Policy Research Working Paper                       8927




Unfortunate Moms and Unfortunate Children
      Impact of the Nepali Civil War on Women’s Stature
                 and Intergenerational Health

                                 Lokendra Phadera




Poverty and Equity Global Practice
June 2019
Policy Research Working Paper 8927


  Abstract
 This paper analyzes the long-term health impacts of Nepal’s                        is detrimental to her child’s health. Mothers exposed to
 1996–2006 civil conflict. It exploits the heterogeneity in                         conflict during their childhood have more children and
 conflict intensity across villages and birth cohorts to docu-                      live in less wealthy households, likely reducing their ability
 ment long-term health and intergenerational impacts. The                           to invest during their children’s critical period of physical
 analysis finds that childhood exposure to conflict and, in                         development. The finding points to a potential trade-off
 particular, exposure starting in infancy, negatively impacts                       between the quantity and quality of children. The paper
 attained adult height. Each additional month of exposure                           uses information on monthly conflict incidents at the vil-
 decreases a women’s adult height by 1.36 millimeters. The                          lage level, which allows identifying identify the effects of
 impacts are not limited to first-generation. The analysis also                     exposure to conflict more accurately than prior studies.
 finds that a mother’s exposure to conflict in her childhood




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 provide open access to its research and make a contribution to development policy discussions around the world. Policy
 Research Working Papers are also posted on the Web at http://www.worldbank.org/prwp. The author may be contacted at
 lphadera@worldbank.org.




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       Unfortunate Moms and Unfortunate Children: Impact of the

       Nepali Civil War on Women's Stature and Intergenerational

                                                              ∗
                                                  Health


                                                                    †
                                            Lokendra Phadera



                                Poverty and Equity Group, World Bank




Keywords: Civil Conict; Adult Height; Intergenerational Health; Nepal
JEL Classication: I12; J13; O12




   ∗
     I am grateful for guidance from Benjamin Crost, Richard Akresh, Rebecca Thornton, Hope Michelson, Mary
Arends-Kuenning, and Alex Winter-Nelson. Mateus Nogueira Meirelles De Souza and Bhim B. Phadera provided
excellent research assistance. I am thankful for comments from Aine McCarthy, Derek Headey, Jennifer Alix-Garcia,
the participants of the 16th MWIEDC, and the IFPRI's PHND Brown Bag Seminar.
   †
       E-mail: lphadera@worldbank.org
1       Introduction

    The environmental conditions experienced           in utero   and in early life have profound inuence on


human biology and long-term health (Golden, 1994; Martorell et al., 1994; Forsdahl, 1977; Barker,


1992; Bateson et al., 2004; Gluckman et al., 2007, 2008). Similarly, early life conditions have lasting


and signicant impacts on adult economic outcomes (see reviews by Strauss and Thomas, 2008; Cur-


rie and Vogl, 2013). These ndings are highly relevant in the context of civil conicts, which cause


considerable human suering, death and property destruction.                  Despite the potential for conict


to contribute to lasting health impacts, the empirical evidence on long-term and intergenerational


eects of conict on health is limited.
                                            1   Lack of conict data at detailed geographic scale has made


it dicult to measure precisely the consequences of conicts.


    In this paper, I investigate the impacts of early childhood exposure to Nepal's 1996-2006 civil


conict on women's nal adult height and on second-generation health using the 2016 Nepal De-


mographic Health Survey (NDHS) and village-level variation in conict intensity.                      By exploiting


detailed geographic information on conict incidents (village-level conict intensity), I am able to


identify the eects of exposure to conict more accurately than previous research.
                                                                                                  2   The literature


on the consequences of war, including in Nepal
                                                       3   has thus far mostly focused on conict variation at

    1
       Previous studies have documented long-run eects at the cross-country level, suggesting conicts have large and
negative immediate eects on overall economic growth. However, the recovery to equilibrium is rapid (see review by
Blattman and Miguel, 2010). Correlated with war exposure, the literature has extensively documented long-run eects
of exposures to stress on mental health (Persson and Rossin-Slater, 2018), height and diseases (Bozzoli et al., 2009),
birth weight (Camacho, 2008; Quintana-Domeque and Ródenas-Serrano, 2017), and education and socioeconomic
status (Almond, 2006). Previous research on conict has mostly focused on human capital accumulation during
or shortly after conict (Akresh and De Walque, 2008; Bundervoet et al., 2009; Valente, 2014; Akresh et al., 2014;
Pivovarova and Swee, 2015). A few recent studies have focused on the long-term impact of conict on human capital
accumulation, with some nding no eect (Miguel and Roland, 2011) and others (Akresh et al., 2012; León, 2012;
Justino et al., 2014; Palmer et al., 2016; Akbulut-Yuksel, 2017) nding signicant negative impacts. Domingues and
Barre (2013) nds that the exposure to Mozambican civil war during childhood had adverse eect on women's adult
height-for-age z-score.
     2
       A common approach in the literature is to exploit conict variation at a broader regional level, which has the
potential to misclassify one's exposure to conict and induce measurement errors. For instance, using detailed GPS
data on distance between survey villages and conict sites, Akresh et al. (2014) show that substantial number of
households in Eritrea were misclassied as being in non-conict region in the Akresh et al. (2012) paper that used
less precise regional conict data and there are signicant dierences in the estimated eects of the Eritrea-Ethiopia
conict between the two measures of the conict: eects are 87-188% larger using the GPS based measure than the
regional based measure of the conict.
     3
       Previous studies of Nepal's civil war are mostly focused on understanding the causes of the war: geographical
terrain (Murshed and Gates, 2005; Bohara et al., 2006; Do and Iyer, 2010; Menon and van der Meulen Rodgers,
2015), economic exclusion and poverty (Murshed and Gates, 2005; Onesto, 2005; Do and Iyer, 2010), inequality
(Murshed and Gates, 2005; Macours, 2011; Nepal et al., 2011), and lack of political representation (Murshed and
Gates, 2005; Bohara et al., 2006; Macours, 2011). The little evidence documenting the consequences of the war,
thus far, is focused on district level disaggregation and results are mixed - little to zero impact on human capital
accumulation (Valente, 2014; Pivovarova and Swee, 2015), increased miscarriages (Valente, 2015) and positive impact

                                                           1
a broader regional level (see Valente, 2014, 2015; Pivovarova and Swee, 2015; Akresh et al., 2012).


Moreover, this study extends the literature on legacies of war by documenting the long-term eect of


exposure to conict on women's nal adult height. Along with Akresh et al. (2018), which examines


the impacts of the Biafran war using the variation in exposure to the war by ethnicity, this is among


the rst papers to document the intergenerational transmission of the impact of early childhood


conict exposure on second generation health.


    Nepal experienced a decade-long violent civil conict between 1996 and 2006, which resulted in


more than 13,000 fatalities, destroyed considerable infrastructure, hindered delivery of basic services,


and generated pervasive and strong feelings of fear, insecurity, and stress among its citizens. I use


the Informal Sector Service Center's (INSEC) records of conict victims to create a casualty-level


data set with exact geographical locations (villages) and dates of incidents.              I merge the village-


level conict intensity data with the 2016 Nepal Demographic Health Survey (NDHS), which is a


nationally representative survey of the female population aged 15 to 49. I limit the analytical sample


to women who were either born before or who were            in utero at the start of the war in February 1996
to assess the lasting impact of conict on height. In 2016, these women were old enough (20 to 49)


to be sampled in the ever-married NDHS 2016 women sample and had documented survey responses


about their children that can be used for second-generation analysis. Limiting the sample to women


born before the conict's start date also reduces potential confoundedness through selective fertility


and migration (further discussed in empirical strategy section 4). I rely on the biomedical literature


that height development in human beings is characterized by rapid growth during the rst three


years of life, followed by lower level of constant growth and then a secondary growth spurt during


adolescence (Figure A.5), and classify women into three treatment cohorts, namely: ages 0 to 3, 4


to 8, and 9 to 15 at the start of the war in February 1996. While women in age cohort 0 to 3 would


have been exposed to conict throughout their entire three stages of growth, the age cohorts 4 to 8


and 9 to 15 would have been exposed only in their latter stages of growth. I dene women ages 16 to


21 in 1996 as a comparison group because they would have passed their pubertal ages and attained


full adult height by the time of the conict's start in 1996. I also include women ages 22 to 29 as a



on women's employment (Menon and van der Meulen Rodgers, 2015). Libois (2016), on the other hand, using conict
measurement at more detailed geographical area (distance from the conict sites) nds signicant negative immediate
impact on consumption and income. Failure to capture the substantial conict heterogeneity across villages within
district, thus, may explain the little or no impact of conict at the district level.

                                                        2
second control group to validate parallel-trend dynamics in dierence-in-dierence specication.


   This research makes two primary contributions to the literature on the legacies of war. First,


using the variation in exposure to conict, as measured by months of war, by birth cohort and


village of residence, I nd that conict and, in particular, exposure starting in infancy, has a


highly signicant and negative impact on women's nal adult height. Findings are robust across


model specications and measures of conict. In validating the dierence-in-dierences estimation


strategy used, I nd no evidence of presence of non-parallel dynamics nor of selective migration and


fertility. These results are important given increasing evidence of the lasting impacts of stunting and


slow growth in height early in life on overall physical, biological and cognitive development, school


achievement, economic productivity and maternal reproductive outcomes (see review by Dewey and


Begum, 2011). Additionally, given the established literature on the existence of a height premium


(Persico et al., 2004; Case and Paxson, 2008; Vogl, 2014; Bargain and Zeidan, 2017), these results


have important economic importance.


   A second contribution: I nd that the mothers' exposure to conict is detrimental for their


children's health, especially child weight as measured by weight-for-height, weight-for-age and BMI


z-scores. As with the rst generation impacts, the second generation results are robust to alternative


measures of conict intensity, including the one where I dene a mother's exposure to conict at her


district of birth. I nd strong evidence that the women exposed to conict during childhood have


more children and live in poorer households as adults. The combination of these two factors may


result in meaningful decreases in parental ability to invest in children. Increased fertility, and, hence,


burden of feeding more mouths may negatively aect children's health. However, other unobserved


factors such as stress and genomic changes may also inuence the intergenerational transmission.


   This paper links to three important strands of economics literature.           First, the established


literature of   in utero   and early life shocks on adult outcomes (see review by Almond and Currie,


2011) and that insucient or lack of parental investment during critical periods of child development


can lead to irreversible damage (Cunha and Heckman, 2007).             Second, the paper is related to


the literature providing strong positive intergenerational human capital transmission (Currie and


Moretti, 2003, 2007; Almond et al., 2012; Justino et al., 2014; Bhalotra and Rawlings, 2013). Third,


combining the negative second generation health impacts and nding indicating increased fertility


among the rst generation point to the Becker and Lewis's (1973) child quality-quantity trade-o



                                                    3
hypothesis.
              4

    The reminder of the paper is organized as follows. Section 2 provides the background on Nepal's


civil conict, major events that helped shape the war, and the physical and economic costs of


the war. Conict intensity from the INSEC's database and individual data from the 2016 NDHS


are discussed in section 3.         Section 4 presents empirical strategies for evaluating both the rst


and second-generation impacts. Empirical results along with identication validation and potential


mechanisms for intergenerational transmission are presented in section 5 and concluding remarks


are presented in section 6.




2       Background

    Nepal is a landlocked country between India and China.                    Because of its highly mountainous


and rugged terrain and lack of adequate infrastructure and economic development, most parts of


the country remain remote, and access to basic services remains unattainable to many. With two-


thirds of its 30 million inhabitants (estimated as of July 2017) relying on agriculture and a quarter


living under the poverty line, Nepal is one of the least developed nations in the world (CIA World


Factbook, 2019) and is among the lowest in health, sanitation, primary education and electricity in


South Asia.


    Figure A.1 shows the administrative divisions of Nepal before the implementation of a new


constitution in 2015. The country was divided into ve geographically homogeneous development


regions, which were further divided to form 75 districts. Districts were further divided into rural


(village development committee, VDC) and urban (municipalities) areas, which were the lowest


level of administrative units. At the time of the 2011 population census, Nepal consisted of 3,914


VDCs and 58 municipalities (Central Bureau of Statistics, 2012). I calculate conict intensity at


the level of these 3,972 local administrative areas.
                                                             5




    4
      Along these lines, Nepal et al. (2018) nd that Nepal's civil conict increased women's desired and actual fertility
during the conict by 22 percent.
    5
      For convenience, throughout the paper I refer to these local administrative units as villages although some are
technically urban municipalities.

                                                            4
2.1 Conict in Nepal
   For most of modern history, Nepal was governed by absolute monarchs.             In the early 1990s


several political parties launched pro-democracy street protests, known as the Jana Andholan


(People's movement), leading to the emergence of multi-party democracy and the introduction of a


new constitution. Despite participating in the 1991 legislative democratic elections and winning 9


of the 205 parliamentary seats, the Communist Party of Nepal Maoist (CPN-M) launched an armed


struggle, the so-called People's War, against the state on February 13, 1996 (or in Nepali calendar


2052 Falgun 1 Bikram Sambat).        A week before the conict's start, the CPN Maoist submitted


a 40-point memorandum to the government and warned of armed militant struggle if demands


were not met. Demands included drafting a new constitution through an election of a constituent


assembly; land redistribution; and political equality for all castes, language groups, and women.


The government refused to meet the demands of the Maoists. In response, the Maoists attacked an


agricultural bank and three police posts in rural western Nepal and formally launched the People's


War".


   Over the following decade, the insurgency developed into an entrenched and brutal country-wide


civil war. By the end of the insurgency, conict related killings were recorded in 73 of the 75 Nepalese


districts. Figure 1 presents the timeline of the war including major events that shaped the conict


and monthly casualty numbers. As part of the Maoists' strategy, in the early years of the insurgency


they launched a guerrilla warfare mostly harassing police forces and garnering support in a few


rural areas with communist strongholds (Thapa and Sijapati, 2004). Nepal's remote terrain, under-


development, extreme rural poverty, deeply rooted caste and ethnic discrimination, sentiments of


political and economic exclusion among rural communities, and lack of government presence in rural


areas propelled the Maoists' cause further (Onesto, 2005). The initial inability of the government


to recognize the underlying problems that fueled the conict and to acknowledge the connection


between armed conict and political, economic, and social grievances of the period enabled small


communist political elites to mobilize a large base and eventually challenge the government militarily


and politically (Kreuttner, 2008).


   The year 2001 was a crucial moment for the insurgency.          In June 2001, the killing of King


Birendra along with most of his immediate family members in a royal massacre shocked the nation.




                                                   5
The King's brother, Gyanendra, was then crowned King. A conspiracy theory emerged centering


on Gyanendra's possible involvement in the massacre and questioning the ndings of the ocial


investigation further destabilized the country, increasing distrust in the government and the King


(Thapa and Sijapati, 2004). A state of emergency was declared in November 2001 and the Royal


Nepal Army (RNA) ocially became involved in the war after the Maoists walked away from a


two-month long ceasere and attacked an RNA barrack.          Thereafter, the conict intensied and


extended geographically.   As illustrated in Figure 1, most killings occurred after 2001.    However,


the insurgency drastically changed its course after King Gyanendra, citing prolonged conict and


growing attacks by the Maoists, dismissed the elected government, placed major political gures


under arrest, and assumed direct control over the country in February 2005. Joining the widespread


disapproval of the King's actions, the Maoists formed a pact with seven major political parties to


present a common front against the monarchy. This eventually led to the signing of a peace accord


in November 2006 (or 2063 Mangshir Bikram Sambat), the formation of an interim seven party plus


the Maoists coalition government, and an ocial end to the war. At the time of the signing of the


peace agreement, the death toll of the war had reached more than 13,000 (Table 1).


   The CPN Maoist's presence across the country over the course of the conict varied greatly.


While the Maoists had a weak presence in urban areas  failing to control even a single city or a


district headquarters  they dominated rural Nepal. In October 2003, they declared control over


80% of rural areas (Onesto, 2005) and in many places established fully functional local governments


and law courts of their own. They also, however, selectively targeted government forces, attacking


army barracks and police posts in urban areas and destroying local government buildings (Do and


Iyer, 2010). There were widespread human rights violations and abuses throughout the insurgency


by both the government forces and the CPN Maoists (OHCHR, 2012). Physical assault, abduction,


and torture of civilians, and looting of individual properties by the Maoists were reported extensively


throughout the conict (Bohara et al., 2006). The security forces, on the other hand, were the major


perpetrators of sexual violence, arbitrary arrests and disappearances of civilians and were accused


of murder, torture, mutilation, and other cruel and inhumane treatment of civilians to extract


information from anyone they deemed appropriate (OHCHR, 2012).




                                                  6
2.2 Consequences of the Civil Conict and Mechanism
    The conict had widespread impact on economic development and severely hampered delivery


of government services.        The Maoists' unocial motto of Destruction before construction" was


very popular among its cadres and was heavily advertised (Nepal, 2004).                  Maoists destroyed key


infrastructure linking urban areas to their rural strongholds and sabotaged public delivery systems.


Maoists often targeted rural bridges that linked rural to urban areas and district headquarters, and


in many parts of the country, destroyed health posts, drinking water systems, public communication


systems, and schools (Jha, 2008). Between 1996 and 2003, physical infrastructure worth at least


$250 million was destroyed (Mahat, 2006) and the cost of the conict was estimated at $66.2 billion


(Ra and Singh, 2005).


    The conict in Nepal is likely to have aected adult health and economic outcomes in multiple


ways including direct physiological and mental stress, nutritional shocks and reduced access to


health care.
               6   First, the conict severely aected the delivery of government services in rural areas;


in particular, decreasing health care delivery. Hundreds of community health posts were destroyed;


several health care workers were killed; many ed their posts; and cold-chain delivery of vaccines


became impossible (Singh, 2004). Second, the conict likely led to direct physiological and mental


stress on residents, especially rural residents. As reported in Table 1, by the end of the conict,


more than 13,000 people had lost their lives, and more than 1,500 people were either disappeared,


injured, or disabled. Among the family members of these casualties (estimated between 400,000 and


500,000), many suered from mental and psychological trauma (Media Foundation, 2011). Third,


many lost their sources of income, were displaced, widowed, and many children were orphaned.


Fourth, the complete disruption of public delivery systems came as a major shock to nutrition and


food security, especially in the northern region that had relied heavily on the government-subsidized


rations.




   6
      See Akresh et al. (2018) for the discussion of mechanisms through which stress and inadequate resources during
civil conict are likely aect health.

                                                         7
3    Data

    One of the major impediments to analysis of conict is the lack of conict data at suciently


granular geographic scale.   Most of the literature on the legacies of war therefore is focused on


assessing the eects of conict intensity at relatively high geographical levels. For example, previous


studies exploring the determinants of Nepal's civil conict (Murshed and Gates, 2005; Bohara


et al., 2006; Do and Iyer, 2010; Macours, 2011) and the consequences of the conict (Valente, 2014;


Pivovarova and Swee, 2015; Menon and van der Meulen Rodgers, 2015) exploit variation in intensity


of the insurgency at district level or even higher geographical units. Dening conict variables at


a broader geographical level measures individuals' exposure to conict less precisely and can create


measurement error.    Moreover, signicant heterogeneity in geography, socioeconomic status and


development among areas within districts can create diculty in addressing the association between


the determinants of war at teh district level and explained variables of interest, likely leading to


omitted variable bias.


    In contrast, this analysis uses detailed and geographically granular conict intensity data; i.e.


village-level insurgency. As households within a village tend to be highly homogeneous in socioe-


conomic status and ethnicity and live in the same geographical terrain, this paper is able to avoid


many of the concerns induced by the imprecise measurement of individuals' exposure to conict.


Additionally, combining these high-resolution conict data with the 2016 Nepal Demographic Health


Survey (NDHS 2016) allows me to explore the impacts of the conict on the children of individuals


who were exposed to the war in their own childhoods.




3.1 Conict Data
    I use the Informal Sector Service Center's (INSEC) records of the conict victims to create con-


ict intensity variables. INSEC is an active Nepalese non-governmental human rights organization.


Throughout the war, INSEC documented human rights violations and abuses extensively and its


archive of the casualties provides detailed information on each victim's demographic, social and


economic characteristics. The database is considered the most reliable data source on casualties of


the conict. Numerous studies including Do and Iyer (2010); Nepal et al. (2011); Valente (2014,


2015) and Libois (2016) have used the database. I extract demographic, educational achievement,




                                                  8
social and economic characteristics, and political aliation of each victim.                  Most importantly, I


extract exact geographical location (village) and the date of the incident.


      Table 1 reports descriptive statistics of the war fatalities. In total the INSEC data set contains


information on 14,982 victims; most (13,210) are fatal casualties. More than 60% of the casualties


are perpetrated by the state.           The CPN Maoists deny exploiting the grievances among ethnic


groups regarding political, social and economic exclusion to advance their agenda.                   However, the


majority of their cadres belonged to ethnic groups such as Magars, Gurungs, and Dalits of the hills


and mountains. It is, therefore, not surprising that the majority of casualties among the Maoists


are ethnic minorities (60% not reported) and more than half of the total victims are also from


the minority groups.        Apart from attacking security forces, the Maoists also frequently targeted


upper caste civilians, especially Bramins and Chhetris; these upper castes the Maoists labeled as


counterrevolutionary elements. The average age of the victims is 28.3 years and almost 90% are


male. Many were actively involved in politics- 54% are aliated to either the rebel party or other


political parties.


      The conict intensity varied greatly over time. I summarize the number of monthly casualties


and major events that helped shape the insurgency in Figure 1.                     As illustrated, the period after


2001 when the country was under the state of emergency and the RNA was actively involved was


the bloodiest. The conict lasted for total of 131 months from February 1996 to November 2006.


Using information on each victim's village and date of incident, I dene months of warv in a village,


v,   as the baseline conict intensity variable, constructed as follow:


                                                                      131
                                conictv 1   = months   of warv   =         1(casualtyvm )
                                                                      m=1                                       (1)

                                        with   1(casualtyvm ) = 1     if casualtyvm   >0


and subscripts    v   and   m   index a village and a month since the beginning of the war i.e. m takes


the value of 1 for February 1996 and 131 for November 2006.                      Variable casualtyvm is number of


casualties in a village     v   in a month   m.

      Villages in Nepal experienced dierent levels of conict as illustrated in Figure 2, which depicts


the number of months each village experienced conict out of the total 131 months of the war. The


intensity of the conict varied substantially across villages within districts.              Dening the conict



                                                           9
intensity as in Equation (1), however, may create a possibility of under measuring the conict


intensity  for example, a village could be under the siege of the Maoists, reducing access to public


services but without any casualties; similarly, one-o destruction of infrastructure could have longer-


term ramications. Unfortunately, we do not have records on infrastructure damages during the


conict. Nonetheless, total months of exposure to conict and casualty count is used extensively


in the literature to measure conict intensity and assuming classical measurement error, because of


the tendency to attenuate towards zero, the estimated coecients will provide lower bound of the


conict impacts. Additionally, I use several other measures of conict intensity as below:


                                                                        131
                        conictv 2    = number   of casualtiesv    =           casualtyvm          (2)
                                                                        m=1


                                                                  131
                       conictvN 1    = months   of warvN     =         1(casualtyvN m )           (3)
                                                                  m=1

                                                                         131
                     conictvN 2    = number   of casualtiesvN     =           casualtyvN m        (4)
                                                                        m=1

                                                                  131
                       conictv 50a   = months   of warv 50   =         1(casualtyv50m )           (5)
                                                                  m=1

                                                                         131
                     conictv 50b   = number   of casualtiesv 50   =           casualtyv 50m       (6)
                                                                        m=1

   Conict intensity based on Equation (2), measure of total casualties in a village over the duration


of the war, is illustrated in Figure A.2.    Again, the measure exhibits signicant variation across


villages and the intensity pattern is highly similar to Figure 2. The next four Equations (3) to (6)


are dened at higher geographic level with the consideration for potential spatial spillovers  conict


in nearby villages may induce stress, limit one's access to health care or other services.       While


Equations (3) to (4) are months of war and casualty counts, respectively, in a village including in its


contiguous neighboring villages (N), Equations (5) to (6) report months of war and casualty count


in a village including the villages around 50-kilometer radius from the center of the village.




                                                     10
3.2 Individual Data
   I also use the 2016 Nepal Demographic Health Survey (NDHS 2016) in the analysis. The survey


was implemented by New ERA under the aegis of the Ministry of Health of Nepal and was funded


by the United States Agency for International Development (USAID). The data collection took


place between June 19, 2016 and January 31, 2017.


   The NDHS 2016 is a nationally representative survey of the female population ages 15 to 49.


The sampling frame for the survey was based on the updated version of the 2011 Nepal Population


Census. After the implementation of the 2015 constitution, based on the population several VDCs


and Municipalities within districts were merged to form rural development areas and urban areas.


The old Village Development Committees (VDC) in the rural and enumeration areas (EAs) in urban


places essentially form primary sampling units (PSU) for the 2016 NDHS. In the nal sample, 383


clusters or PSUs were selected with probability proportional to their population size (see Ministry of


Health, 2017). Figure A.3 illustrates the coverage of the survey. All 75 districts except Manang and


Mustang were sampled; however, these two districts also had zero casualties during the conict and


are excluded from the baseline analysis. As illustrated in Figure 3 (months of war) and Figure A.4


(casualty count), conict intensity varied signicantly across the 383 NDHS villages (clusters).


   Within the selected DHS clusters, 30 randomly selected households were interviewed, and all


women aged 15 to 49 who were permanent residents or visitors who stayed in the household the night


before were eligible for the interview. A sub-sample of about half of the households were selected


for biomarker information. All children aged 0 to 59 months and women 15 to 49 years in these


households were administered the anthropometry, hemoglobin, and blood pressure measurements.


I limit the analytical sample to those that are born before or were   in utero   during the start of the


conict in February 1996 so that they are old enough to be sampled in the ever-married NDHS 2016


women sample and have children that can be incorporated in the second-generation analysis. The


nal analytical sample size is 4,421 women ages 20 to 49 at the time of the survey (0 to 29 at the


start of the conict) and their 2,168 under age 5 children.


   Table 2 summarizes women's health outcomes and their exposure to conict and demographic


characteristics. I divide women into two cohorts: ages 0 to 15 (treatment) and 16 to 29 (control) at


the time of the start of the conict. While the women in the former cohort would have still been in




                                                 11
a period of physical growth during the conict years, the latter cohort would have already gained


full adult height (detail discussion is presented in empirical strategy section 4). On average, women


in the sample are 151.6 centimeters tall, with the younger treated cohort 0.46 cm taller on average.


Similarly, compared to the control cohort, treated cohorts are less likely to have had any incidence


of pregnancy loss, report having had fewer live births, were slightly younger at rst birth, attained


more years of education, and were less likely to be employed at the time of the survey. However,


there is no dierence in economic status (wealth index) between the two groups.


    By construction, the older cohort faced zero level of conict during the rst 15 years of life


(Panel B.1). Balance in lifetime exposure to conict between the two sets of women (Panel B.2) is


reassuring for the empirical strategy used in section 4, which implies that the two groups do not come


from dierent types of sampled clusters. On average, women are 33.4 years old with treatment and


control cohorts being 27.9 and 41.8 years old respectively (Panel C). Women in treatment groups


are more likely to live in a household with a female head, are more likely to be of lower caste, and


are less likely to be from Eastern Development region. All other controls are balanced between the


groups.


    Summary statistics of the children sample is presented in Table 3.      Children are divided into


treated and control group by their mother's age at the start of the conict. 47% of the children


are girls and on average tend to be the second child (Panel C). There is no dierence in control


variables (Panel C) and health outcome variables between the two groups except treated children


are slightly taller. Panel B reports mother's exposure to conict. Again, it is reassuring that there


is no disparity in their mothers' lifetime conict experience.




4    Empirical Strategy

    Women surveyed in the NDHS 2016 experienced dierent levels of exposure to conict intensity


according to their village of residence and year of birth. The identication strategy exploits this


variation, specically, the variation in exposure to the conict during the individual's critical period


of physical growth.


    Height development in humans is characterized by three distinct stages. There is a rapid growth


during the rst three years of life, followed by a lower level of constant gain in height until the




                                                  12
start of adolescence and then a second growth spurt during adolescence ending in gaining full adult


height (Tanner et al., 1966a,b; Beard and Blaser, 2002; Bozzola and Meazza, 2012).                     Figure A.5


demonstrates height velocity curves for a typical boy and a typical girl. Under adequate nutritional


and environmental conditions, the height growth rate is highest during infancy, 26 centimeters per


year, and progressively declines until around age three, then stabilizes around 6 centimeters per year


until the start of puberty (Beard and Blaser, 2002; Bozzola and Meazza, 2012). Pubertal height


spurt among girls starts after age nine, peaks at about 12 years, and stops around the age of 15


(Figure A.5).


    I borrow these stylized facts from the clinical and bio-medical literature to establish causality.


NDHS collects individuals' month and year of birth, which I use to create the age of women at


the start of the conict in February 1996.          Figure 4 presents cohorts by age at the start of the


conict and potential exposure to conict at dierent stages of their physical growing periods. As


demonstrated in Figure A.5, girls past their pubertal age i.e. cohorts aged 16 to 21 and 21 to 29 in


1996 (control 1 and 2 respectively) would have gained full adult stature by the time of the start of


the conict, and the eect of the conict should be minimal or zero on their nal height. I use cohort


16 to 21 as the main comparison group and use cohort 22 to 29 as a control placebo experiment


in a dierence-in-dierence specication.         Based on their growing phases at the beginning of the


conict, I create three conict-exposed cohorts. Although in the important phase of adolescence


height spurt, girls aged 9 to 15 (treatment 3) would have faced conict only in their third phase


of height growth.     While girls aged 4 to 8 (treatment 2) would have been exposed to conict in


the second and third stages of growth, cohort 0 to 3 (treatment 1) would have been exposed to


conict through the entire growing period (all three stages).
                                                                      7   In the baseline specication, I dene


conict intensity at the village level, hence, all ve cohorts from any given village would have been


exposed to the same total amount of conict during their lifetimes. However, the exposure would


have started at dierent times of their lives.




   7
    These ve cohorts aged 0 to 3, 4 to 8, 9 to 15, 16 to 21, and 22 to 29 at the start of the conict in 1996 would
become 20 to 23, 24 to 28, 29 to 35, 36 to 41, and 42 to 49 at the time of the NDHS 2016 survey.

                                                        13
4.1 First Generation Impact
    To explore the impact of early childhood exposure to conict on adult outcome, I employ the


following estimation strategy:




                              Yimntcvdr =βc (conictv × λc ) + conictv + λc + αt + ηm
                                                                                                                           (7)
                                                    T
                                             δ v + γr + Xi + ωn + εimntcvdr


where   Y   is an outcome of a woman             i   born in month    m   and year       t,   interviewed in month    n,   and


residing in village      v,   district   d   and development region        r.    While women's adult stature is the


main outcome of interest, I also explore conict's impact on women's reproductive health, sexual


behavior, educational attainment, employment, and wealth. The independent variable of interest,


conictv    × λc ,   is constructed as a vector of age-cohort specic coecients.                    The baseline conict


intensity variable is months of war in a village; however, I also estimate the same equation using all


the other conict variables dened in the data section. Equation (7) also includes the main conict


variable, conictv , and cohort xed eects,             λc ,   as part of the independent variables. While           αt   are


year of birth xed-eects,        ηm     are month of birth xed eects added to control for any seasonality -


whether women were born in peak or lean season. While                     δv   are village (NDHS cluster) xed eects,


ε is a random, idiosyncratic error term.8             Equation (7) also includes ve development-region-specic


trends,
           T,
          γr    to isolate variance in a cohort's outcome in deviation from the long-run trend in her


development region of residence. The ve development regions were relatively homogeneous in terms


of development, geographical terrain and ethnic composition before the war.


    The socioeconomic status of the household is likely to play a signicant role in child development


and would be desirable to control for in the regression. Albeit observed 10 years after the end of


the civil war during the time of the survey, household characteristics may still be inuenced by the


conict.    Xi ,   therefore, includes only variables that are time-invariant.                   Contrary to the Maoists'


denial, ethnicity played an important role in the insurgency.                    Xi ,   therefore, includes indicators for


belonging to a high caste. In addition, month of the survey interview xed eects,                        ωn ,   are included


in the regressions to control for the variation in seasonality due to the timing of the survey.


    βc s in Equation (7) are the main coecients of interest.              Under a standard dierence-in dierences

   8
     I also estimate equation 6 using district xed eects instead and the results are robust. All the standard errors
are clustered at the village level to allow for the correlation among error terms within village.

                                                                14
model assumption and, in particular, under the assumption that there is no correlation between


village level conict and unobserved factors varying with village and birth year cohort within the


development region,     βc   coecients indicate the causal impact of early childhood exposure to civil


conict on adult stature. While interpreting the results, given the set of xed eects in Equation (7),


βc do not identify the eects at a national level.     Rather eects are identied due to women's exposure


to conict by village of residence and birth year cohort net of birth year trends common to all the


villages within the development region. The goal of the paper is to measure the total eect of the


conict on one's life and specication 7 does exactly that. Rather than measuring the impact of


exposure to conict at a specic period of one's life, it measures the cumulative impact of exposure


during one's entire growth period.
                                        9

    Studies exploring the determinants of the Nepal's civil conict have advanced several arguments


regarding the insurgency heterogeneity across Nepal including geographical terrain (Murshed and


Gates, 2005; Bohara et al., 2006; Do and Iyer, 2010; Menon and van der Meulen Rodgers, 2015)


economic exclusion and poverty (Murshed and Gates, 2005; Do and Iyer, 2010), inequality (Macours,


2011; Nepal et al., 2011), and lack of political representation (Murshed and Gates, 2005; Bohara


et al., 2006; Macours, 2011). These determinants of variation in insurgency intensity are, therefore,


likely to be correlated with the outcomes of interest, threatening the validity of the identication.


However, all these studies have focused on the determinants of the conict at the district level.


Therefore, the application to village level conict are at most minimal because unlike districts,


villages in Nepal are highly homogeneous in terms of ethnic composition, socioeconomic status,


and geography. A major advantage over previous studies of the conict is that this paper uses a


detailed geographical level conict intensity allowing for the inclusion of village-level xed-eects,


which eliminates any village-level time-invariant factors. The timing of the beginning of the conict


in women's lives within a village therefore forms the comparison divide in the estimation strategy.



   9
     A typical approach in the literature is to measure conict based on one's exposure at specic age and use xed
eects models to identify ages or age-periods during which the exposure was most critical as below:
             Yimntvdr =β0 + β1 × Exposure during 0 to 3 years + β2 × Exposure during 4 to 8 years+
                        β3 × Exposure during 9 to 15 years + αt + ηm + δv + γr
                                                                             T
                                                                               + Xi + ωn + εimntvdr

Conict variables are dened as woman's exposure to conict during her age of 0 to 3, 4 to 8 and 9 to 15 years and
all other variables have the same meanings as in Equation (7). The results are presented in Tables A.1 to A.2. While
important in identifying what part of one's life was important, the specication does not identify the overall impact
of the conict.

                                                         15
     Selective fertility and endogenous migration are other major concerns regarding the identication


strategy. As discussed in the data section, I limit the analytical sample to those who were already


born or       in utero    during the start of the conict in 1996.          Purely on identication prospective, it


helps limit the potential confoundedness between the explained variables of interest and selective


fertility and migration. For instance, the strategy helps mitigate the scenario in which after grasping


the seriousness of the war, couples that are highly concerned about their children's health in high


conict areas may choose to delay having children or migrate to low conict areas to start a family.


However, it could be true for the periods prior to the start of the conict that in anticipation of the


war concerned couples may have delayed having children or may have migrated. Detailed robustness


checks are presented in the empirical results section.




4.2 Intergenerational Health Impacts
     The gap between the start of the Nepal's civil conict and the time of the NDHS 2016 survey is


sucient enough that I can explore the impacts the conict had on the children of women who were


exposed to the war in their childhood. Anthropometric measures were collected for children under


the age of 5 at the time of the survey and hence I limit the second-generation sample to children


under 5 in 2016. I employ the same strategy as in Equation (7) and add child specic controls to


estimate. Following is the estimation equation:




                     Yjklnimtcvdr =βc (mother's        conict exposurev     × mother's   cohort(λc ))


                                         + mother's    conict exposurev    + λc + αt + ηm + δv                        (8)


                                            T
                                         + γr + +Xi + µk + θl + πn + Xj + εjklnimtcvdr


where     Y    is a health outcome of a child      j   whose anthropometrics were measured in month              n,    was


born in month        k    and year   l   to a woman    i   who was born in month      m   and year   t,   and resides in


village   v,   district   d   and development region       r.   Child health endowment is dened as function of all


mother's controls and exposure to war as dened in section 4.1 and child specic characteristics.


θl   are child's birth-year xed eects. As with mothers, child month of birth xed eects,                     µk ,   are


included to account for season of birth. Similarly, child anthropometric measures are sensitive to


the timing of the measurement; in particular child weight, hence, Equation (8) also includes month




                                                                 16
of measurement xed eects,     πn . ε   is a random, idiosyncratic error term and all the standard


errors are clustered at the village level to allow for correlation among error terms within villages.


Xj   is a vector of time-invariant child controls  dummy variables equal to one if the child is a


girl and if the child is a twin and child birth order xed eects. As in Equation (7),    βc s   are the


coecients of interest and have the same meaning as in Equation (7) but identify to the impact of


mother's childhood exposure to conict on her child's outcomes. The equation under the standard


assumptions of dierence-in-dierences models provides estimates of the causal impact of conict


on second-generation health.




5     Results

     In this section, rst I present the impact of childhood exposure on adult stature and establish


validity for the identication strategy. Second, I report impact on health and economic outcomes


that are very important to women's well-being, but also provide additional explanation for the


impact on second-generation health. Finally, I present the health impacts on the children of women


who were exposed to the war in their childhoods.




5.1 Impact on Women's Stature
     Table 4 presents the impact of early childhood exposure to conict on adult stature using


dierence-in-dierences Equation (7).      The conict intensity variable used is months of war in


the village of residence.   While the outcome variable, height, in columns 1 to 3 is measured in


centimeters, columns 4 to 6 present height-for-age standard deviation (HAZ). The possibility of


non-parallel dynamics" in the dierence-in-dierences estimation could be problematic. Because of


dierence in overall trends (health, education, poverty, environmental etc.), changes in adult stature


could vary systematically across villages and, in particular, there could be mean reversion. Given


the data structure, I can, however, test for the identication assumption. Besides the control group


(aged 16 to 21 in 1996), women in age cohort 22 to 29 in 1996 would have gained full adult height


by the start of the conict, hence, the changes in adult height between these two cohorts should not


dier systematically across villages. Age cohort 22 to 29 is therefore included in all the regressions


as a control to validate the identication assumption.




                                                  17
   Village xed eects are included in all specications. I start estimation with no additional con-


trols (column 1) and progressively include extra controls. Column 3 is the full baseline specication.


The estimated dierences-in-dierences for cohort 22 to 29 are close to 0 in size and statistically not


dierent from 0 across all specications and measures of height. This provides strong evidence that


the dierence-in-dierences coecients of interests are not driven by inappropriate identication


assumptions.


   Exposure to civil conict only during the pubertal spurt appears to have no signicant eect on


adult height. Across all specications, conict had statistically zero impact on height of the women


aged 9 to 15 in 1996 compared to women in the control group. On the surface, this nding is slightly


at odds with Akresh et al.'s (2018) analysis of Biafran war, where they nd conict intensity during


women's adolescent years to have signicantly negative impact on their adult stature.        However,


as illustrated in Figure 1, Nepal's conict started as a small-scale rebellion and only after 2001


developed into countrywide brutal civil war. Unlike the other two treatment cohorts in the paper,


most women in this age group would have escaped the most brutal phase of the civil conict during


their growing period. In addition, my identication strategy diers from Akresh et al.'s (2018) in


that women in this age group start facing conict only during their adolescent years.


   Women aged 4 to 8 in 1996, on the other hand, would have just entered or already be in their


adolescent spurt years when the conict started to intensify in 2001.Therefore, it is not surprising to


see the cumulative violence, which was at a lower level in the second growth stage and intense in the


third stage, has signicant and negative impact on their adult stature. Eects vary between 0.67 to


0.71 millimeters (0.011 to 0.012 sd) across the specications. The coecient in the full model can


be interpreted as: an additional month of exposure to civil war during the latter two stages of the


growing period decreases nal adult height by 0.71 millimeters or 0.012 sd.


   Besides being a period of a rapid growth, the rst three years are also the most sensitive period to


environmental inuences on height in human beings (Schmidt et al., 1995). Early childhood height


at ages 2 (Luo and Karlberg, 2000) and 5 (Satyanarayana et al., 1986), is a strong predictor of nal


adult height. Similarly, the pubertal growth spurt plays an important role in determining the nal


adult stature (Case and Paxson, 2008). Women in the age group 0 to 3 in February 1996, who would


have been exposed to conict during all three phases of growth, therefore would suer the most


from the conict compared to the other age groups. On average, girls aged 0 to 3 in 1996 suered



                                                  18
a reduction in adult height of 1.36 millimeters or 0.023 standard deviations due to an additional


month of exposure to conict during their entire period of physical development (Columns 3 and


6). The eect size is twice as big as the eect on the cohort aged 4 to 8 (0.071mm and 0.012 sd)


that experienced same level of violence but only after the age of 3, hence signifying the importance


of environmental inuences on height during the rst three years. The result is highly signicant


and robust across all specications and for both measures of height ranging from 1.22 to 1.36 mm


and 0.021 to 0.023 sd reduction in adult height.


   Figure 5 presents the impact of exposure to conict starting at dierent ages using the baseline


specication. Again, conict exposure in rst 8 years of life reduce adult height, however, ages 0 to


3 are the only ages that are statistically signicant. As discussed in the data section, I dene the


conict intensity variable multiple ways and results using the baseline specication are presented


in Table 5. Conict intensity used in column 1 is the number of casualties in one's own village of


residence. Consistent with the earlier ndings, among women who were aged 0 to 3 and 4 to 8 in


1996, increased casualties in the village of residence signicantly decreased their nal adult stature.


In columns 3, 4 and 5, I dene war intensity as months of war including the contiguous neighboring


villages and within a 50-kilometer radius from the village center.     Again, the results are robust,


especially among age cohort 0 to 3.


   Height has long been recognized as an important factor inuencing individuals' professional and


personal success.   Results presented in this section, thus, have important economic signicance.


Taller workers receive a wage premium.      An additional inch of height is associated with 1 to 3


percentage increase in earning among the British and American adults (Persico et al., 2004; Case


and Paxson, 2008). There is even greater height premium in lower income settings: an additional


centimeter of height is associated with a 2 percent increase in hourly earnings both in Mexico (Vogl,


2014) and Indonesia (Bargain and Zeidan, 2017). Using the results from Indonesia and Mexico, a


quick back-of-the-envelope calculation implies that an additional month of conict exposure starting


at infancy is associated with a decrease in hourly earnings of 0.27 percent.




5.2 Identication Validation
   In this section, I present additional evidence in support of the estimation strategy. In addition to


the possible presence of non-parallel dynamics discussed in the earlier subsection, selective migration



                                                   19
and fertility are other major threats to the identication strategy. The conict intensity variable


is dened at the level of an individual's village of residence at the time of the survey. Systematic


sorting by economic and physical status between the stayers at high conict villages and movers


from the high conict to low conict villages is of concern, which will lead to overestimation of the


impact of conict.      Unfortunately, I do not observe women's village of birth.   However, the 2016


NDHS asked each individual how long she has been residing at the place where she was surveyed


and if not her entire life, the name of the district from which she migrated. Twenty-six percent of


the women in the sample are living in a dierent district. Although the survey did not collect the


information, marriage is the most likely reason for women's migration, as most women in Nepal


move to their husband's home permanently from their maternal home, which is also likely to be


their place of birth.


   I dene conict at the level of women's districts of birth (district they moved from) and estimate


the same specication as Equation (7) except with district of birth xed eects and region of birth


trends and present the results in Table 6.      Columns 1 to 3 examine the presences of dierences


in migration patterns between the control and treated cohorts. The dierence-in-dierences across


the specications are zero, suggesting no selective migration. Columns 4 to 9 re-estimate the main


results from Table 4. The dierences-in-dierences estimates, although reduced in magnitude, are


statistically signicant and in the same direction as in the main specication for age cohort 0 to 3.


Villages within district are highly diverse and dening conict at the district level takes away that


variation. Additionally, I limit the sample to women living in the village where they were surveyed


their entire life and estimate Equation (7). The results are presented in Table A.3. The eect sizes


are comparable to the baseline results in Table 4. These results, overall, suggest there is minimal


or no selective migration among the women in the sample.


   Limiting the sample to women already born at the start of the conict limits the scope for


confoundedness through selective fertility. However, prior to the start of the conict couples that


were highly concerned about their children's health may have delayed having children in anticipation


of the war.   If true, we expect to see signicantly dierent level of births between high and low


conict areas periods just before the start of the war.     However, the conict lasted for a decade


and concerned couples may have had to wait for the full decade to have a child  a highly unlikely


scenario.   To formally examine this issue, I use the information on district of birth and year of



                                                   20
birth from every individual observed during the 2001 Nepal Population Census and calculate yearly


district birth rates.   As reported in Figure 6, there is no dierence in birth rates between the


districts experiencing above and below the median conict intensity (months of war). Table A.4


reports regression results for the same test and we see no dierence in periods long before and just


before the start of the conict.




5.3 Impact on Fertility, Education, Employment and Wealth
   Estimates in Table 7 show the impact of conict on reproductive health and fertility using the


baseline specication. Early childhood exposure to conict has no signicant impact on probability


of miscarriage or of stillbirth among women in age cohorts 9 to 15 and 4 to 8 in 1996. Women expe-


riencing conict during their entire growth period, however, are signicantly more like to have had


a stillbirth or miscarriage: each additional month of conict exposure increases the risk of stillbirth


by 0.03 and of miscarriage by 0.06 percentage respectively. Valente (2015) nds similar results that


pregnancies that were exposed to Nepal's conict were more likely to result in a miscarriage. There


is no signicant impact on the probability of abortion.     Women exposed to conict during their


early growing periods have signicantly more live births, 0.024 and 0.013 more births per month of


exposure among cohorts aged 0 to 3 and 4 to 8 in 1996 respectively. The impact of conict on the


number of infant deaths is zero (column 5).


   Impacts of early childhood exposure to conict on other fertility outcomes are presented in


Table 8. The conict has statistically no impact on the likeliness of contraceptive use (column 1),


number of women's sex partners, age at rst sexual intercourse and age at rst birth. There are


also no signicant dierences between women in control and treatment groups on their age at rst


cohabitation with their domestic partner and number of marriages and unions. Additionally, there


is no dierence in the smoking or chewing tobacco habits of women in treatment groups and control


group.


   Table 9 shows impact on women's human capital accumulation, employment and wealth. While


there is no signicant impact on years of education, women in age cohort 0 to 3 are signicantly


less likely to have completed a school leaving certicate (SLC). The lack of results in years of


schooling are consistent with Valente (2014) and Pivovarova and Swee (2015). Both examine the


conict's impact on human capital accumulation. Similarly, there is no impact on the probability



                                                  21
of being employed. However, women exposed to conict are signicantly more likely be employed


in agricultural sector. As a measure of a household's cumulative living standard, the DHS reports a


wealth index using ownership of easy to collect assets, materials used in housing construction, and


access to type of water and sanitation facilities (see Rutstein and Johnson, 2004). Women exposed to


conict early in their childhood are likely to live in households with poorer living conditions (column


7). The wealth factor score is lower by 977 and 675 per additional month of exposure to conict


among women aged 0 to 3 and ages 4 to 8 in 1996 respectively. In addition to providing information


on women's adult living conditions, outcomes discussed in this subsection provide a window to what


types of households the children of individuals exposed to conict in early childhood are living in.


Therefore, these eects are likely to provide explanations for the second-generation health impacts


presented in the next subsection.




5.4 Impact on Intergenerational Health
   The intergenerational impacts of conict on health are presented in Table 10.         As discussed


in section 4.2, the estimation strategy used is the same as for the rst generation, except I add


child-specic controls.   The sample consists of children under the age 5 whose anthropometrics


were measured. I also include children born to women aged 22 to 29 in 1996 to provide support


for the identication validation required by dierence-in-dierences assumptions. The falsication


test supports that identication strategy, as estimates for all outcomes for children born to the


experimental control cohort of mothers are statistically zero.


   Although statistically imprecise, mothers' exposures to conict negatively aects child's height


(column 1: table 10).     Children born to women in all the three treatment groups are shorter by


0.005 to 0.011 standard deviations for their age.      Child development in terms of weight gain is


signicantly hampered by mother's exposure to conict in her childhood.        Compared to children


born to the control cohort of mothers, an additional month of mother's exposure to conict during


her entire growth period decreases her child's weight for height z-scores by 0.030 standard deviations


(5.2 percent less than control mean). Exposure to conict starting at older age is even more severe


for second-generation weight for height.   Women in cohorts age 4 to 8 and 9 to 15 in 1996 have


children 0.039 and 0.041 standard deviations lighter for their height (6.7 and 7.1 percent less than


the control mean).   All the coecients are estimated precisely.     Column 3 reports the conict's



                                                  22
impact on second-generation weight-for-age. Mother's exposure during her childhood, again, has


signicant negative impact on child weight-for-age, especially among children born to women in


the cohort aged 9 to 15 in 1996. Additionally, maternal war exposure is strongly associated with


signicant lower body mass of children (column 4). As with the weight-for-height, the impact size


is increasing with the age at which the mother started experiencing war. Compared to the control,


mothers exposed in all three stages, the latter two stages, and the nal adolescence stage (aged 0


to 3, 4 to 8, and 9 to 15 at the start of conict), have children with lower BMI by 0.031, 0.040, and


0.044 standard deviations respectively. Alternatively, an extra month of exposure led to a decrease


in children's BMI by 0.030 to 0.044 standard deviations. These results are consistent with Akresh


et al. (2018), in that the adolescent exposure to conict has strongest impacts on second-generation


health. Table A.5 presents the same results using other conict measures discussed in section 3 and


the results are robust across all conict denitions.


   As a robustness check, Table 11 presents the intergenerational impact using conict intensity


based on mother's district of birth. The estimate shows stronger results than when dening mater-


nal exposure to conict at the level of village of residence. Compared to the children of women in


the control group, weight-for-height z-scores are signicantly less among children of women in the


treatment group. The impact size between the treatment groups are highly comparable. Similarly,


impacts on weight for age and BMI have similar strong negative impacts.       These coecients are


smaller than those reported in table 11 but are more precisely estimated.     In both the specica-


tions, we observe negative but statistically zero impact on child height. However, at this stage of


physical growth, children may be too young to develop stunting and negative impacts on weight


measurements provide strong indication for future stunting.


   Channels for intergenerational transmission of maternal exposure to conict to child may vary


greatly. In addition to unobserved factors such as the physiological stress and genomic changes, the


intergenerational transmission may be working through the maternal health, education or wealth


endowment or through early childhood investment (Cunha and Heckman, 2007). Results presented


in section 5.3 are likely to explain some of these channels.   Nepalese women exposed to conict


during their childhood development are more likely to have had pregnancy losses and at the same


time have more live births (Table 7).   Although I nd no evidence for sexual behavioral changes


(Table 8), women are less likely to have completed SLC, and most work on their own farms (Table 9).



                                                  23
Additionally, highly signicant in terms of parental ability to invest in children, exposed women have


signicantly less wealth. Combined with having more children, this drastically decreases parents'


ability to invest in children during their critical period of development.




6    Concluding Remarks

    This paper exploits variation in conict at a detailed geographical level to establish causality


between early childhood exposure to conict and women's nal stature. Additionally, along with


Akresh et al. (2018), this paper is among the rst to document the intergenerational transmission


of the impact of early childhood conict exposure on second generation health. Nepal experienced


a decade-long violent civil conict between 1996 and 2006, which resulted in more than 13,000 fatal


casualties, signicant infrastructure damages, and severe hindrance in delivery of basic services and


generated extreme fear, sense of insecurity and stress among its citizens.       Considered the most


reliable, I use INSEC's database on the conict casualties and create an individual level victims'


data set with exact geographical location (village) and dates of the incidents. This allows me to


exploit variation in conict intensity at the village level for identication.


    Fueled by international remittances, Nepal enjoyed consistent economic growth and poverty


reduction (Uematsu et al., 2016) during the period of conict.         The country also made signif-


icant improvement in other dimensions of development including health (Headey and Hoddinott,


2015) and non-income based multidimensional poverty (OPHI, 2013). These aggregate development


trends, however, may mask disparities at a more disaggregated level due to signicant variation in


conict intensity. The little research documenting the consequences of the war thus far is focused


on district-level disaggregation, and results are mixed - little to zero impact on human capital accu-


mulation (Valente, 2014; Pivovarova and Swee, 2015) and positive impact on women's employment


(Menon and van der Meulen Rodgers, 2015). Libois (2016), on the other hand, using conict mea-


surement at a more detailed geographical level (distance from the conict sites) nds signicant


negative immediate impact on consumption and income. Failure to capture the substantial conict


heterogeneity across villages within district may explain the lack of evidence of conict eects at


the district level.


    In contrast, I exploit variation in early childhood exposure to conict by birth cohort and village




                                                   24
of residence to estimate the impact of conict intensity, as measured by months of war, on adult


height.   Using the 2016 NDHS women sample, I nd that conict and, in particular, exposure


starting very early in one's growing period, has highly signicant and negative impact on women's


nal adult height. Findings are robust across (i) model specications and (ii) measures of conict.


In validating the dierence-in-dierences estimation strategy used, I nd no evidence of presence


of non-parallel dynamics nor of selective migration and fertility.       These results are aligned with


the biomedical literature that early childhood conditions are highly signicant in determining nal


height  early life stunting increases the risk of being short as an adult (Golden, 1994; Martorell et al.,


1994). Conditions in the fetal period and early years after birth are profound in inuencing human


biology and long-term health. Responses to lack of adequate nutrition of developing fetus may be


coded permanently, which is likely to increase later life health hazards (Barker, 1992). Similarly,


early years of life are highly susceptible to environmental inuence on height (Schmidt et al., 1995).


Nepalese children growing up during the conict experienced substantial levels of physiological


and mental stress, and for many, mostly in rural areas under the control of the Maoists, it was a


major nutritional shock and reduced access to healthcare. These are likely mechanisms at work and


describe the results presented in the paper.


   The sucient time gap between the start of the conict and the time of the NDHS 2016 allows me


to explore the impacts of the conict on children of the women who were exposed to conict in their


childhood. I nd that the mothers' exposure to conict is detrimental for their children's health.


Although imprecise, impacts on children's height-for-age z-scores are negative. Results for children's


weight-for-height, weight-for-age and BMI z-scores, on the other hand, are precisely estimated and


again negative. Results are robust to alternative measure of conict intensity (mother's district of


birth). To explore possible intergenerational transmission mechanisms, I investigate the impacts on


mother's economic and fertility outcomes. I nd that women exposed to conict during childhood


have more children and live in a household with signicantly less wealth. The combined eect of


the two likely results in drastic decreases in the parental ability to invest in children.




                                                    25
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                                                  32
7    Figures and Tables

Figure 1: Conict timeline




Source: Author's calculation based on the INSEC's archive on the conict victims.




                                                       33
Figure 2: Conict intensity heterogeneity: Months of war




Source: Author's calculation based on the INSEC's archive on the conict victims.




                                                       34
Figure 3: Conict intensity heterogeneity: Months of war and NDHS 2016 clusters




Source: Author's calculation based on the INSEC's archive on the conict victims.




                                                       35
     Figure 4: Cohorts by age at the start of the war in 1996




                                                                                                                                                  Age 0-3 (Treatment 1)

                                                                                                                          Age 4-8 (Treatment 2)

                                                                                                 Age 9-15 (Treatment 3)

                                                         Age 16-21 (Control 1)




36
                      Age 22-29 (Control 2)



     1966 1967 1968 1969 1970 1971 1972 1973 1974 1975 1976 1977 1978 1979 1980 1981 1982 1983 1984 1985 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 1996
                                                                                 Date of birth

     Note: Conict started on February 13, 1996 or Falgun 1, 2052 Bikram Sambat (11th month of year 2052 according to Nepali calendar). Age in the gure refers
     to the age at the beginning of the Nepal's civil war.
Figure 5: Impact on women's adult height (cm) by age at start of the war




                                                                                                            .4
                      Treatment 3                               Treatment 2               Treatment 1




                                                                                                            .2
                                                                                                            0
                                                                                                            −.2
                 Estimate                         95% CI




                                                                                                            −.4
    15     14    13      12         11   10   9      8      7       6         5   4   3     2       1   0
                                         Age at start of the conflict


Note: Figure presents coecients on interaction between exposure to months of war and age at start of the civil war
in main specication.




                                                           37
Figure 6: Births per 1000 district population using the 2001 Nepal population census




                                                                                                             40
                                                                                                             30
                                                                                                                  Births per thousand
                                                                                                             20
                                                                                                             10
                                                                                                             0
  1966             1971             1976            1981              1986            1991            1996
                                                 Birth year

                           High conflict                   Low conflict               95% CI



Note: High conict areas are dened as districts that experienced above median level of conict intensity (months
of war). Birth rates are calculated using individuals observed in the 2001 Nepal population census and their year of
birth.




                                                           38
Table 1: Characteristics of the victims of civil war in Nepal



 Total casualties                       14982       Political aliation (%)
    Killed                              13210          Nepali Congress              3.19
    Disappeared                          998           CPN-UML or ML                1.50
    Injuried                             774           CPN Maoist (rebel)          48.32
                                                       Other parties                0.91
 Perpetrator                                           No aliation                46.07
    State                               9208
    Maoist                              5302        Occupation (%)
    Other                                472           Agriculture                 21.01
                                                       Wage laborer                 2.27
 Age (mean)                             28.34          Employed                     1.47
 Female (%)                             11.10          Teacher                      1.68
                                                       Police                      11.92
 Social caste (%)                                      Army                         6.53
    Bramin or Chettrey                  44.76          Lawyer                       0.05
    Janajati, Aadibashi or Dalit        46.82          Doctor                       0.04
    Madeshi or Muslim                    6.25          Politician                  43.89
    Other                                2.17          Social worker                0.16
                                                       Rights activists             0.03
 Education (%)                                         Sports personality           0.05
    Bachelor's degree or more            2.61          Driver                       0.23
    Intermediate                         7.30          Student                      5.50
    Secondary school                    26.26          Journalist                   0.03
    Lower secondary school              21.99          Businessman                  1.57
    Primary school                      14.32          Ex-security personnel        0.01
    Literate                            15.05          Other, not clear             3.56
    Illiterate                          12.47


Source: Author's calculation based on the INSEC's archive on the conict victims (http:
//www.insec.org.np/victim/).
Note: While classes 8 to 10 are dened as secondary school, 6 and 7 are lower secondary
school. Nepali Congress (Democratic) and Nepali Congress are combined as one as the
former was formed due to a vertical split of Nepali Congress into two in 2002. However, the
parties merged into one in 2007. Similarly, Communist Party of Nepal - Marxist Leninists
(CPN-ML) was reunited with the Communist Party of Nepal - Unied Marxist Leninists
(CPN-UML) in 2002 but few members refused to go along the merger forming a new party
with the same name. Party's sister organizations and student wings are also accounted for
while assigning party aliation.




                                            39
Table 2:     Summary statistics of women ages 20 to 49 at time of the survey


                                             Age at start of the war in 1996
 Variables                               0 to 29          0 to 15        16 to 29    Dierence
                                       (All women) (Treatment)          (Control)

 Panel A: Outcomes
    Height (cm)                           151.56           151.75        151.28          0.46***
                                           [5.50]          [5.45]        [5.56]        (0.17)
    Weight (kg)                            52.04           51.36          53.05         -1.69***
                                          [10.05]          [9.52]       [10.73]        (0.31)
    Body mass index                        22.63            22.29        23.14          -0.85***
                                           [4.06]          [3.86]        [4.30]        (0.12)
    Pregnancy loss (yes=1)                  0.28             0.27         0.30          -0.04***
                                           [0.45]          [0.44]        [0.46]        (0.01)
    Total births                            2.88            2.25           3.81         -1.56***
                                           [1.65]          [1.20]        [1.77]        (0.04)
    Age at rst birth                      19.74           19.54          20.04         -0.51***
                                           [3.19]          [2.99]        [3.45]        (0.10)
    Years of education                      3.83            5.05           2.04          3.01***
                                           [4.25]          [4.30]        [3.48]        (0.12)
    Employed last 12 months (yes=1)         0.72            0.69           0.76         -0.07***
                                           [0.45]          [0.46]        [0.43]        (0.01)
    Wealth index factor score             3879.78         3274.44       4776.24      -1501.79
                                        [96436.27]      [93601.64]    [100507.35]   (2957.08)
 Panel B: Exposure to conict
  B1: During 0-15 years
    Months of war                           1.72           2.87           0.00           2.87***
                                           [4.63]         [5.71]         [0.00]        (0.14)
    Number of casualties                    3.12           5.22           0.00           5.22***
                                          [10.76]        [13.53]         [0.00]        (0.32)
    Months inc. neighboring villages        6.22          10.43           0.00          10.43***
                                          [11.08]        [12.73]         [0.00]        (0.30)
  B2: Whole life
    Months of war                           5.45           5.49           5.39           0.10
                                           [8.27]         [8.28]         [8.26]        (0.25)
    Number of casualties                   10.41          10.55          10.20           0.35
                                          [20.85]        [21.01]        [20.60]        (0.64)
    Months inc. neighboring villages       18.67          18.71          18.61           0.10
                                          [14.42]        [14.40]        [14.45]        (0.44)
 Panel C: Controls
    Current age                           33.48           27.85          41.83         -13.99***
                                          [8.07]          [4.45]         [3.93]        (0.13)
    Female headed HH (yes=1)               0.34            0.37           0.30           0.07***
                                          [0.47]          [0.48]         [0.46]        (0.01)
    Hight caste (yes=1)                    0.39            0.37           0.41          -0.04***
                                          [0.49]          [0.48]         [0.49]        (0.01)
    Rural (yes =1)                         0.86            0.86           0.86           0.00
                                          [0.35]          [0.34]         [0.35]        (0.01)
    Eastern region                         0.19            0.18           0.21          -0.02**
                                          [0.39]          [0.39]         [0.40]        (0.01)
    Central region                         0.24            0.24           0.25          -0.00
                                          [0.43]          [0.43]         [0.43]        (0.01)
    Western region                         0.21            0.21           0.21          -0.00
                                          [0.41]          [0.41]         [0.41]        (0.01)
    Mid-western region                     0.21            0.22           0.20           0.02
                                          [0.41]          [0.42]         [0.40]        (0.01)
    Far-western region                     0.14            0.14           0.13           0.01
                                          [0.34]          [0.35]         [0.34]        (0.01)

 Number of women                          4,421           2,639          1,782         4,421
 Note: Standard deviations are in brackets and standard errors are in parentheses and signi-
cance levels are denoted as follows: * p<0.10, ** p<0.05, *** p<0.01.
                                              40
Table 3:     Summary statistics of children under 5 at time of the survey in 2016


                                         Mother's age at start of the war in 1996
 Variables                                 0 to 29         0 to 15      16 to 29    Dierence
                                         (All women) (Treatment) (Control)

 Panel A: Outcomes
    Height/age sd                           -1.55          -1.52         -1.85        0.33***
                                            [1.34]         [1.33]        [1.39]     (0.11)
    Weight/age sd                           -1.35          -1.33         -1.50        0.17*
                                            [1.07]         [1.06]        [1.16]     (0.09)
    Weight/height sd                        -0.65          -0.65         -0.62       -0.03
                                            [1.10]         [1.09]        [1.15]     (0.09)
    Body mass index sd                      -0.51          -0.51         -0.45       -0.06
                                            [1.11]         [1.11]        [1.14]     (0.09)
 Panel B: Mother's exposure to conict
  B1: During 0-15 years
    Months of war                            3.17            3.43         0.00        3.43***
                                            [6.01]          [6.17]       [0.00]     (0.49)
    Number of casualties                     5.83            6.29         0.00        6.29***
                                           [14.28]         [14.74]       [0.00]     (1.16)
    Months inc. neighboring villages        11.79           12.73         0.00       12.73***
                                           [13.10]         [13.16]       [0.00]     (1.04)
  B2: Whole life
    Months of war                            4.69            4.73          4.10       0.63
                                            [7.42]          [7.41]        [7.64]    (0.61)
    Number of casualties                     8.85            8.92          8.09       0.82
                                           [18.74]         [18.55]       [20.92]    (1.53)
    Months inc. neighboring villages        17.15           17.20         16.54       0.66
                                           [13.73]         [13.73]       [13.83]    (1.12)
 Panel C: Controls
    Child sex (girl=1)                       0.47           0.48          0.42        0.06
                                            [0.50]         [0.50]        [0.49]     (0.04)
    Child birth order number                 2.36           2.16          4.97       -2.81***
                                            [1.57]         [1.25]        [2.53]     (0.11)
    Child is a twin (yes =1)                 0.01           0.01          0.02       -0.01
                                            [0.11]         [0.11]        [0.14]     (0.01)
    Female headed HH (yes=1)                 0.33           0.33          0.30        0.03
                                            [0.47]         [0.47]        [0.46]     (0.04)
    Hight caste (yes=1)                      0.36           0.37          0.32        0.04
                                            [0.48]         [0.48]        [0.47]     (0.04)
    Rural (yes =1)                           0.89           0.89          0.93       -0.03
                                            [0.31]         [0.31]        [0.26]     (0.03)
    Eastern region                           0.18           0.18          0.24       -0.06*
                                            [0.39]         [0.38]        [0.43]     (0.03)
    Central region                           0.27           0.27          0.28       -0.01
                                            [0.44]         [0.44]        [0.45]     (0.04)
    Western region                           0.19           0.20          0.16        0.04
                                            [0.40]         [0.40]        [0.37]     (0.03)
    Mid-western region                       0.22           0.22          0.22        0.00
                                            [0.42]         [0.42]        [0.41]     (0.03)
    Far-western region                       0.13           0.14          0.11        0.03
                                            [0.34]         [0.34]        [0.31]     (0.03)

 Number of children                         2,168          2,007          161       2,168
 Note: Standard deviations are in brackets and standard errors are in parentheses and
signicance levels are denoted as follows: * p<0.10, ** p<0.05, *** p<0.01.



                                             41
Table 4: Impact on rst generation adult stature by age at start of the civil war



                                                          Height in cm                            Height for age sd (HAZ)

                                                  (1)            (2)           (3)               (4)           (5)           (6)


 Age 22 to 29      ×   Months of war             0.011          0.011         0.014            0.002          0.002         0.002
                                                (0.033)        (0.034)       (0.035)          (0.006)        (0.006)       (0.006)
 Age 9 to 15      ×   Months of war             -0.026          -0.026       -0.027            -0.004        -0.004         -0.005
                                                (0.026)        (0.026)       (0.025)          (0.004)        (0.004)       (0.004)
 Age 4 to 8    ×   Months of war               -0.068**        -0.067**     -0.071**         -0.012**       -0.011**      -0.012**
                                                (0.031)        (0.031)       (0.032)          (0.005)        (0.005)       (0.005)
 Age0 to 3    ×   Months of war               -0.122***      -0.127***     -0.136***         -0.021***     -0.021***      -0.023***
                                                (0.033)        (0.032)       (0.032)          (0.006)        (0.005)       (0.005)


 Observations                                    4,421          4,421         4,421            4,418          4,418         4,418
 Adjusted R-squared                              0.031          0.031         0.043            0.031          0.031         0.043
 Birth year and month xed eects                                Yes           Yes                             Yes           Yes
 Regional trends and other controls                                            Yes                                           Yes
 Village xed eects                              Yes            Yes           Yes              Yes            Yes           Yes
 Number of clusters                               383            383           383              383            383           383
 Control mean (Age 16 to 21)                     151.4          151.4         151.4            151.4          151.4         151.4


 Note: *** (**) (*) indicates signicance at the 1% (5%) (10%) level. Treatment on the treated estimates are reported based on a
dierence-in-dierence specication. Standard errors are clustered at village level. All ages in the table refer to age at the start of
the war. Comparison cohort is age 16 to 21 and cohort 22 to 29 is a second comparison group that serves as a placebo test. Other
controls include an indicator for high caste and month of interview xed-eects.




                                                          42
     Table 5: Impact on rst generation adult height (cm) by alternative measure of conict



                                                   Casualty count            Including contiguous villages              Including villages within 50 km

      Conict variable =                                  (1)                     (2)                  (3)                    (4)                  (5)
                                                     Own village           Months of war       Casualty count          Months of war        Casualty count


      Age 22 to 29      ×   Conict                      0.005                  0.022                0.004                   0.011                0.001
                                                        (0.014)                (0.022)              (0.006)                 (0.016)              (0.001)
      Age 9 to 15    ×   Conict                        -0.013                  -0.006               -0.002                  -0.011               0.000
                                                        (0.009)                (0.017)              (0.006)                 (0.013)              (0.001)
      Age 4 to 8    ×   Conict                       -0.030***                 -0.013               -0.006                  -0.006               0.000
                                                        (0.011)                (0.020)              (0.006)                 (0.016)              (0.001)
      Age 0 to 3    ×   Conict                       -0.050***               -0.068***            -0.019***                -0.036*              -0.001




43
                                                        (0.012)                (0.023)              (0.007)                 (0.020)              (0.001)


      Observations                                       4,421                  4,421                4,421                   4,421                4,421
      Adjusted R-squared                                 0.042                  0.042                0.042                   0.040                0.040
      Birth year and month xed eects                    Yes                    Yes                  Yes                     Yes                  Yes
      Regional trends and other controls                  Yes                    Yes                  Yes                     Yes                  Yes
      Village xed eects                                 Yes                    Yes                  Yes                     Yes                  Yes
      Number of clusters                                  383                    383                  383                     383                  383
      Control mean (Age 16 to 21)                        151.4                  151.4                151.4                   151.4                151.4


      Note: *** (**) (*) indicates signicance at the 1% (5%) (10%) level. Treatment on the treated estimates are reported based on a dierence-in-dierence
     specication. Standard errors are clustered at village level. All ages in the table refer to age at the start of the war. Comparison cohort is age 16 to 21
     and cohort 22 to 29 is a second comparison group that serves as a placebo test. Other controls include an indicator for high caste and month of interview
     xed-eects.
     Table 6: Impact of conict at district of birth



                                                             Migration                              Height in cm                      Height for age sd (HAZ)

                                                      (1)        (2)         (3)            (4)          (5)          (6)             (7)          (8)          (9)


      Age 22 to 29      ×   Months of war           0.001       0.001      0.001          -0.008       -0.007       -0.006          -0.000        0.000        0.000
                                                   (0.001)     (0.001)    (0.001)        (0.019)      (0.019)       (0.018)         (0.003)      (0.003)      (0.003)
      Age 9 to 15    ×   Months of war              -0.001     -0.001      -0.001         -0.010       -0.008       -0.007          -0.002       -0.001       -0.001
                                                   (0.001)     (0.001)    (0.001)        (0.012)      (0.011)       (0.011)         (0.002)      (0.002)      (0.002)
      Age 4 to 8    ×   Months of war               -0.002     -0.001      -0.001          0.001        0.004        0.001           0.000        0.001       -0.000
                                                   (0.001)     (0.001)    (0.001)        (0.013)      (0.013)       (0.012)         (0.002)      (0.002)      (0.002)
      Age 0 to 3    ×   Months of war               -0.001     -0.001      -0.001        -0.030**     -0.030**     -0.030**        -0.005**     -0.005**     -0.005**




44
                                                   (0.001)     (0.001)    (0.001)        (0.012)      (0.013)       (0.013)         (0.002)      (0.002)      (0.002)


      Observations                                  4,421       4,421      4,421           4,421        4,421        4,421           4,418        4,418        4,418
      Adjusted R-squared                            0.064       0.066      0.123           0.008        0.008        0.019           0.008        0.007        0.019
      Birth year and month xed eects                           Yes        Yes                          Yes          Yes                          Yes          Yes
      Regional trends and other controls                                    Yes                                       Yes                                       Yes
      District xed eects                           Yes         Yes        Yes             Yes          Yes          Yes             Yes          Yes          Yes
      Number of clusters                              74         74          74             74           74           74              74            74           74
      Control mean (Age 16 to 21                    0.253       0.253      0.253           151.4        151.4        151.4          -2.056       -2.056       -2.056


      Note: Conict is dened at district level i.e. district of birth. *** (**) (*) indicates signicance at the 1% (5%) (10%) level. Treatment on the treated estimates
     are reported based on a dierence-in-dierence specication. Standard errors are clustered at the district of birth. All ages in the table refer to age at the start
     of the war. Comparison cohort is age 16 to 21 and cohort 22 to 29 is a second comparison group that serves as a placebo test. Other controls include an indicator
     for high caste and month of interview xed-eects.
Table 7: Impact on rst generation reproductive health by age at start of the civil war



                                                    (1)             (2)               (3)             (4)              (5)
                                               Ever had a       Ever had a      Ever had an       Total live      Number of
                                                stillbirth      miscarriage       abortion          births       infant deaths


 Age 22 to 29      ×   Months of war              0.002            0.001           -0.007**         -0.004           -0.000
                                                 (0.001)          (0.002)          (0.003)          (0.008)          (0.001)
 Age 9 to 15      ×   Months of war               0.001            0.000            -0.004           0.002            0.000
                                                 (0.001)          (0.002)          (0.002)          (0.006)          (0.001)
 Age 4 to 8    ×   Months of war                  0.002            0.001           -0.005*          0.013*            0.000
                                                 (0.001)          (0.002)          (0.003)          (0.007)          (0.001)
 Age0 to 3    ×   Months of war                 0.003***          0.006*            -0.002         0.024***          -0.001
                                                 (0.001)          (0.003)          (0.004)          (0.007)          (0.002)


 Observations                                     4,421            4,421            4,421            4,421            4,421
 Adjusted R-squared                               0.022            0.018            0.061            0.466            0.003
 Birth year and month xed eects                  Yes              Yes               Yes             Yes              Yes
 Regional trends and other controls                Yes              Yes               Yes             Yes              Yes
 Village xed eects                               Yes              Yes               Yes             Yes              Yes
 Number of clusters                                383              383               383             383              383
 Control mean (Age 16 to 21)                     0.0764            0.164            0.142            3.520            0.003


 Note: *** (**) (*) indicates signicance at the 1% (5%) (10%) level. Treatment on the treated estimates are reported based
on a dierence-in-dierence specication. Standard errors are clustered at village level. All ages in the table refer to age at the
start of the war. Comparison cohort is age 16 to 21 and cohort 22 to 29 is a second comparison group that serves as a placebo
test. Other controls include an indicator for high caste and month of interview xed-eects.




                                                           45
     Table 8: Impact on sexual behavior and marriage by age at start of the civil war



                                                         (1)            (2)            (3)           (4)            (5)              (6)            (7)
                                                        Ever         Number       Age at rst      Age at         Age at        Number of       Smoke or
                                                        use            of sex        sexual          rst          rst          marriages         chew
                                                  contraceptive      partners     intercourse       birth     cohabitation       or unions       tobacco


      Age 22 to 29     ×    Months of war              -0.001          -0.003        -0.026        -0.030*         0.001           -0.020        -0.005**
                                                      (0.002)         (0.003)        (0.019)       (0.017)        (0.002)         (0.020)        (0.002)
      Age 9 to 15      ×   Months of war               -0.001          0.001          0.018         0.016          0.000           0.032*         -0.002
                                                      (0.001)         (0.001)        (0.015)       (0.016)        (0.001)         (0.018)        (0.002)
      Age 4 to 8   ×   Months of war                   -0.002          -0.003         0.012         0.009          0.000           0.024          -0.001
                                                      (0.002)         (0.003)        (0.019)       (0.020)        (0.001)         (0.020)        (0.002)
      Age0 to 3    ×   Months of war                   0.001           0.000         -0.028        -0.009          0.000           0.002          0.000




46
                                                      (0.003)         (0.001)        (0.025)       (0.023)        (0.001)         (0.021)        (0.002)


      Observations                                     4,421           4,421          4,421         4,420          4,420           4,421          4,421
      Adjusted R-squared                               0.110           -0.013         0.144         0.146          0.039           0.108          0.155
      Birth year and month xed eects                  Yes             Yes            Yes           Yes            Yes             Yes            Yes
      Regional trends and other controls                Yes             Yes            Yes           Yes            Yes             Yes            Yes
      Village xed eects                               Yes             Yes            Yes           Yes            Yes             Yes            Yes
      Number of clusters                                383             383            383           383            383             383            383
      Control mean (Age 16 to 21)                      0.872           1.065          17.56         17.50          1.059           19.89          0.195


      Note: *** (**) (*) indicates signicance at the 1% (5%) (10%) level. Treatment on the treated estimates are reported based on a dierence-in-dierence
     specication. Standard errors are clustered at village level. All ages in the table refer to age at the start of the war. Comparison cohort is age 16 to
     21 and cohort 22 to 29 is a second comparison group that serves as a placebo test. Other controls include an indicator for high caste and month of
     interview xed-eects.
     Table 9: Impact on education, employment and wealth by age at start of the civil war



                                                            Education                                  Employment

                                                      (1)            (2)                (3)             (4)            (5)         (6)               (7)
                                                     Years      Completed           Employed       Professional      Agri -     manual         wealth index
                                                       of           SLC               in last          sales          own         work             factor
                                                  schooling                        12 months        clerical etc      farm                         score


      Age 22 to 29     ×    Months of war           -0.015         -0.003             -0.005         -0.007**       0.006**      0.001           -182.432
                                                    (0.025)        (0.002)           (0.003)          (0.003)       (0.003)     (0.002)          (440.164)
      Age 9 to 15      ×   Months of war             0.003         -0.001             -0.003          -0.001        0.004**      -0.003          -504.890
                                                    (0.018)        (0.002)           (0.002)          (0.002)       (0.002)     (0.002)          (323.558)
      Age 4 to 8   ×   Months of war                 0.007         -0.003             0.001           -0.005*        0.004*      0.002           -675.200*
                                                    (0.025)        (0.003)           (0.003)          (0.003)       (0.002)     (0.003)          (367.459)
      Age0 to 3    ×   Months of war                -0.020        -0.006**            -0.002          -0.004         0.005*      -0.001         -977.280**




47
                                                    (0.031)        (0.003)           (0.003)          (0.004)       (0.003)     (0.004)          (393.707)


      Observations                                   4,421          4,421             4,421            3,188         3,188       3,188             4,421
      Adjusted R-squared                             0.440          0.215             0.259            0.300         0.382       0.165             0.712
      Birth year and month xed eects                Yes            Yes                Yes             Yes           Yes         Yes               Yes
      Regional trends and other controls              Yes            Yes                Yes             Yes           Yes         Yes               Yes
      Village xed eects                             Yes            Yes                Yes             Yes           Yes         Yes               Yes
      Number of clusters                              383            383                383             381           381         381               383
      Control mean (Age 16 to 21)                    2.472         0.0831             0.765            0.200         0.722       0.0781             3484


      Note: School leaving certicate (SLC) is a national exam that everyone takes at the end of grade ten. DHS uses asset ownership such as televisions and
     bicycles, materials used for housing construction, and types of water access and sanitation facilities to calculate wealth index using factor analysis (see
     Rutstein, and Johnson, 2004 for detail). *** (**) (*) indicates signicance at the 1% (5%) (10%) level. Treatment on the treated estimates are reported
     based on a dierence-in-dierence specication. Standard errors are clustered at village level. All ages in the table refer to age at the start of the war.
     Comparison cohort is age 16 to 21 and cohort 22 to 29 is a second comparison group that serves as a placebo test. Other controls include an indicator
     for high caste and month of interview xed-eects.
Table 10: Second generation health impact



                                                       (1)            (2)             (3)              (4)
                                                  Height for      Weight for      Weight for      Body mass
                                                     age sd        height sd        age sd         index sd
                                                     (HAZ)          (WHZ)           (WAZ)           (BMIZ)


 Mother's age 22 to 29        ×                      0.048           -0.032          0.005           -0.045
     Mother's exposure to conict                   (0.046)         (0.032)         (0.040)         (0.028)
 Mother's age 9 to 15      ×                         -0.010        -0.041**         -0.034*        -0.044***
     Mother's exposure to conict                   (0.033)         (0.017)         (0.020)         (0.015)
 Mother's age 4 to 8      ×                          -0.005        -0.039**          -0.025        -0.040**
     Mother's exposure to conict                   (0.030)         (0.017)         (0.022)         (0.017)
 Mother's age 0 to 3      ×                          -0.011        -0.030**          -0.025        -0.031**
     Mother's exposure to conict                   (0.027)         (0.015)         (0.020)         (0.014)


 Observations                                        2,165           2,163           2,169           2,164
 Adjusted R-squared                                  0.131           0.114           0.132           0.110
 Mother and other controls                            Yes             Yes             Yes             Yes
 Children contrls                                     Yes             Yes             Yes             Yes
 Village xed eects                                  Yes             Yes             Yes             Yes
 Number of clusters                                   373             373             373             373
 Control mean (Mother's age 16 to 21)                -1.836          -0.580          -1.472          -0.423


 Note: Sample is children aged 0 to 59 months at the time of the survey. *** (**) (*) indicates signicance at
the 1% (5%) (10%) level. Treatment on the treated estimates are reported based on a dierence-in-dierence
specication. Standard errors are clustered at village level. Mother's age in the table refers to mother's age at
the start of the war. Comparison cohort is children born to mothers whose age was 16 to 21 at the start of the
war. Children born to mother's cohort 22 to 29 is a second comparison group that serves as a placebo test.
Mother's controls are mother's years of birth xed eects, mother's month of birth xed eects, region specic
trends. Household controls are indicator for high caste, female headed households, and whether residing in
a rural area. Child controls are indicator if child is a girl, a twin, birth order xed eect, and xed eects
for child years of birth, month of birth, and month of anthropometric measurements. Reported outcomes are
z-scores based on the WHO anthropometric measurement standards.




                                                       48
Table 11: Second generation health impact by mother's district of birth



                                                      (1)             (2)             (3)             (4)
                                                  Height for      Weight for      Weight for      Body mass
                                                    age sd        height sd         age sd         index sd


 Mother's age 22 to 29        ×                      0.016          -0.007          -0.001           -0.011
     Mother's exposure to conict                   (0.013)         (0.008)         (0.009)         (0.008)
 Mother's age 9 to 15      ×                         -0.006        -0.014**        -0.016**        -0.015**
     Mother's exposure to conict                   (0.007)         (0.006)         (0.006)         (0.006)
 Mother's age 4 to 8      ×                          -0.003        -0.013**        -0.012**        -0.015**
     Mother's exposure to conict                   (0.006)         (0.006)         (0.006)         (0.006)
 Mother's age 0 to 3      ×                          -0.003        -0.013**        -0.012**        -0.016***
     Mother's exposure to conict                   (0.006)         (0.006)         (0.005)         (0.005)


 Observations                                        2,165           2,163           2,169           2,164
 Adjusted R-squared                                  0.181           0.094           0.130           0.095
 Mother and household controls                        Yes             Yes             Yes             Yes
 Children controls                                    Yes             Yes             Yes             Yes
 Mother's district of birth xed eects               Yes             Yes             Yes             Yes
 Number of clusters                                    74              74              74              74
 Control mean (Age 16 to 21)                         -1.836         -0.580          -1.472           -0.423


 Note: Conict is dened at district level i.e. mother's district of birth. Sample is children aged 0 to 59
months at the time of the survey. *** (**) (*) indicates signicance at the 1% (5%) (10%) level. Treatment
on the treated estimates are reported based on a dierence-in-dierence specication. Standard errors are
clustered at village level. Mother's age in the table refers to mother's age at the start of the war. Comparison
cohort is children born to mothers whose age was 16 to 21 at the start of the war. Children born to mother's
cohort 22 to 29 is a second comparison group that serves as a placebo test. Mother's controls are mother's
years of birth xed eects, mother's month of birth xed eects, region specic trends. Household controls
are indicator for high caste, female headed households, and whether residing in a rural area. Child controls
are indicator if child is a girl, a twin, birth order xed eect, and xed eects for child years of birth, month
of birth, and month of anthropometric measurements. Reported outcomes are z-scores based on the WHO
anthropometric measurement standards.




                                                       49
A     Appendix

Figure A.1: Administrative map of Nepal




Note: The map represents administrative areas before the 2015 constitution when Nepal was divided into 5 de-
velopment regions, 75 districts and about 4000 rural (village development committees) and urban (municipalities)
areas.




                                                      50
Figure A.2: Conict intensity heterogeneity: Casualty count




                                               51
Figure A.3: Nepal Demographic Health Survey 2016 Coverage




                                            52
Figure A.4: Conict intensity heterogeneity: Casualty count and NDHS 2016 clusters




                                              53
Figure A.5: Typical growth velocity curve




Source: Adopted from Tanner, Whitehouse, and Takaishi (1966).   Archives of disease in childhood vol. 41,220 (1966):
613-35.




                                                     54
Table A.1: Impact on rst generation adult stature using alternative specication



                                                          Height in cm                               Height for age sd

                                                  (1)            (2)          (3)              (4)           (5)          (6)


 Months of war during 0 to 3 years              -0.026         -0.011       -0.103           -0.008        -0.007       -0.021
                                                (0.334)        (0.338)      (0.361)         (0.056)       (0.057)       (0.061)
 Months of war during 4 to 8 years             -0.130**     -0.171***     -0.173***         -0.022**     -0.029***     -0.029**
                                                (0.056)        (0.064)      (0.067)         (0.009)       (0.011)       (0.011)
 Months of war during 9 to 15 years              0.009         -0.052*     -0.060**          0.002        -0.009*      -0.010**
                                                (0.024)        (0.028)      (0.028)         (0.004)       (0.005)       (0.005)


 Observations                                    4,421         4,421         4,421           4,418         4,418         4,418
 Adjusted R-squared                              0.027         0.029         0.041           0.027         0.029         0.041
 Birth year and month xed eects                               Yes           Yes                           Yes           Yes
 Regional trends and other controls                                           Yes                                         Yes
 Village xed eects                              Yes           Yes           Yes              Yes          Yes           Yes
 Number of clusters                               383           383           383              383          383           383
 Outcome mean                                    151.6         151.6         151.6           -2.034        -2.034       -2.034


 Note: *** (**) (*) indicates signicance at the 1% (5%) (10%) level. Standard errors are clustered at village level. All ages
in the table refer to age at the start of the war. Other controls include an indicator for high caste and month of interview
xed-eects. Specication used is Yimntvdr = β0 + β1 × Exposure during 0 to 3 years + β2 × Exposure during 4 to 8 years + β3 ×
Exposure during 9 to 15 years + αt + ηm + δv + γr    T
                                                       + Xi + ωn + εimntvdr , where Y is a height of a woman i born in a month m
and year t, and residing in village v. district d and development region r. Conict variables are dened as women's exposure to
conict during 0 to 3 years, 4 to 8 years, and 9 to 15 years of age. All other variables have same meaning as the main specication
equation 7. Reported in the table are the estimated β1 , β2 , and β3 coecients.




                                                          55
Table A.2: Impact on rst generation adult height (cm) using alternative specication and
alternative measure of conict



                                                 Casualty count             Including contiguous villages
 Conict variable =

                                                         (1)                      (2)                   (3)
                                                   Own village            Months of war         Casualty count


 Months of war during 0 to 3 years                     -0.033                   -0.003                -0.007
                                                      (0.148)                  (0.084)               (0.040)
 Months of war during 4 to 8 years                   -0.069***                -0.101***            -0.027***
                                                      (0.019)                  (0.034)               (0.010)
 Months of war during 9 to 15 years                  -0.021**                   -0.019                -0.006
                                                      (0.010)                  (0.018)               (0.005)


 Observations                                          4,421                    4,421                 4,421
 Adjusted R-squared                                    0.041                    0.041                 0.041
 Birth year and month xed eects                       Yes                      Yes                   Yes
 Regional trends and other controls                     Yes                      Yes                   Yes
 Village xed eects                                    Yes                      Yes                   Yes
 Number of clusters                                     383                      383                   383
 Outcome mean                                          151.6                    151.6                 151.6


 Note: *** (**) (*) indicates signicance at the 1% (5%) (10%) level. Standard errors are clustered at village
level. All ages in the table refer to age at the start of the war. Other controls include an indicator for high caste
and month of interview xed-eects. Specication used is Yimtvdr = β0 + β1 × Exposure during 0 to 3 years +
β2 × Exposure during 4 to 8 years + β3 × Exposure during 9 to 15 years + αt + ηm + δv + γr        T
                                                                                                    + Xi + εimtvdr ,
where Y is a height of a woman i born in a month m and year t, and residing in village v. district d and
development region r. Conict variables are dened as women's exposure to conict during 0 to 3 years, 4 to
8 years, and 9 to 15 years of age. All other variables have same meaning as the main specication equation 6.
Reported in the table are the estimated β1 , β2 , and β3 coecients.




                                                         56
Table A.3: Impact on rst generation adult height (cm) - women living in the same district as birth



                                                          Height in cm                                  Height for age sd

                                                  (1)            (2)           (3)               (4)           (5)           (6)


 Age 22 to 29      ×   Months of war            -0.026         -0.028        -0.023            -0.004        -0.005         -0.004
                                                (0.047)        (0.046)       (0.047)          (0.008)        (0.008)       (0.008)
 Age 9 to 15      ×   Months of war             -0.003         -0.001        -0.004            -0.000        -0.000         -0.001
                                                (0.039)        (0.039)       (0.039)          (0.007)        (0.007)       (0.007)
 Age 4 to 8    ×   Months of war                -0.069*        -0.066       -0.074*           -0.011*        -0.011         -0.012
                                                (0.041)        (0.043)       (0.044)          (0.007)        (0.007)       (0.007)
 Age0 to 3    ×   Months of war               -0.145***      -0.148***     -0.162***         -0.024***     -0.025***      -0.027***
                                                (0.046)        (0.046)       (0.046)          (0.008)        (0.008)       (0.008)


 Observations                                    3,243         3,243          3,243            3,242          3,242         3,242
 Adjusted R-squared                              0.024         0.023          0.032            0.025          0.023         0.033
 Birth year and month xed eects                               Yes            Yes                             Yes           Yes
 Regional trends and other controls                                            Yes                                           Yes
 Village xed eects                              Yes           Yes            Yes              Yes            Yes           Yes
 Number of clusters                               380           380            380              380            380           380
 Control mean (Age 16 to 21)                     151.3         151.3          151.3            -2.089        -2.089         -2.089


 Note: Sample is limited to women living in the same district as their birth. *** (**) (*) indicates signicance at the 1% (5%)
(10%) level. Treatment on the treated estimates are reported based on a dierence-in-dierence specication. Standard errors are
clustered at village level. All ages in the table refer to age at the start of the war. Comparison cohort is age 16 to 21 and cohort 22
to 29 is a second comparison group that serves as a placebo test. Other controls include an indicator for high caste and month of
interview xed-eects.




                                                          57
Table A.4: Control experiment of district birth rates (yearly births)



                                                       Conict: Months of               Conict: Casualties per 1000
                                                            war in district                district 1991 population

                                                      (1)         (2)         (3)          (4)        (5)          (6)


 Births between 1966 to 1974        ×   Conict     -0.009      -0.009     -0.009        -0.016     -0.016       -0.016
                                                   (0.006)      (0.006)   (0.006)       (0.136)     (0.138)      (0.139)
 Births between 1981 to 1987        ×   Conict     -0.007      -0.007     -0.007        -0.142     -0.142       -0.142
                                                   (0.011)      (0.011)   (0.011)       (0.179)     (0.182)      (0.183)
 Births between 1988 to 1992        ×   Conict     0.026       0.026      0.026         0.426       0.426        0.426
                                                   (0.022)      (0.022)   (0.022)       (0.397)     (0.403)      (0.406)
 Births between 1993 to 1996        ×   Conict     0.043       0.043      0.043         0.732*      0.732        0.732
                                                   (0.026)      (0.027)   (0.027)       (0.434)     (0.441)      (0.444)


 Observations                                       2,325       2,325      2,325         2,325       2,325        2,325
 Adjusted R-squared                                 0.447       0.437      0.809         0.446       0.436        0.808
 District xed eects                                            Yes          Yes                     Yes          Yes
 Birth year xed eects                                                       Yes                                  Yes
 Number of clusters                                   75          75          75           75         75            75
 Control mean
                                                    15.69       15.69      15.69         15.69       15.69        15.69
    (Births between 1975 to 1980)


 Note: Yearly births are calculated using individuals observed in the 2001 Nepal population census and their year of birth
normalized to 1000 districts inhabitants in 2001. *** (**) (*) indicates signicance at the 1% (5%) (10%) level. Treatment on
the treated estimates are reported based on a dierence-in-dierence specication. Standard errors are clustered at district
level.




                                                           58
     Table A.5: Second generation health impact using alternative measure of conict



                                                         Casualty count                             Months of war                             Casualty count
      Conict variable =
                                                           own village                     including contiguous villages            including contiguous villages

                                                  (1)          (2)           (3)              (4)         (5)         (6)             (7)          (8)          (9)
                                                 HAZ         WHZ           BMIZ              HAZ         WHZ        BMIZ             HAZ          WHZ          BMIZ


      Mother's age 22 to 29       ×             0.028        -0.009        -0.015         0.063***      -0.003      -0.015         0.023***       -0.003       -0.007
          Mother's exposure to conict         (0.024)      (0.019)       (0.019)          (0.022)      (0.016)     (0.016)         (0.007)      (0.006)      (0.006)
      Mother's age 9 to 15      ×               -0.009     -0.010***     -0.011***          -0.001      -0.018*     -0.020*          -0.002      -0.006**    -0.007**
          Mother's exposure to conict         (0.009)      (0.004)       (0.004)          (0.014)      (0.010)     (0.010)         (0.005)      (0.003)      (0.003)
      Mother's age 4 to 8     ×                 -0.005      -0.011*       -0.010*           -0.004      -0.018*    -0.020**          -0.001      -0.007**    -0.007**
          Mother's exposure to conict         (0.008)      (0.006)       (0.006)          (0.013)      (0.010)     (0.010)         (0.004)      (0.003)      (0.003)
      Mother's age 0 to 3     ×                 -0.008       -0.005        -0.005           -0.000      -0.013      -0.016           -0.001      -0.005*      -0.005*
          Mother's exposure to conict         (0.006)      (0.005)       (0.005)          (0.013)      (0.010)     (0.010)         (0.004)      (0.003)      (0.003)




59
      Observations                              2,165        2,163          2,164           2,165        2,163       2,164           2,165        2,163        2,164
      Adjusted R-squared                        0.229        0.119          0.116           0.231        0.119       0.116           0.232        0.120        0.117
      Mother and household controls               Yes         Yes            Yes             Yes          Yes         Yes             Yes          Yes          Yes
      Child controls                              Yes         Yes            Yes             Yes          Yes         Yes             Yes          Yes          Yes
      Village xed eects                         Yes         Yes            Yes             Yes          Yes         Yes             Yes          Yes          Yes
      Number of clusters                          373         373            373             373          373         373             373          373          373
      Control mean (Age 16 to 21)               -1.836       -0.580        -0.423           -1.836      -0.580      -0.423           -1.836       -0.580       -0.423


      Note: Sample is children aged 0 to 59 months at the time of the survey. *** (**) (*) indicates signicance at the 1% (5%) (10%) level. Treatment on the treated
     estimates are reported based on a dierence-in-dierence specication. Standard errors are clustered at village level. Mother's age in the table refers to mother's
     age at the start of the war. Comparison cohort is children born to mothers whose age was 16 to 21 at the start of the war. Children born to mother's cohort 22
     to 29 is a second comparison group that serves as a placebo test. Mother's controls are mother's years of birth xed eects, mother's month of birth xed eects,
     region specic trends. Household controls are indicator for high caste, female headed households, and whether residing in a rural area. Child controls are indicator
     if child is a girl, a twin, birth order xed eect, and xed eects for child years of birth, month of birth, and month of anthropometric measurements. Reported
     outcomes are z-scores based on the WHO anthropometric measurement standards.