION INTERVENTIONS, COMPARING DIFFERENT POINTS ON THE SANITATION LADDER From/to Private Private wet pit latrine toilet to Shared wet pit latrine to: Shared toilet to septic tank to: to: septic Sce- Item tank to: nario Shared Private Private Private Private Private Private Private Private Private toilet to toilet to toilet to toilet to wet pit toilet to wet pit toilet to toilet to toilet to septic septic septic septic latrine sewer latrine sewer sewer sewer tank tank tank tank Cost-benefit measures Benefits per Ideal 0.4 1.5 0.6 0.5 4.0 1.7 1.4 0.4 0.3 0.8 kip of input (kip) Actual 0.4 1.5 0.6 0.5 3.9 1.7 1.4 0.4 0.3 na 1 Pay-back pe- Ideal 1 - 1 1 (1) - - 1 1 - riod (years) Actual 1 - 1 1 (1)1 - - 1 1 na Net present Ideal (2,363)1 12,116 8,855 9,084 14,478 11,217 11,447 (3,261)1 (3,032)1 229 value (thousand kip) Actual (2,363)1 11,567 8,306 8,535 13,929 10,668 10,898 (3,261)1 (3,032)1 na Cost-effectiveness measures Cost per Ideal 16,267 6,749 29,203 43,980 (9,518)1 12,936 27,712 22,454 37,231 14,776 DALY averted (thousand kip) Actual 16,267 6,749 29,203 43,980 (9,518)1 12,936 27,712 22,454 37,231 na Cost per case Ideal 122 51 220 331 (72)1 97 208 169 280 111 averted (thousand kip) Actual 122 51 220 331 (72)1 97 208 169 280 na Cost per Ideal 322,806 133,924 579,503 872,726 (188,882)1 256,698 549,920 445,580 738,802 293,222 death averted (thousand kip) Actual 322,806 133,924 579,503 (96,222) (188,882)1 256,698 (419,028) 445,580 (230,146)1 na 1 Parentheses denotes negative number 134 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE K2: SITE 2 (RURAL), EFFICIENCY MEASURES FOR MAIN GROUPINGS OF SANITATION INTERVENTIONS, COMPARING DIFFERENT POINTS ON THE SANITATION LADDER From/to Private toilet to Sce- Shared wet pit latrine Shared toilet to septic tank Item septic tank nario Shared toilet to Private wet pit Private toilet to Private wet pit Private toilet to Private toilet to septic tank latrine septic tank latrine septic tank septic tank Cost-benefit measures Benefits per Ideal 0.3 1.0 0.4 3.0 1.1 0.4 kip of input (kip) Actual 0.3 1.0 0.4 3.0 1.1 0.4 Pay-back Ideal - - 1 - 1 1 period (years) Actual 1 - 1 (1) - 1 Net present Ideal (2,853) 6,794 3,230 9,647 6,083 (3,564) value (thousand kip) Actual (2,853) 5,962 2,398 8,815 5,251 (3,564) Cost-effectiveness measures Cost per Ideal 16,788 3,852 24,826 (12,936) 8,037 20,974 DALY averted (thousand kip) Actual 16,825 3,860 24,879 (12,964) 8,055 21,019 Cost per case Ideal 124 28 183 (95) 59 154 averted (thousand kip) Actual 124 28 183 (95) 59 155 Cost per Ideal 296,207 67,965 438,015 (228,243) 141,807 370,050 death averted (thousand kip) Actual 296,847 68,112 438,961 (228,736) 142,114 370,849 www.wsp.org 135 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE K3: SITE 3 (RURAL), EFFICIENCY MEASURES FOR MAIN GROUPINGS OF SANITATION INTERVENTIONS, COMPARING DIFFERENT POINTS ON THE SANITATION LADDER From/to Item Scenario Shared wet pit latrine Private dry pit latrine Private dry pit latrine Private wet pit latrine Private wet pit latrine Cost-benefit measures Benefits per kip of Ideal 1.1 1.0 0.9 input (kip) Actual 1.2 1.0 0.9 Ideal - - - Pay-back period (years) Actual - - - Net present value Ideal 4,499 4,218 (280) (thousand kip) Actual 4,025 3,744 (280) Cost-effectiveness measures Cost per DALY Ideal (12,936) 8,037 20,974 averted (thousand kip) Actual (12,964) 8,055 21,019 Cost per case averted Ideal (95) 59 154 (thousand kip) Actual (95) 59 155 Cost per death Ideal (228,243) 141,807 370,050 averted (thousand kip) Actual (228,736) 142,114 370,849 136 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE K4: SITE 4 (RURAL), EFFICIENCY MEASURES FOR MAIN GROUPINGS OF SANITATION INTERVENTIONS, COMPARING DIFFERENT POINTS ON THE SANITATION LADDER Item Scenario From private dry pit latrine to private wet pit latrine Cost-benefit measures Ideal 0.9 Benefits per kip of input (kip) Actual 0.9 Ideal - Pay-back period (years) Actual 1 Ideal (280) Net present value (thousand kip) Actual (280) Cost-effectiveness measures Cost per DALY averted Ideal 987 (thousand kip) Actual 1,052 Cost per case averted Ideal 7 (thousand kip) Actual 8 Cost per death averted Ideal 17,870 (thousand kip) Actual 19,039 TABLE K5: SITE 5 (URBAN), EFFICIENCY MEASURES FOR MAIN GROUPINGS OF SANITATION INTERVENTIONS, COMPARING DIFFERENT POINTS ON THE SANITATION LADDER Item Scenario From private wet pit latrine to private toilet to septic tank Cost-benefit measures Ideal 0.4 Benefits per kip of input (kip) Actual 0.4 Ideal 4 Pay-back period (years) Actual 5 Ideal (3,261) Net present value (thousand kip) Actual (3,261) Cost-effectiveness measures Cost per DALY averted Ideal 21,102 (thousand kip) Actual 22,234 Cost per case averted Ideal 166 (thousand kip) Actual 175 Cost per death averted Ideal 381,587 (thousand kip) Actual 402,049 www.wsp.org 137 Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE K6: SENSITIVITY ANALYSIS: NET PRESENT VALUES (IDEAL SETTING, THOUSAND KIP, SITE 1) Shared wet pit Shared toilet to Private wet pit Private toilet to Private toilet to Experimenta latrine septic tank latrine septic tank sewer Baseline 7,084 4,721 19,200 15,939 16,168 1 3,680 1,318 7,642 4,381 4,183 2 19,840 17,477 62,513 59,252 61,054 3 7,267 4,904 19,383 16,122 16,446 4 7,450 5,088 19,566 16,305 16,740 5 7,119 4,757 19,235 15,974 16,217 6 6,582 3,952 18,208 14,230 10,608 7 6,870 3,594 18,986 14,811 11,935 8 6,368 2,825 17,994 13,103 6,381 9 12,361 9,282 30,132 26,733 28,636 10 4,046 2,288 11,248 8,155 7,769 a The experiments in the analysis are as follows: (1) Using national GDP instead of “provincial GDP”; (2) 100% of time for adults and 50% of time for children (people under 15 years); (3) 10% increase in diarrhea incidence rates; (4) 10% increase in incidence rates of all diseases; (5) 10% increase in diarrheal mortality rates at same incidence rates; (6) 50% increase in investment costs; (7) 50% increase in recurrent costs; (8) 50% increase in investment and recurrent costs; (9) discount rate is half the value in the baseline; (10) discount rate is double the value in the baseline 138 Economic Assessment of Sanitation Interventions Economic Assessment of Sanitation Interventions in Lao People’s Democratic Republic | Annex Tables TABLE K7: BASIC FEATURES OF SANITATION PROGRAMS Funding Start End Implementing Implementing No. Project Name Sites Output source year year agency(ies) approach 1 Northern and Central Multiple sites ADB 2005 2010 Government Ministry Water and sanitation Supply driven Regions Water Supply including Nan of Public Works and hardware and Sanitation Project District (Luang Transport (MPWT) (WSSSP) Prabang -Department of Province).a Housing and Urban Planning (DHUP) with support from the Asian Development Bank (ADB) 2 Houaphanh Health Houaphanh Concern 2007 2012 Lao Ministry of Water and sanitation Community-led Development Program. Worldwide Health’s Center for software total sanitation Environmental Health and demand and Water Supply driven (NAM SAAT) staff with support from Concern Worldwide 3 Primary Health Care Houaphanh DRC and Lao 2003 2008 NAM SAAT staff with Water and sanitation Supply driven Programme - Phase II. Red Cross support from Danish hardware and (LRC) Red Cross (DRC) software 4 Water and Sanitation Meun and Nan Lao Red 2009 LRC staff with support Water and sanitation Supply driven project in Meun Districts Cross - from NAM SAAT hardware and Nan districts (3 International villages) Committee of the Red Cross (ICRC) 5 Environmental Hatsady Asian Institute 2007 2010 National Public Works Water and sanitation Supply driven Sanitation Upgrading Tai village, of Technology Institute (NPWI) hardware and project Vientiane (AIT), Bangkok hardware Capital 6 Strengthening National Champone Belgian 2003 2006 NAM SAAT Sanitation hardware Supply driven Water Supply and District, Technical Sanitation Strategy Savannakhet Cooperation Program Province (BTC) a The other sites are Kenethao (Sayaboury Province), Houn (Oudomxay Province), Keo Oudom (Vientiane Province), Xanakham (Vientiane Province) Khoun (Xiengkhouang Province), Xamtai (Houaphanh Province), Sing (Luang Namtha Province), Ngoi (Luang Prabang province), Namor (Oudomxai province), Namkeung (Bokeo province) and Old Namtha (Luang Namtha Province). www.wsp.org 139