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Land and poverty: the role of soil fertility and vegetation quality in poverty reduction

Published online by Cambridge University Press:  17 March 2020

Martin Philipp Heger*
Affiliation:
World Bank, Washington, DC, USA
Gregor Zens
Affiliation:
Department of Economics, Vienna University of Economics and Business, Vienna, Austria
Mook Bangalore
Affiliation:
London School of Economics, London, UK
*
*Corresponding author. E-mail: [email protected]

Abstract

The debate on the land–poverty nexus is inconclusive, with past research unable to identify the causal dynamics. We use a unique global panel dataset that links survey and census derived poverty data with measures of land ecosystems at the subnational level. Rainfall is used to overcome the endogeneity in the land–poverty relationship in an instrumental variable approach. This is the first global study using quasi-experimental methods to uncover the degree to which land improvements matter for poverty reduction. We draw three main conclusions. First, land improvements are important for poverty reduction in rural areas and particularly so for Sub-Saharan Africa. Second, land improvements are pro-poor: poorer areas see larger poverty alleviation effects due to improvements in land. Finally, irrigation plays a major role in breaking the link between bad weather and negative impacts on the poor through reduced vegetation growth and soil fertility.

Type
Research Article
Copyright
Copyright © The Author(s) 2020. Published by Cambridge University Press

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References

Alene, AD, Abdoulaye, T, Rusike, J, Labarta, R, Creamer, B, del Río, M, Ceballos, H and Becerra, LA (2018) Identifying crop research priorities based on potential economic and poverty reduction impacts: the case of cassava in Africa, Asia, and Latin America. PloS One 13, e0201803.CrossRefGoogle ScholarPubMed
Alix-Garcia, JM, Sims, KR and Yañez-Pagans, P (2015) Only one tree from each seed? Environmental effectiveness and poverty alleviation in Mexico's Payments for Ecosystem Services Program. American Economic Journal: Economic Policy 7, 140.Google Scholar
Amaral, S, Câmara, G, Monteiro, AMV, Quintanilha, JA and Elvidge, CD (2005) Estimating population and energy consumption in Brazilian Amazonia using DMSP night-time satellite data. Computers, Environment and Urban Systems 29, 179195.CrossRefGoogle Scholar
Ang, JB and Gupta, K (2018) Agricultural yield and conflict. Journal of Environmental Economics and Management 92, 397417.CrossRefGoogle Scholar
Angelsen, A, Jagger, P, Babigumira, R, Belcher, B, Hogarth, NJ, Bauch, S and Wunder, S (2014) Environmental income and rural livelihoods: a global-comparative analysis. World Development 64(suppl. 1), 1228.CrossRefGoogle ScholarPubMed
Angima, SD, Stott, DE, O'neill, MK, Ong, CK and Weesies, GA (2003) Soil erosion prediction using RUSLE for central Kenyan highland conditions. Agriculture, Ecosystems and Environment 97, 295308.CrossRefGoogle Scholar
Angulo-Martínez, M and Beguería, S (2009) Estimating rainfall erosivity from daily precipitation records: a comparison among methods using data from the Ebro Basin (NE Spain). Journal of Hydrology 379, 111121.CrossRefGoogle Scholar
Arouri, M, Ben Youssef, A and Nguyen, C (2017) Does urbanization reduce rural poverty? Evidence from Vietnam. Economic Modelling 60, 253270.CrossRefGoogle Scholar
Ayongwa, GC, Stomph, TJ, Belder, P, Leffelaar, PA and Kuyper, TW (2011) Organic matter and seed survival of Striga hermonthica–mechanisms for seed depletion in the soil. Crop Protection 30, 15941600.CrossRefGoogle Scholar
Barbier, EB (2000) The economic linkages between rural poverty and land degradation: some evidence from Africa. Agriculture, Ecosystems and Environment 82, 355370.CrossRefGoogle Scholar
Barbier, EB (2010) Poverty, development and environment. Environment and Development Economics 15, 635660.CrossRefGoogle Scholar
Barbier, EB and Hochard, JP (2016) Does land degradation increase poverty in developing countries? PloS one 11, e0152973.CrossRefGoogle ScholarPubMed
Barbier, EB and Hochard, JP (2018) Land degradation and poverty. Nature Sustainability 1, 623631.CrossRefGoogle Scholar
Barrett, CB and Bevis, LE (2015 a) The micronutrient deficiencies challenge in African Food Systems. In Sahn, DE (ed.), The Fight Against Hunger and Malnutrition: The Role of Food, Agriculture, and Targeted Policies. Oxford: Oxford University Press, pp. 6188.CrossRefGoogle Scholar
Barrett, CB and Bevis, LE (2015 b) The self-reinforcing feedback between low soil fertility and chronic poverty. Nature Geoscience 8, 907912.CrossRefGoogle Scholar
Barrett, CB and Swallow, BM (2006) Fractal poverty traps. World Development 34, 115.CrossRefGoogle Scholar
Barrios, L, Bertinelli, L and Strobl, E (2010) Trends in rainfall and economic growth in Africa: a neglected cause of the African growth tragedy. The Review of Economics and Statistics 92, 350366.CrossRefGoogle Scholar
Berman, N, Couttenier, M and Soubeyran, R (2017) Fertile ground for conflict. CEPR Discussion Paper No. DP12211. Centre for Economic Policy Research, London, UK.Google Scholar
Bhagwati, J and Srinivasan, TN (2002) Trade and poverty in the poor countries. American Economic Review 92, 180183.CrossRefGoogle Scholar
Blattman, C and Miguel, E (2010) Civil War. Journal of Economic Literature 48, 357.CrossRefGoogle Scholar
Brenneman, A and Kerf, M (2002) Infrastructure and Poverty Linkages. A Literature Review. Washington, DC: The World Bank.Google Scholar
Christiaensen, L, De Weerdt, J and Todo, Y (2013) Urbanization and poverty reduction: the role of rural diversification and secondary towns. Agricultural Economics 44, 435447.CrossRefGoogle Scholar
CIESIN (2016) Gridded Population of the World, Version 4 (GPWv4): Administrative Unit Center Points with Population Estimates. Palisades, NY: NASA Socioeconomic Data and Applications Center (SEDAC).Google Scholar
Crespo-Cuaresma, J and Heger, M (2019) Deforestation and economic development: evidence from national borders. Land Use Policy 84, 347353.CrossRefGoogle Scholar
Duraiappah, AK (1998) Poverty and environmental degradation: a review and analysis of the nexus. World Development 26, 21692179.CrossRefGoogle Scholar
Eswaran, H, Almaraz, R, van den Berg, E and Reich, P (1997) An assessment of the soil resources of Africa in relation to productivity. Geoderma 77, 118.CrossRefGoogle Scholar
Eswaran, H, Lal, R and Reich, PF (2001) Land degradation: an overview. In Bridges, EM, Hannam, ID, Oldeman, LR, Pening de Vries, FWT, Scherr, SJ and Sompatpanit, S (eds), Responses to Land Degradation, Proceedings of 2nd International Conference on Land Degradation and Desertification, Khon Kaen, Thailand. New Delhi: Oxford Press, pp. 2035.Google Scholar
Fu, BJ, Zhao, WW, Chen, LD, Zhang, QJ, , YH, Gulinck, H and Poesen, J (2005) Assessment of soil erosion at large watershed scale using RUSLE and GIS: a case study in the Loess Plateau of China. Land Degradation and Development 16, 7385.CrossRefGoogle Scholar
Garrity, DP, Akinnifesi, FK, Ajayi, OC, Weldesemayat, SG, Mowo, JG, Kalinganire, A, Larwanou, M and Bayala, J (2010) Evergreen agriculture: a robust approach to sustainable food security in Africa. Food Security 2, 197214.CrossRefGoogle Scholar
Gennaioli, N, La Porta, R, Lopez-de-Silanes, F and Shleifer, A (2013) Human capital and regional development. The Quarterly Journal of Economics 128, 105164.CrossRefGoogle Scholar
Gibson, J and Rozelle, S (2003) Poverty and access to roads in Papua New Guinea. Economic Development and Cultural Change 52, 159185.CrossRefGoogle Scholar
Goodhand, J (2001) Violent conflict, poverty and chronic poverty. CPRC Working Paper 6, Chronic Poverty Research Centre.CrossRefGoogle Scholar
Harber, C (2002) Education, democracy and poverty reduction in Africa. Comparative Education 38, 267276.CrossRefGoogle Scholar
Hernando, D and Romana, MG (2015) Estimating the rainfall erosivity factor from monthly precipitation data in the Madrid Region (Spain). Journal of Hydrology and Hydromechanics 63, 5562.CrossRefGoogle Scholar
Hiederer, R and Kochy, M (2012) Global Soil Organic Carbon Estimates and the Harmonized World Soil Database. EUR Scientific and Technical Research series.Google Scholar
Hulme, M (1992) A 1951–80 global land precipitation climatology for the evaluation of General Circulation Models. Climate Dynamics 7, 5772.CrossRefGoogle Scholar
Hulme, M (1994) Validation of large-scale precipitation fields in General Circulation Models. In Desbois, M and Desalmand, F (eds), Global Precipitations and Climate Change. Berlin: Springer Verlag, NATO ASI Series, pp. 387405.CrossRefGoogle Scholar
Hulme, M, Osborn, TJ and Johns, TC (1998) Precipitation sensitivity to global warming: comparison of observations with HadCM2 simulations. Geophysical Research Letters 25, 33793382.CrossRefGoogle Scholar
Jacoby, H (2000) Access to markets and the benefits of rural roads. Economic Journal 465, 713737.CrossRefGoogle Scholar
Jacoby, H and Minten, B (2009) On measuring the benefits of lower transport costs. Journal of Development Economics 89, 2838.CrossRefGoogle Scholar
Kang, GZ, Li, GZ, Liu, GQ, Xu, W, Peng, XQ, Wang, CY, Zhu, YJ and Guo, TC (2013) Exogenous salicylic acid enhances wheat drought tolerance by influence on the expression of genes related to ascorbate-glutathione cycle. Biologia Plantarum 57, 718724.CrossRefGoogle Scholar
Khandker, SR, Bakht, Z and Koolwal, GB (2009) The poverty impact of rural roads: evidence from Bangladesh. Economic Development and Cultural Change 57, 685722.CrossRefGoogle Scholar
Koren, O (2018) Food abundance and violent conflict in Africa. American Journal of Agricultural Economics 100, 9811006.CrossRefGoogle Scholar
Krishna, A, Lumonya, D, Markiewicz, M, Mugumya, F, Kafuko, A and Wegoye, J (2006) Escaping poverty and becoming poor in 36 villages of Central and Western Uganda. The Journal of Development Studies 42, 346370.CrossRefGoogle Scholar
Lal, R (2004) Soil carbon sequestration impacts on global climate change and food security. Science (New York, N.Y.) 304, 16231627.CrossRefGoogle ScholarPubMed
Lambin, EF, Turner, BL, Geist, HJ, Agbola, SB, Angelsen, A, Bruce, JW, Coomes, OT, Dirzo, R, Fischer, G, Folke, C, George, PS, Homewood, K, Imbernon, J, Leemans, R, Li, X, Moran, EF, Mortimore, M, Ramakrishnan, PS, Richards, JF, Skånes, H, Steffen, W, Stone, GD, Svedin, U, Veldkamp, TA, Vogel, C and Xu, J (2001) The causes of land-use and land-cover change: moving beyond the myths. Global Environmental Change 11, 261269.CrossRefGoogle Scholar
Liu, Y, Zhou, Y, Ju, W, Wang, S, Wu, X, He, M and Zhu, G (2014) Impacts of droughts on carbon sequestration by China's terrestrial ecosystems from 2000 to 2011. Biogeosciences (Online) 11, 25832599.CrossRefGoogle Scholar
Louwagie, G, Gay, SH and Burrell, A (2009) Addressing soil degradation in EU agriculture: relevant processes, practices and policies. Report on the project ‘Sustainable Agriculture and Soil Conservation (SoCo)’, JRC Scientific and Technical Reports.Google Scholar
Lufafa, A, Tenywa, MM, Isabirye, M, Majaliwa, MJG and Woomer, PL (2003) Prediction of soil erosion in a Lake Victoria basin catchment using a GIS-based Universal Soil Loss model. Agricultural Systems 76, 883894.CrossRefGoogle Scholar
Luft, HS (1975) The impact of poor health on earnings. The Review of Economics and Statistics 57, 4357.CrossRefGoogle Scholar
Miguel, E (2005) Poverty and witch killing. The Review of Economic Studies 72, 11531172.CrossRefGoogle Scholar
Miguel, E, Satyanath, S and Sergenti, E (2004) Economic shocks and civil conflict: an instrumental variables approach. Journal of Political Economy 112, 725753.CrossRefGoogle Scholar
Mueller, L, Schindler, U, Mirschel, W, Shepherd, TG, Ball, BC, Helming, K and Wiggering, H (2010) Assessing the productivity function of soils. A review. Agronomy for Sustainable Development 30, 601614.CrossRefGoogle Scholar
NCAR (2017) The Climate Data Guide: CRU TS Gridded precipitation and other meteorological variables since 1901. Available at https://climatedataguide.ucar.edu/climate-data/cru-ts-gridded-precipitation-and-other-meteorological-variables-1901.Google Scholar
Nkonya, E, Mirzabaev, A and Von Braun, J (2016) Economics of Land Degradation and Improvement: A Global Assessment for Sustainable Development. New York: Springer.CrossRefGoogle Scholar
Nunn, N and Puga, D (2012) Ruggedness: the blessing of bad geography in Africa. Review of Economics and Statistics 94, 2036.CrossRefGoogle Scholar
Okwi, PO, Ndeng'e, G, Kristjanson, P, Arunga, M, Notenbaert, A, Omolo, A, Henninger, N, Benson, T, Kariuki, P and Owuor, J (2007) Spatial determinants of poverty in rural Kenya. Proceedings of the National Academy of Sciences of the USA (PNAS) 104, 1676916774.CrossRefGoogle ScholarPubMed
Paxson, C (1992) Using weather variability to estimate the response of savings to transitory income in Thailand. The American Economic Review 82, 1533.Google Scholar
Phillips, LB, Hansen, AJ and Flather, CH (2008) Evaluating the species energy relationship with the newest measures of ecosystem energy: NDVI versus MODIS primary production. Remote Sensing of Environment 112, 43814392.CrossRefGoogle Scholar
Playán, E, Sagardoy, A and Castillo, R (2018) Irrigation governance in developing countries: current problems and solutions. Water 10, article 1 118, 1–28.CrossRefGoogle Scholar
Ravallion, M (2001) Growth, inequality and poverty: looking beyond averages. World Development 29, 18031815.CrossRefGoogle Scholar
Sanchez, PA, Shepherd, KD, Soule, MJ, Place, FM, Buresh, RJ, Izac, A-MN, Mokwunye, AU, Kwesiga, FR, Ndiritu, CG and Woomer, PL (1997) Soil fertility replenishment in Africa: an investment in natural resource capital. In Buresh, RJ, Sanchez, PA and Calhoun, F (eds), Replenishing Soil Fertility in Africa. Madison, Wisconsin: American Society of Agronomy Inc, pp. 146.Google Scholar
Sarsons, H (2015) Rainfall and conflict: a cautionary tale. Journal of Development Economics 115, 6272.CrossRefGoogle Scholar
Schippers, P, Sterck, F, Vlam, M and Zuidema, PA (2015) Tree growth variation in the tropical forest: understanding effects of temperature, rainfall and CO2. Global Change Biology 21, 27492761.CrossRefGoogle ScholarPubMed
Suich, H, Howe, C and Mace, G (2015) Ecosystem services and poverty alleviation: a review of the empirical links. Ecosystem Services 12, 137147.CrossRefGoogle Scholar
USDA (1999) Soil Taxonomy: A Basic System of Soil Classification for Making and Interpreting Soil Surveys. Washington, DC: United States Department of Agriculture.Google Scholar
Vlam, M, Baker, PJ, Bunyavejchewin, S and Zuidema, PA (2014) Temperature and rainfall strongly drive temporal growth variation in Asian tropical forest trees. Oecologia 174, 14491461.CrossRefGoogle ScholarPubMed
Wantchekon, L and Stanig, P (2015) The curse of good soil? Land fertility, roads and rural poverty in Africa. Working Paper, Princeton University.Google Scholar
Wong, MTF and Asseng, S (2006) Determining the causes of spatial and temporal variability of wheat yields at sub-field scale using a new method of upscaling a crop model. Plant and Soil 283, 203215.CrossRefGoogle Scholar
World Bank (2016) Poverty and Shared Prosperity 2016: Taking on Inequality. Washington, DC: The World Bank.Google Scholar
Wunder, S (2015) Revisiting the concept of payments for environmental services. Ecological Economics 117, 234243.CrossRefGoogle Scholar
Yang, D and Choi, H (2007) Are remittances insurance? Evidence from rainfall shocks in the Philippines. The World Bank Economic Review 21, 219248.CrossRefGoogle Scholar
Yan, H, Wang, SQ, Lu, HQ, Yu, Q, Zhu, ZC, Myneni, R, Liu, Q and Shugart, H (2014) Development of a remotely sensing seasonal vegetation‐based Palmer drought severity index and its application of global drought monitoring over 1982–2011. Journal of Geophysical Research: Atmospheres 119, 94199440.Google Scholar
You, L, Ringler, C, Wood-Sichra, U, Robertson, R, Wood, S, Zhu, T, Nelson, G, Guo, Z and Sun, Y (2011) What is the irrigation potential for Africa? A combined biophysical and socioeconomic approach. Food Policy 36, 770782.CrossRefGoogle Scholar
Zuazo, VHD and Pleguezuelo, CRR (2008) Soil-erosion and runoff prevention by plant covers. A review. Agronomy for Sustainable Development 1, 6586.CrossRefGoogle Scholar
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