Jean Galbert, ONGONO OLINGA (2023): Agricultural Productivity and Climate Change: An Evidence of a non-linear Relationship in Sub-Saharan Africa. Forthcoming in:
Preview |
PDF
agricultural productivity and climate change in Sub-Saharan Countries.pdf Download (1MB) | Preview |
Abstract
This paper focuses on the relationship between agricultural productivity and climate change in sub-Saharan Africa. The main objective is to justify the observed upward trend in agricultural productivity as the temperature is increasing and rainfalls are decreasing. We argue that the relationship between agricultural productivity, temperature, and precipitation is non-linear. Specifically, there are thresholds from which the effect of temperature on agricultural productivity is exceeded by the effect of precipitation. We hypothesize that even if precipitation is decreasing, its level over a year is still sufficient for its positive effect on agricultural productivity to outweigh the negative effect of rising temperatures. Using data from the FAO database on seven different groups of crops, we estimate a Panel Smooth Transition regression model and results show that there is a non-linear relationship between agricultural productivity, temperature, and precipitation. On average, the effect of temperature on agricultural productivity is exceeded by the effect of precipitation observed over a year. We recommend that countries in Sub-Saharan Africa invest in agricultural research to find irrigation techniques that will mitigate the future effects of scarcity of rainwater owed to extremely hot temperatures.
| Item Type: | MPRA Paper |
|---|---|
| Original Title: | Agricultural Productivity and Climate Change: An Evidence of a non-linear Relationship in Sub-Saharan Africa |
| English Title: | Agricultural Productivity and Climate Change: An Evidence of a non-linear Relationship in Sub-Saharan Africa |
| Language: | English |
| Keywords: | Climate change, agriculture, PSTR |
| Subjects: | C - Mathematical and Quantitative Methods > C5 - Econometric Modeling > C50 - General N - Economic History > N5 - Agriculture, Natural Resources, Environment, and Extractive Industries > N57 - Africa ; Oceania O - Economic Development, Innovation, Technological Change, and Growth > O1 - Economic Development > O13 - Agriculture ; Natural Resources ; Energy ; Environment ; Other Primary Products |
| Item ID: | 117669 |
| Depositing User: | Dr. Jean Galbert ONGONO OLINGA |
| Date Deposited: | 20 Jun 2023 13:54 |
| Last Modified: | 20 Jun 2023 13:54 |
| References: | Abou Zaki, N., Torabi Haghighi, A., Rossi, P. M., Xenarios, S., and Kløve, B. (2018). An index-based approach to assess the water availability for irrigated agriculture in subsaharan africa. Water, 10(7). Adetutu, M. O. and Ajayi, V. (2020). The impact of domestic and foreign rd on agricultural productivity in sub-saharan africa. World Development, 125:104690. Alene, A. D. and Coulibaly, O. (2009). The impact of agricultural research on productivity and poverty in sub-saharan africa. Food Policy, 34(2):198–209. Bai, D., Ye, L., Yang, Z. Y., and Wang, G. (2022). Impact of climate change on agricultural productivity: a combination of spatial durbin model and entropy approaches. International Journal of Climate Change Strategies and Management. Binswanger, H. P. and Townsend, R. F. (2000). The growth performance of agriculture in subsaharan africa. American Journal of Agricultural Economics, 82(5):1075–1086. Block, S. A. (1995). The recovery of agricultural productivity in sub-saharan africa. Food Policy, 20(5):385–405. Getting Agriculture Moving. Butler, E. E., Mueller, N. D., and Huybers, P. (2018). Peculiarly pleasant weather for us maize. Proceedings of the National Academy of Sciences, 115(47):11935–11940. Béreau, S., Villavicencio, A. L., and Mignon, V. (2010). Nonlinear adjustment of the real exchange rate towards its equilibrium value: A panel smooth transition error correction modelling. Economic Modelling, 27(1):404–416. Canning, D. and Pedroni, P. L. (1999). Infrastructure and long run economic growth. Colletaz, G. and Hurlin, C. (2006). Threshold Effects of the Public Capital Productivity : An International Panel Smooth Transition Approach. Working Papers halshs-00008056, HAL. Delgado, C. L. (1998). Africa’s changing agricultural development strategies: Past and present paradigms as a guide to the future. The Brown Journal of World Affairs, 5(1):175–214. Drabo, A. (2017). Climate change mitigation and agricultural development models: Primary commodity exports or local consumption production? Ecological Economics, 137:110–125. Evenson, R. E. and Fuglie, K. O. (2010). Technology capital: the price of admission to the growth club. Journal of Productivity Analysis, 33:173–190. Fouquau, J., Hurlin, C., and Rabaud, I. (2008). The feldstein–horioka puzzle: A panel smooth transition regression approach. Economic Modelling, 25(2):284–299. Gonzalez, A., Teräsvirta, T., and van Dijk, D. (2005). Panel smooth transition regression models. Research Paper Series 165, Quantitative Finance Research Centre, University of Technology, Sydney. Hansen, B. E. (1999). Threshold effects in non-dynamic panels: Estimation, testing, and inference. Journal of Econometrics, 93(2):345–368. Hsiao, C. (2003). Analysis of Panel Data. Econometric Society Monographs. Cambridge University Press, 2 edition. Kahsay, G. A. and Hansen, L. G. (2016). The effect of climate change and adaptation policy on agricultural production in eastern africa. Ecological Economics, 121:54–64. Kapuka, A. and Hlásny, T. (2021). Climate change impacts on ecosystems and adaptation options in nine countries in southern africa: What do we know? Ecosphere, 12(12):e03860. Kaufmann, R. K. (1998). The impact of climate change on us agriculture: a response to mendelssohn et al. (1994). Ecological Economics, 26(2):113–119. Mabogunje, A. L. (1995). The environmental challenges in sub-saharan africa. Environment:Science and Policy for Sustainable Development, 37(4):4–10. Maia, A. G., Miyamoto, B. C. B., and Garcia, J. R. (2018). Climate change and agriculture: Do environmental preservation and ecosystem services matter? Ecological Economics, 152:27–39. Mendelsohn, R., Nordhaus, W. D., and Shaw, D. (1994). The impact of global warming on agriculture: A ricardian analysis. The American Economic Review, 84(4):753–771. Pesaran, M. and Smith, R. (1995). Estimating long-run relationships from dynamic heterogeneous panels. Journal of Econometrics, 68(1):79–113. Pranuthi, G. and Tripathi, S. (2018). Assessing the climate change and its impact on rice yields of haridwar district using precis rcm data. Climatic Change, 148(12):265–278. Quiggin, J. and Horowitz, J. K. (1999). The impact of global warming on agriculture: A ricardian analysis: Comment. American Economic Review, 89(4):1044–1045. Ratnasiri, S., Walisinghe, R., Rohde, N., and Guest, R. (2019). The effects of climatic variation on rice production in sri lanka. Applied Economics, 51(43):4700–4710. Roberts, M. J., Schlenker, W., and Eyer, J. (2013). Agronomic weather measures in econometric models of crop yield with implications for climate change. American Journal of Agricultural Economics, 95(2):236–243. Sommer, R., Glazirina, M., Yuldashev, T., Otarov, A., Ibraeva, M., Martynova, L., Bekenov, M., Kholov, B., Ibragimov, N., Kobilov, R., Karaev, S., Sultonov, M., Khasanova, F., Esanbekov, M., Mavlyanov, D., Isaev, S., Abdurahimov, S., Ikramov, R., Shezdyukova, L., and de Pauw, E. (2013). Impact of climate change on wheat productivity in central asia. Agriculture, Ecosystems Environment, 178:78–99. Ward, P. S., Florax, R. J. G. M., and Flores-Lagunes, A. (2013). Climate change and agricultural productivity in Sub-Saharan Africa: a spatial sample selection model. European Review of Agricultural Economics, 41(2):199–226. You, L.-Z. (2008). Africa : Irrigation investment Needs in Sub-Saharan Africa. Africa infrastructure country diagnostic background. World Bank. |
| URI: | https://mpra.ub.uni-muenchen.de/id/eprint/117669 |
All papers reproduced by permission. Reproduction and distribution subject to the approval of the copyright owners.
 |
View Item |
