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No Access

DOES HARMFUL CLIMATE INCREASE OR DECREASE MIGRATION? EVIDENCE FROM RURAL HOUSEHOLDS IN NIGERIA

    https://doi.org/10.1142/S2010007819500131Cited by:1
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    Abstract

    This paper analyzes whether migration is an adaptation strategy that households employ to cope with climate in Nigeria. We estimate our model using the cross-sectional variation in climate and long-term migration decisions because we are interested in the average response to long-term climatic conditions. For households that operate farms, we find that the relationship between climate and migration is nonlinear. In particular, climates closer to ideal farming conditions are associated with a higher propensity to migrate, whereas in the least favorable climatic conditions, the propensity to migrate declines. The marginal effect of rainfall and temperature changes on migration varies by season. We estimate the impact of climate change on the number of migrant households in 2031–2060 and 2071–2100, ceteris paribus. With current population levels, climate change generates between 3.6 and 6.3 million additional migrants, most of them being internal. However, these estimates are not statistically significant.

    JEL Codes: O15, Q54, R23

    References

    • Albouy, D, W Graf, R Kellogg and H Wolff [2016] Climate amenities, climate change, and American quality of life. Journal of the Association of Environmental and Resource Economists, 3, 205–246. CrossrefGoogle Scholar
    • Barreca, A, K Clay, O Deschenes, M Greenstone and JS Shapiro [2016] Adapting to climate change: The remarkable decline in the US temperature-mortality relationship over the twentieth century. Journal of Political Economy, 124(1), 105–159. CrossrefGoogle Scholar
    • Barrios, S, L Bertinelli and E Strobl [2006] Climatic change and rural–urban migration: The case of sub-Saharan Africa. Journal of Urban Economics, 60, 357–371. CrossrefGoogle Scholar
    • Bazzi, S [2017] Wealth heterogeneity and the income elasticity of migration. American Economic Journal: Applied Economics, 9(2), 219–255. CrossrefGoogle Scholar
    • Beine, M and C Parsons [2015] Climatic factors as determinants of international migration. The Scandinavian Journal of Economics, 117, 723–767. CrossrefGoogle Scholar
    • Black, R, J Crush, S Pederby, S Ammassari, L McLean Hilker, S Mouillesseaux, C Pooley and R Rajkotia [2006] Migration and Development in Africa: An Overview. Migration and Development Series. South Africa and Ontario: Southern African Migration Project Cape Town, Chapter 2, p. 27. Google Scholar
    • Black, R, SR Bennett, SM Thomas and JR Beddington [2011] Climate change: Migration as adaptation. Nature, 478, 447. CrossrefGoogle Scholar
    • Bohra-Mishra, P, M Oppenheimer and SM Hsiang [2014] Nonlinear permanent migration response to climatic variations but minimal response to disasters. Proceedings of the National Academy of Sciences, 111(27), 9780–9785. CrossrefGoogle Scholar
    • Borjas, GJ [1987] Self-selection and the earnings of immigrants. American Economic Review, 77(4), 531–553. Google Scholar
    • Bryan, G, S Chowdhury and AM Mobarak [2014] Underinvestment in a profitable technology: The case of seasonal migration in Bangladesh. Econometrica, 82, 1671–1748. CrossrefGoogle Scholar
    • Burke, M and K Emerick [2016] Adaptation to climate change: Evidence from US agriculture. American Economic Journal: Economic Policy, 8(3), 106–140. CrossrefGoogle Scholar
    • Cai, R, S Feng, M Pytliková and M Oppenheimer [2016] Climate variability and international migration: The importance of the agricultural linkage. Journal of Environmental Economics and Management, 79, 135–151. CrossrefGoogle Scholar
    • Cameron, AC and PK Trivedi [2005] Microeconometrics: Methods and Applications. Cambridge University Press. CrossrefGoogle Scholar
    • Cattaneo, C and G Peri [2016] The migration response to increasing temperatures. Journal of Development Economics, 122, 127–146. CrossrefGoogle Scholar
    • Chen, JJ, V Mueller, Y Jia and SK-H Tseng [2017] Validating migration responses to flooding using satellite and vital registration Data. American Economic Review, 107, 441–445. CrossrefGoogle Scholar
    • Coniglio, ND and G Pesce [2015] Climate variability and international migration: An empirical analysis. Environment and Development Economics, 20, 434–468. CrossrefGoogle Scholar
    • Conley, TG [1999] GMM estimation with cross sectional dependence. Journal of Econometrics, 92, 1–45. CrossrefGoogle Scholar
    • Couttenier, M and R Soubeyran [2014] Drought and civil war in sub-saharan africa. The Economic Journal, 124, 201–244. CrossrefGoogle Scholar
    • Dell, M, BF Jones and BA Olken [2014] What do we learn from the weather? The new climate–economy literature. Journal of Economic Literature, 52, 740–798. CrossrefGoogle Scholar
    • Deschênes, O and M Greenstone [2007] The economic impacts of climate change: Evidence from agricultural output and random fluctuations in weather. The American Economic Review, 97(1), 354–385. CrossrefGoogle Scholar
    • Dillon, A, V Mueller and S Salau [2011] Migratory responses to agricultural risk in northern Nigeria. American Journal of Agricultural Economics, 93, 1048–1061. CrossrefGoogle Scholar
    • Gray, C and R Bilsborrow [2013] Environmental influences on human migration in rural Ecuador. Demography, 50, 1217–1241. CrossrefGoogle Scholar
    • Gray, C and V Mueller [2012a] Drought and population mobility in rural Ethiopia. World Development, 40, 134–145. CrossrefGoogle Scholar
    • Gray, CL and V Mueller [2012b] Natural disasters and population mobility in Bangladesh. Proceedings of the National Academy of Sciences, 109, 6000–6005. CrossrefGoogle Scholar
    • Gray, C and E Wise [2016] Country-specific effects of climate variability on human migration. Climatic Change, 135, 555–568. CrossrefGoogle Scholar
    • Gray, CL [2009] Environment, land, and rural out-migration in the southern Ecuadorian Andes. World Development, 37, 457–468. CrossrefGoogle Scholar
    • Henry, S, B Schoumaker and C Beauchemin [2004] The impact of rainfall on the first out-migration: A multi-level event-history analysis in Burkina Faso. Population and Environment, 25, 423–460. CrossrefGoogle Scholar
    • Hsiang, S [2016] Climate econometrics. Annual Review of Resource Economics, 8, 43–75. CrossrefGoogle Scholar
    • IFAD-FAO (2005). A review of cassava in Africa. With Country Case Studies on Nigeria, Ghana, the United Republic of Tanzania, Uganda and Benin. In Proceeding of the Validation Forum on the Global Cassava Development Strategy. Rome: IFAD-FAO. Google Scholar
    • IPCC (2014). Summary for policymakers. In: Climate Change 2014: Impacts, Adaptation, and Vulnerability. Part A: Global and Sectoral Aspects. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change, Field, CB, VR Barros, DJ Dokken, KJ Mach, MD Mastrandrea, TE Bilir, M Chatterjee, KL Ebi, YO Estrada, RC Genova, B Girma, ES Kissel, AN Levy, S MacCracken, PR Mastrandrea and LL White (eds.). Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, pp. 1–32. Google Scholar
    • Jalan, J and M Ravallion [2002] Geographic poverty traps? A micro model of consumption growth in rural China. Journal of Applied Econometrics, 17, 329–346. CrossrefGoogle Scholar
    • Kelley, CP, S Mohtadi, MA Cane, R Seager and Y Kushnir [2015] Climate change in the fertile crescent and implications of the recent Syrian drought. Proceedings of the National Academy of Sciences, 112, 3241–3246. CrossrefGoogle Scholar
    • Kleemans, M [2015] Migration Choice Under Risk and Liquidity Constraints. Urbana-Champaign: Mimeo University of Illinois. Google Scholar
    • Lemoine, D (2018). Estimating the consequences of climate change from variation in weather. National Bureau of Economic Research Working Paper No. 25008. Google Scholar
    • Marchiori, L, J-F Maystadt and I Schumacher [2012] The impact of weather anomalies on migration in sub-Saharan Africa. Journal of Environmental Economics and Management, 63, 355–374. CrossrefGoogle Scholar
    • Massetti, E and R Mendelsohn [2018] Measuring climate adaptation: Methods and evidence. Review of Environmental Economics and Policy, 12(2), 324–341. CrossrefGoogle Scholar
    • Mastrorillo, M, R Licker, P Bohra-Mishra, G Fagiolo, LD Estes and M Oppenheimer [2016] The influence of climate variability on internal migration flows in South Africa. Global Environmental Change, 39, 155–169. CrossrefGoogle Scholar
    • Mendelsohn, R, DN William and S Daigee [1994] The impact of global Warming on agriculture: A ricardian analysis. American Economic Review, 84(4), 753–771. Google Scholar
    • Mendelsohn, RO and A Dinar [2009] Climate change and agriculture: An economic analysis of global impacts, adaptation and distributional effects. Cheltenham, UK: Edward Elgar Publishing. CrossrefGoogle Scholar
    • Mendelsohn, RO and E Massetti [2017] The use of cross-sectional analysis to measure climate impacts on agriculture: Theory and evidence. Review of Environmental Economics and Policy, 11, 280–298. CrossrefGoogle Scholar
    • Mendelsohn, R and N Seo (2007). Changing farm types and irrigation as an adaptation to climate change in Latin American agriculture. World Bank Policy Research Working Paper 4161. Google Scholar
    • Mueller, V, C Gray and K Kosec [2014] Heat stress increases long-term human migration in rural Pakistan. Nature Climate Change, 4, 182–185. CrossrefGoogle Scholar
    • Munshi, K [2003] Networks in the modern economy: Mexican migrants in the US labor market. The Quarterly Journal of Economics, 118, 549–599. CrossrefGoogle Scholar
    • New, M, D Lister, M Hulme and I Makin [2002] A high-resolution data set of surface climate over global land areas. Climate Research, 21, 1–25. CrossrefGoogle Scholar
    • Özden, Ç, CR Parsons, M Schiff and TL Walmsley [2011] Where on earth is everybody? The evolution of global bilateral migration 1960–2000. The World Bank Economic Review, 25, 12–56. CrossrefGoogle Scholar
    • Porter, JR, L Xie, AJ Challinor, K Cochrane, SM Howden, MM Iqbal, DB Lobell and MI Travasso (2014). Food Security and Food Production Systems. In Climate Change 2014: Impacts, Adaptation, and Vulnerability. Part A: Global and Sectoral Aspects. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel of Climate Change, CB Field, VR Barros, DJ Dokken, KJ Mach, MD Mastrandrea, TE Bilir, M Chatterjee, KL Ebi, YO Estrada, RC Genova, B Girma, ES Kissel, AN. Levy, S MacCracken, PR Mastrandrea, LL White (eds), Cambridge, United Kingdom and New York, NY, USA: Cambridge University Press, pp. 485–533. Google Scholar
    • Roy, AD (1951). Some thoughts on the distribution of earnings. Oxford Economic Paper, 3(2), 35–46. Google Scholar
    • Schlenker, W, WM Hanemann and AC Fisher [2005] Will US agriculture really benefit from global warming? Accounting for irrigation in the hedonic approach. American Economic Review, 95(1), 395–406. CrossrefGoogle Scholar
    • Schlenker, W and DB Lobell [2010] Robust negative impacts of climate change on African agriculture. Environmental Research Letters, 5(1), 014010. CrossrefGoogle Scholar
    • Seo, NS [2010] Is an integrated farm more resilient against climate change? A micro-econometric analysis of portfolio diversification in African agriculture. Food Policy, 35(1), 32–40. CrossrefGoogle Scholar
    • Stark, O and DE Bloom [1985] The new economics of labor migration. The American Economic Review, 75, 173–178. Google Scholar
    • Tol, RS [2018] The economic impacts of climate change. Review of Environmental Economics and Policy, 12, 4–25. CrossrefGoogle Scholar
    • Van Vuuren, DP, J Edmonds, M Kainuma, K Riahi, A Thomson, K Hibbard, GC Hurtt, T Kram, V Krey and J-F Lamarque [2011] The representative concentration pathways: An overview. Climatic Change, 109, 5–31. CrossrefGoogle Scholar
    • Wooldridge, JM [2010] Econometric Analysis of Cross Section and Panel Data. MIT Press. Google Scholar
    • Yang, D and H Choi [2007] Are remittances insurance? Evidence from rainfall shocks in the Philippines. The World Bank Economic Review, 21, 219–248. CrossrefGoogle Scholar
    Published: 26 August 2019
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