AFFECTED AFFECTED CAPITAL LOSS WORLDBANKGROUP Q GFDRR EROPE ANDCENTRALA5IA (ECA) ER RI5K PROFILES BY 100-YEAR BY 250-YEAR FROM 250-YEAR FLOOD EARTHQUAKE EARTHQUAKE Uzbeki*stan '.Pplto GDP $66.0 billion* 02rilo*M Uzhekistan's population and econ- (together about 80 percent) and omy are exposed to earthquakes agriculture generating the remain- and floods, with earthquakes der. Uzbekistan's per capita GDP KAZA KHS5TA N posing the greater risk of a high impact, was $2,190. lower probability event. The model results for present-day risk shown in This map displays GDP by prov- this risk profile are based on population ince in Uzbekistan, with greater and gross domestic product (GDP) esti- color saturation indicating greater mates for 2015. The estimated damage GDP within a province. The blueKa pksn circles mndicate the risk of expe- Krklasa caused by historical events is inflated to 2015 US dollars. renghlndsofnda thq seing Ta nt man1 More than 60 percent of Uzbekistan's terms of normalized annual av- ,T."e CtKYGZRPBI population lives in rural environments. erage of affected GDP The largesta 0@123 The country's GDP was approximately circles represent the greatest nor- Khorezm Tskent US$66.0 billion in 2015, with most malized risk. The risk is estimated derived from services and industries using flood and earthquake riskd 5UK R 'knd zay E I T NS Th table displays the provinces at TOP AFFECTED PROVINCES greatest normalized risk for each CH INA peril. In relative terms, as shown ]:kaAJKSA Adp- in the table, the province at great- EARTHQUAKE est risk of floods is Andijan, and ha ANNUAL AVERAGE OF ANNUAL AVERAGE OF the one at greatest risk of earth - AFFECTED GDP () AFFECTED GDP () quakes is Namangan. In absolute 3 Andijn amanan 7 terms, the province at greatest AF CHA N Fergana 2 Andijan 7 risk of fl ood s is Fergana, a nd the Karakalpakstan 2 Fergana 6 one at greatest risk of earthquakes An nu al Average of Affe cte d GDP I(%) GDP (billions of $) Namangan 1 Ta sh ken t city 3 is Namangan. Sirdarya 1 Samarkand 3 7 There is a high correlation Bukhara I Tashkent 35 (r 0.95) between the Tashkent 1 Surkhanidarya 3 1 EARTHQUAKE f _p 16 p60population anid GDP of a Jizzakh 1 51ird arya 2 I LAM RE UB b I OF IR Nprovince. Samarkand 1 Jizzakh 2 C Kashkadarya I Kashkadarya 2 0 Negligible Uzb kis anWORLDBANKGROUP GFDRPE" EL ANDEENTRAL A51A(ECA) A flood that occurred in Uzbeki- If the impact of a 100-year event is stan in 2005 affected around much greater than that of a 10-year 1,500 people. event, then less frequent events make a larger contribution to the annual This map depicts the impact of flood- average of affected GDP. Thus, even ing on provinces' GDPs, represented if a province's annual affected GDP as percentages of their annual aver- seems small, less frequent and more age GDPs affected, with greater color intense events can still have large saturation indicating higher percent- impacts. ages. The bar graphs represent GDP affected by floods with return periods The annual average population affect- of 10 years (white) and 100 years ed by flooding in Uzbekistan is about (black). The horizontal line across the 400,000 and the annual average bars also shows the annual average of affected GDP about $800 million. For GDP affected by floods. most provinces, the 10- and 100- Karakalpakstan year impacts do not differ much, so When a flood has a 10-year return relatively frequent floods have large period, it means the probability of impacts on these averages. For the Kity occurrence of a flood of that magni- fewin which the 100-year impacts RNavoiyY tude or greater is 10 percent per year are much greater than the 10-year Ka Tashkent A 100-year flood has a probability impacts, less frequent events make a orezm TaihkInt of occurrence of 1 percent per year. significant contribution to the annual An n This means that over a long period of average of affected GDAn time, a flood of that magnitude will, Bukhara on average, occur once every 100 Samarkand years. It does not mean a 100-year CHINA flood will occur exactly once every KashkJ-ISTA 100 years. In fact, it is possible for a flood of any return period to occur 1A SA Fergana more than once in the same year, or Surkhandarya to appear in consecutive years, or not Affected GOP (%) for to happen at all over a long period of 10 and 100-year return periods time. One block= 1% 10 ArCHA N If the 10- and 100-year bars are the 5 Annual Average of Affected GDP (% same height, then the impact of a 10- year event is as large as that of a 100- Annual average 2 year event, and the annual average of affected GDP is dominated by events 10-year 100-year 0 1 d < that happen relatively frequently. Uzbekistan Uzbek stanWORLDBANKGROUP GF VGDR RROP EL RS[ AND PRFIE ECENTRAL A5IA(ECA) U zhekistan's worst earthquake than once in the same year, or to since 1900 took place in appear in consecutive years, or not 1902 in Andizhan, with a to happen at all over a long period magnitude of 6.4, and caused nearly of time. 5,000 fatalities. More recently, earthquakes in 1992 and 2011 If the 10- and 100-year bars are the caused approximately 10 fatalities same height, then the impact of a per event. Other major earthquakes 10-year event is as large as that of a KAZAKHSTAN affecting Uzbekistan occurred in 100-year event, and the annual aver- circa 838, 1966, and 1984. age of affected GDP is dominated by events that happen relatively fre- This map depicts the impact of quently. If the impact of a 100-year earthquakes on provinces' GDPs, event is much greater than that of represented as percentages of their a 10-year event, then less frequent annual average GDPs affected, with events make larger contributions to Karakalpakstan greater color saturation indicating the annual average of affected GDP. higher percentages. The bar graphs Thus, even if a province's annual Tashkent represent GDP affected by earth- affected GDP seems small, less fre- Tashkent Cty K quakes with return periods of 10 quent and more intense events can avoi U years (white) and 100 years (black). still have large impacts. Khorezm The horizontal line across the bars also shows the annual average of The annual average population af- GDP affected by earthquakes. fected by earthquakes in Uzbekistan a Sirdarya is about 1 million and the annual ara When an earthquake has a 10-year average affected GDP $2 billion. The return period, it means the prob- annual averages of fatalities and TURK MEN I TAN CHINA ability of occurrence of an earth- capital losses caused by earthquakes II TAN quake of that magnitude or greater are about 200 and about $900 is 10 percent per year. A 100-year million, respectively. The fatalities earthquake has a probability of and capital losses caused by more Affected GOP %forrya occurrence of 1 percent per year. intense, less frequent events can 10 and 100-year return periods This means that over a long period be substantially larger than the One block = 10% 100 of time, an earthquake of that mag- annual averages. For example, an AF GH A N nitude will, on average, occur once earthquake with a 0.4 percent every 100 years. It does not mean annual probability of occurrence (a ISLAME REPUBLIC OF IRAN a 100-year earthquake will occur 250-year return period event) could Annual average 2 exactly once every 100 years. In cause about 10,000 fatalities and fact, it is possible for an earthquake $10 billion in capital loss (about 20 10-year 100-year r C m Ip of any return period to occur more percent of GDP). Uzb kis anWORLDBANKGROUP E|GFDRR s"AND CENTRAL A51A(ECA) EARTHQUAKE EARTHQUAKE ANNUAL AVERAGE CAPITAL LOSS (MILLIONS $) ANNUAL AVERAGE FATALITIES he rose diagrams show the provinces with the potential 14 T for greatest annual average capital losses and highest annual average numbers of fatalities, as determined using an earthquake risk model. The potential for greatest capital Navoiy An 100 Tashkent Cit 1nan n 20 loss occurs in Namangan, which is not surprising, given the economic importance of the province. EARTHQUAKE EXCEEDANCE PROBABILITY CURVE, 2015 AND 2080 EXCEEDANCE PROBABILITY CURVE, 2015 AND 2080 he exceedance probability curves display the GDP 1 affected by, respectively, floods and earthquakes for 40 250 varying probabilities of occurrence. Values for two different 35 time periods are shown. A solid line depicts the affected 200 GDP for 2015 conditions. A diagonally striped band depicts 2080 30 the range of affected GDP based on a selection of climate 25150 2080 and socioeconomic scenarios for 2080. For example, if 20 SIUzbekistan had experienced a 100-year return period 15 flood event in 2015, the affected GDP would have been an estimated $4 billion. In 2080, however, the affected GDP 10 50 from the same type of event would range from about $20 2015 5 2015 billion to about $30 billion. If Uzbekistan had experienced a 2 50-year earthquake event in 2015, the affected GDP would 10 50 100 250 10 50 100 250 have been about $20 billion. In 2080, the affected GDP from Return period (years) Return period (years) the same type of event would range from about $100 billion .... to about $200 billion, due to population growth, urbaniza- 10 2 1~ 0.4 10 2 1 0.4 Probability (%) Probability (%) tion, and the increase in exposed assets. All historical data on floods and earthquakes are from D. Guha-Sapir, R. Below, and Ph. Hoyois, EM-DAT: International Disaster Database (Universiti Catholique de Louvain, Brussels, Belgium), www.emdat.be; the National Geophysical Data Center/World Data Service (NGDC/WDS), Significant Earthquake Database (National Geophysical Data Center, NOAA), doi:10.7289/V5TD9V7K; and J. Daniell and A. Schaefer, "Eastern Europe and Central Asia Region Earthquake Risk Assessment Country and Province Profiling," final report to GFDRR, 2014. Damage estimates for all historical events have been inflated to 2015 US$.