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Impact of Climate Change on Agricultural Production in the Sahel – Part 1. Methodological Approach and Case Study for Millet in Niger

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Abstract

In the last 30 years the climate of the West African Sahel has shown various changes, especially in terms of rainfall, of which inter-annual variabilityis very high. This has significant consequences for the poor-resource farmers, whose incomes depend mainly on rainfed agriculture. The West African Sahel is already known as an area characterized by important interaction between climate variability and key socio-economic sectors such as agriculture and water resources. More than 80% of the 55 million population of West African Sahel is rural, involved in agriculture and stock-farming, the two sectors contributing almost 35% of the countries' GDPs. It is thereforeobvious that climate change seriously affects the economies of these countries. Adding to this situation the high rate of population increase(∼3%), leading to progressive pressure upon ecosystems, and poorsanitary facilities, one comes to the conclusion that Sahelian countries, Niger amongst them, will be highly vulnerable to climate change.This paper investigates the impact of current climate variability and future climate change on millet production for three major millet-producing regions in Niger. Statistical models have been used to predict the effects of climate change on future production on the basis of thirteen available predictors. Based on the analysis of the past 30-years of rainfall and production data, the most significant predictors of the model are (i) seasurface temperature anomalies, (ii) the amount of rainfall in July, August and September, (iii) the number of rainy days and (iv) the wind erosion factor. In 2025, production of millet is estimated to be about 13% lower as a consequence of climate change, translated into a reduction of the total amount of rainfall for July, August and September, combined with an increase in temperature while maintaining other significant predictors at a constant level. Subsequently,various potential strategies to compensate this loss are evaluated, including those to increase water use efficiency and to cultivate varieties that are adapted to such circumstances.

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References

  • Amadou, M., Gandah, M., Bielders, C. L., and van Duivenbooden, N.: 1999, 'Optimizing Soil Water Use in Niger: Research, Development, and Perspectives', in van Duivenbooden, N., Pala, M., Studer, C., and Bielders, C. L. (eds.), Efficient Soil Water Use — The Key to Sustainable Crop Production in Dry-Area Agriculture in West Asia, and North and Sub-Saharan Africa, Proceedings of the 1998 and 1999 workshops of the Optimizing Soil Water Use (OSWU) Consortium, ICARDA, Aleppo, Syria and ICRISAT, Niamey, Niger, pp. 143-164.

    Google Scholar 

  • Ben Mohamed, A.: 1985, Turbidity and Humidity Parameters in Sahel: Possible Climatic Implications, Special Environmental Report No. 16, Lectures Presented at the WMO Technical Conference on Observation and Measurement of Atmospheric Contaminants — TECOMAC, Vienna 17-21 October 1983, WMO, No. 647, pp. 82-93.

  • Ben Mohamed, A.: 1998, 'Wind Erosion in Niger: Extent, Current Research and Ongoing Soil Conservation Activities', in Sivakumar, M. V. K., Zöbisch, M., Koala, S., and Maukonen, T. (eds), Wind Erosion in Africa and West Asia: Problems and Control Strategies, ICARDA, Aleppo, Syria, pp. 125-133.

    Google Scholar 

  • Daouda, M., Ozer, P., and Erpicum, M.: 1998, 'Conséquences de la sécheresse sur la longueur et l'amplitude de la saison des pluies au Niger', in Demarée, G., Alexandre, J., and De Dapper, M. (eds.), Proceedings Intern. Conf. Tropical Climatology, Meteorology and Hydrology, Brussels, 22-24 May 1996, Royal Meteorological Institute of Belgium and Royal Academy of Overseas Sciences, Brussels, Belgium, pp. 497-506.

    Google Scholar 

  • FAO (Food and Agricultural Organization): 1993, Programme national de gestion des ressources naturelles, Mission de préparation-Rome, Vol. 1 (rapport principal et annexes 1-3), FAO, Rome, Italy, p. 69.

    Google Scholar 

  • FAO: 1995, The Keita Integrated Rural Development project, FAO, Rome, Italy, p. 39.

    Google Scholar 

  • Hoogmoed, W. B.: 1986, Analysis of Rainfall Data Relating to the Number of Days Available for Tillage and Planting in Some Selected Locations in Niger, Rep. 86-4, Agric. Univ., Wageningen, Netherlands and ICRISAT Sahelian Center, Niamey, Niger.

    Google Scholar 

  • ICRISAT and FAO: 1996, The World Sorghum and Millet Economies, ICRISAT, Patancheru, India and FAO, Rome, Italy, p. 68.

    Google Scholar 

  • IPCC (Intergovernmental Panel on Climate Change): 1995a, Directives techniques du GIEC pour l'évaluation des incidences de l'évolution du climat et des stratégies d'adaptation, IPCC, Cambridge, U.K., p. 62.

    Google Scholar 

  • IPCC: 1995b, The Situation of Climate Change: Contribution of WGI to the Second Assessment Report of the IPCC, IPCC, Cambridge, U.K.

    Google Scholar 

  • Kraus, E. B.: 1977, 'Subtropical Droughts and Cross-Equatorial Energy Transport', Mon. Wea. Rev. 105, 1009-1018.

    Google Scholar 

  • Ly, S. A., Bielders, C. L., van Duivenbooden, N., Tassiou, A., Gouro, A. S., and Anand Kumar, K.: 1998, Technologies diffusables et transférables aux producteurs, INRAN/ICRISAT, Niamey, 1ère Partie: Dossiers techniques, p. 95; 2ème Partie: Fiches techniques, p. 32.

    Google Scholar 

  • MAG/EL (Ministère de l'Agriculture et de l'Elevage): 1997, Revue du secteur rural du Niger, Direction des études et de la Programmation-Cellule Programme d'Ajustement sectoriel Agricole, Niamey, Niger.

    Google Scholar 

  • MDS (Ministère du Développement Social, de la Population de la Promotion de la Femme et de la Protection de l'Enfant du Niger): 1994, Projections démographiques 1994-2025, Niamey, Niger, p. 58.

  • Michels, K., Sivakumar, M. V. K., and Allison, B. E.: 1995, 'Wind Erosion Control Using Crop Residue. II. Effects on Millet Establishment and Yields', Field Crops Research 40, 111-118.

    Google Scholar 

  • Mondot-Bernard: 1980, Satisfaction du besoin alimentaire et développement agricole au Mali, Annexe 4, OECD, Paris.

    Google Scholar 

  • Rosenfeld, D., Rudish, Y., and Lahav, R.: 2001, 'Desert Dust Suppressing Precipitation-A Possible Desertification Feedback Loop', Proc. Nat. Acad. Sci. 98, 5975-5980.

    Google Scholar 

  • Sivakumar, M. V. K.: 1989, 'Agroclimatic Aspects of Rainfed Agriculture in the Sudano-Sahelian Zone', in Soil, Crop and Water Management Systems for Rainfed Agriculture in the Sudano-Sahelian Zone, Proceedings of an International Workshop, 7-11 Jan. 1987, ICRISAT Sahelian Center, Niamey, Niger. ICRISAT, Patancheru, India, pp. 17-38.

    Google Scholar 

  • Sivakumar, M. V. K.: 1990, 'Exploiting Rainy Season Potential from the Onset of Rains in the Sahelian Zone of West Africa', Agric. For. Meteorol. 51, 321-332.

    Google Scholar 

  • Sivakumar, M. V. K.: 1992, 'Climate Change and Implications for Agriculture in Niger', Clim. Change 20, 297-312.

    Google Scholar 

  • Sivakumar, M. V. K., Maidoukia, A., and Stern, R. D.: 1993, Agroclimatologie de l'Afrique de l'Ouest: Le Niger, Bulletin d'information No. 5, ICRISAT, Patancheru, India, p. 108.

    Google Scholar 

  • Snyers, A.: 1975, Sur l'analyse statistique des séries d'observations, OMM No. 415, Note Technique No. 143, OMM, Geneva, Suisse, p. 15.

    Google Scholar 

  • Sterk, G.: 1997, 'Wind Erosion in the Sahelian Zone of Niger: Processes, Models, and Control Techniques', Tropical Resource Management Papers 15, Wageningen Agricultural University, the Netherlands, p. 151.

    Google Scholar 

  • SPSS: 1998, 'SYSTAT 8.0', SPSS Inc., 233 South Wacker Drive, 11th Floor, Chicago, IL 60606-6307.

  • Taylor C. M., Saïd, F., and Lebel, T.: 1997, 'Interaction between the Land Surface and Mesoscale Rainfall Variability during Hapex-Sahel', Mon. Wea. Rev. 126, 2211-2227.

    Google Scholar 

  • van Duivenbooden, N., Abdoussallam, S., and Alassane, K: 1996, 'Weather', in ICRISAT Sahelian Center, ICRISAT and Collaborative Programs,Western and Central Africa region, Annual Report 1995, ICRISAT, Niamey, Niger, pp. 16-20.

    Google Scholar 

  • van Duivenbooden, N., Abdoussallam, S., and Ben Mohamed, A.: 2002, 'Impact of Climate on Agricultural Production in the Sahel — Part 2. Case Study for Groundnut and Cowpea in Niger', Clim. Change 54, this issue.

  • WMO (World Meteorological Organization): 1998, Prévision Climatique en Afrique, WMO/TD Report No. 927, WMO, Geneva, Suisse.

    Google Scholar 

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Authors and Affiliations

  1. Institut des Radio-Isotopes, Université Abdou Moumouni, B.P. 10727, Niamey, Niger

    A. Ben Mohamed

  2. International Crop Research Institute for the Semi-Arid Tropics (ICRISAT), B.P. 12404, Niamey, Niger

    N. van Duivenbooden & S. Abdoussallam

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  1. A. Ben Mohamed
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  2. N. van Duivenbooden
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  3. S. Abdoussallam
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Ben Mohamed, A., van Duivenbooden, N. & Abdoussallam, S. Impact of Climate Change on Agricultural Production in the Sahel – Part 1. Methodological Approach and Case Study for Millet in Niger. Climatic Change 54, 327–348 (2002). https://doi.org/10.1023/A:1016189605188

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