Abstract
The world’s ability to produce enough food to feed the growing population is further constrained by water scarcity, particularly in dry areas. Water is an increasingly scarce resource and the FAO estimates that nearly 1.8 billion people will be living in countries or regions with absolute water- scarcity by 2025.
The problem faced by people and countries in dry areas amounts to more than resource scarcity. It is a combination of resource limitations, land and water degradation, and the low efficiency of resource use. Under conditions of resource limitations in dry areas – particularly water – future increases in productivity and production for improving food security and ensuring environmental quality, need to come from enhancing the efficiency of resource-use – rather than using more inputs or increasing the food production area.
The challenges of feeding the growing population under the conditions of climate changes, shortages of water for irrigated agriculture and degradation of arable land are increasing the demand to improve grain production from rainfed areas. The contribution of rainfed farming to food security in dryland countries can be substantially enhanced through increased adoption of currently available technologies supported by enabling policy and institutional environments. Rainfed farming can contribute more significantly to achieve new targets of food security if desired investment levels are realized. On-farm results show the huge potential for improving land and water productivity and profitability of smallholder rainfed agriculture. Yield gap in rainfed crops remain large enough to suggest considerable scope for increasing achievable yields.
Applied agricultural research-for-development suggests the following strategies for producing more food with less resources, particularly in rainfed areas of developing countries which are characterized by resource-poor small-holder farming systems: closing the yield gap of rainfed crops, enhancing adoption of improved technologies, promoting sustainable intensification and diversification of production systems, strengthening innovation systems, reducing vulnerability and managing risk, encouraging the use of water saving technologies, informing policy development, and increasing investment in agricultural research and development.
Advances in science to produce improved and higher-performing crops and livestock hold exciting prospects for making dryland food production systems more efficient, and more resistant to climatic pressures and new pests and diseases. This chapter illustrates the huge potential of technological innovation to improve food security, but also the need for supportive policies and institutions to encourage farmers to adopt these innovations.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Adary, A., Hachum, A., Oweis, T., & Pala, M. (2002). Wheat productivity under supplemental irrigation in northern Iraq, On-farm water Husbandry Research Report Series, No. 2. Aleppo: ICARDA.
Ahmed, M. A. M., Shideed, K., & Mazid, A. (2010). Returns to policy-oriented agricultural research: The case of barley fertilization in Syria. World Development, 38(10), 1462–1472.
Alexandratos, N., & Bruinsma, J. (2012). World agriculture towards 2030/2050: the 2012 revision. ESA Working paper No. 12–03. Rome: FAO.
Alwang, J. (2015, January). Impacts and lessons learned from ICARDA’s strategic plan 2007–2016. Amman.
Alwang, J. (2016). Major trends and prospects in dry areas: Lessons for ICARDA’s 2017–2025 strategic plan. Strategy paper, ICARDA, 2016, pp. 39+ Figures.
Anderson, W., Johansen, C., & Siddique, K. (2015). Addressing the yield gap in rainfed crops: A review. Agronomy for Sustainable Development, 36, 18.
Anderson, W., Johansen, C., & Siddique, K. H. M. (2016). Addressing the yield gap in rainfed crops: A review. Agron Sustain Dev. Review Article, 1–13. doi: 10.1007/s13593-015-0341-y.
Asian Development Bank (ADB). (2010, December). Operational plan for sustainable food security in Asia and the Pacific. ADB, Manila.
Austin, N. R. (2010). The science of food security. http://www.abare.gov.au/outlook/download/food_Austin.pdf.
Bader, A. (2010). Economic and social assessment to the adoption of improved supplemental irrigation in wheat production system in Syria. PhD thesis, Aleppo University, Aleppo.
Bazza, M., & Ahmed, M. (2002). A comprehensive assessment of links between irrigation water pricing and irrigation performance in the Near East. Paper presented at the conference on Irrigation Water Policies: Micro and Macro Considerations, Aghadir, Morocco, 15–17 June 2002.
Carberry, P., Keating, B., Bruce, S., & Walcott, J. (2010). Technological innovation and productivity in dryland agriculture in Australia. A joint paper prepared by ABARE-BRS and CSIRO, Canberra, July 2010. Science Review.
Catley-Carlson, M. (2011). Water, water everywhere. Nature, 473, 27–28.
CGIAR. (2011). A strategy and results framework for the CGIAR. Washington, DC: CGIAR.
CGIAR Science Council. (2006). Impact assessment of policy-oriented research in the CGIAR: A scoping study report. Rome: Science Council Secretariat.
Chambers, R. G., & Just, R. E. (1989). Estimating multi-output technologies. American Journal of Agricultural Economics, 71, 980–995.
Doss, C. R. (2006). Analyzing technology adoption using microstudies: Limitations, challenges and opportunities for improvement. Agricultural Economics, 34(2006), 207–219.
El-Shater, T. (2009). Impact of alternative agricultural policies on groundwater use, food security and farmer income in stability zones Z1 and Z2 in Aleppo province. MSc thesis, Damascus University, Syria.
ESCWA/ICARDA. (2003). Enhancing agricultural productivity through on-farm water use efficiency. An empirical case study of wheat production in Iraq. New York: United Nations.
FAO. (2001). Crops and drops: Making the best use of water for agriculture. Rome: FAO.
FAO. (2011). Save and grow: A policymaker’s guide to the sustainable intensification of smallholder crop production. Rome: FAO.
FAO. (2013). Food security indicators. http://www.fao.org/economic/ess/ess-fs/ess-fadat/en/
Fleury, D., Jefferies, S., Kuchel, H., & Langridge, P. (2010). Genetic and genomic tools to improve drought tolerance in what. Journal of Experimental Botany, 61(1), 3211–3222.
Fraiture, C., & Perry, C. (2002). Why is Irrigation water demand inelastic at low price ranges? Paper presented at the Conference N irrigation water policies: Micro and macro considerations, 15–17 June 2002, Aghadir, Morocco.
Fuglie, K. (2012). Productivity growth in the global agricultural economy and the role of technology capital. In K. Fuglie, V. E. Ball, & S. L. Wang (Eds.), Productivity growth in agriculture: An international perspective. CAB Internaional: Oxfordshire.
Godfray, H., Charles, J., et al. (2010). Food security: The challenge of feeding 9 billion people. Sciencexpress Review. Sciencexpress / www.sciencexpress.org/ 28 January 2010.
Haddad, N., et al. (2011). The potential of small-scale rainfed agriculture to strengthen food security in Arab Countries. Food Security, 3(Supplement 1), S163–S173.
Hoekstra, A. Y., & Mekonnen, M. M. (2012, February). The water footprint of humanity. PNAS, 109(9), 3232–3237
ICARDA. (2011). Strategies to reduce the emerging wheat stripe rust disease. Synthesis of a dialog between policy makers and scientists from 31 countries at the international wheat stripe rust symposium, Aleppo, Syria, April 2011. Research to Action Seties no. 1. ICARDA, Aleppo. 27 pp.
ICARDA. (2015, July 14). Defining a rights-based approach to water for food security. Theib Oweis. http://www.icarda.org/drylandsthinking/
IFAD. (2010). Climate change and sustainable water resources management: IFAD’s experiences in the Near East and North Africa and in Eastern and Central Europe. Background paper for PN Side Event (Executive Summary). Governing Council, 17–18 February 2010. IFAD, Rome.
IFAD. (2015, November). Climate change and food security: Innovations for smallholder agriculture. EC, IFAD, CGIAR.
International assessment of agricultural knowledge, science and technology for development (IAASTD). (2009). Central and West Asia and North Africa (CWANA). Wahington, DC: Island Press.
International Food Policy Research Institute (IFPRI). (2015). 2014–2015 Global food policy report. Washington, DC: Intenational Food Policy Research Institute.
Ilbeyi, A., Ustun, H., Oweis, T., Pala, M., & Benli, B. (2006). Wheat water productivity in a cool highland environment: Effect of early sowing with supplemental irrigation. Agricultural Water Management, 82, 399–410.
Just, R. E., Zilberman, D., & Hochman, E. (1983). Estimation of multicrop production functions. American Journal of Agricultural Economics, 65, 770–780.
Just, R. E., Zilberman, D., Hochman, E., & Bar-Shira, Z. (1990). Input allocation in multicrop systems. American Journal of Agricultural Economics, 72, 200–209.
Kalladan, R., et al. (2013). Identification of quantitative trait loci contributing to yield and seed quality parameters under terminal drought in barley advanced backcross lines. Mol Breeding, 32(1), 71–90. doi:10.1007/s11032-013-9853-9.
Keating, B. A., Carberry, P., Bindraban, P. S., Senthold, A., Meinke, H., & Dixon, J. (2010). Eco-efficient agriculture: Concepts, challenges, and opportunities. Crop Science, 50(March–April 2010, Symposia), s1–s11.
Khouri, N., Shideed, K., & Kherallah, M. (2011). Food security: Perspectives from the Arab world. Food Security, 3(Supplement 1), S1–S6.
Malhotra, R., Ashutosh Sarker, & Mohan Saxena. (2004). Drought tolerance in Chickpea and Lentil-Present status and future strategies. Crop Science Society of America and American Society of Agronomy, 677 S. Segpe Rd., Madison, WI 53711, USA, Challenges and Strategies for Dryland Agriculture, CSSA Special Publication no. 32, pp. 257.
Moore, M. R., Gollehan, N. R., & Carey, M. B. (1994a). Multicrop production decisions in western irrigated agriculture: The role of water price. American Journal of Agricultural Economics, 76, 859–874.
Moore, M. R., Gollehan, N. R., & Carey, M. B. (1994b). Alternative models of input allocation in multicrop system: Irrigation water in the Central Plains, United States. Agricultural Economics, 11, 143–158.
MunlaHassan, A. (2007). Water use efficiency in Syrian agriculture. NAPC Working Paper No. 26. Damascus, Syria.
Ncube, M., Anyanmu, J. C., & Hausken, K. (2013). Inequality, economic growth and poverty in the Middle East and North Africa (MENA). Working paper series No. 195 African Development Bank, Tunis, Tunisia.
Norton, G. W., & Alwang, J. (1998, December). Policy for plenty: Measuring the benefits of policy-oriented social science research. Impact assessment of the IFPRI agricultural science and technology. Washington DC: IFPRI.
Oweis, T. (1997). Supplemental irrigation: A highly efficient water use practice. Aleppo: ICARDA.
Oweis, T., & Hachum, A. (2004). Water harvesting and supplemental irrigation for improved water productivity of dry farming systems in West Asia and North Africa. In: New directions for a diverse planet. Proceedings of the 4th international crop science congress, 26 Sep–1 Oct 2004, Brisbane, Australia. http://www.cropscience.org.au
Oweis, T., & Hachum, A. (2009). Optimizing supplemental irrigation: Tradeoffs between profitability and sustainability. Agricultural Water Management, 96, 511–516.
Passioura, John. (2004). Increasing crop productivity when water is scarce-from breeding to field management. In Proceedings of the 4th International crop science congress, 26 Sep–1 Oct 2004, Brisbane, Australia.
Piggin, C., Haddad, A., & Khalil, Y. (2011). Development and promotion of zero tillage in Iraq and Syria. Paper accepted for presentation at 5th World congress of conservation agriculture and 3rd farming systems design conference, 26–29 Sep 2011. Brisbane, Australia.
Piggin, C. (2014). Crop yields and global food security: Will yield increase continue to feed the world, by Tony Fischer, Derek Byerlee and Greg Edmeades. xxii +634pp. Canberra ACIAR Monograph No. 158- ISBN 978. Journal of Agricultural Sciences, 152, 1012.
Pretty, J., et al. (2010). The top 100 questions of importance to the future of global agriculture. International Journal of Agricultural Sustainability, 8(4), 219–236.
Reyazul, R. M., et al. (2012). Integrated genomics, physiology and breeding approaches for improving drought tolerance in crops. Theor Appl Genet, 125, 625–645.
Rosegrant, M.W. (2011). Impacts of climate change on food security and livelihoods. In Solh, M., & Saxena, M. C. (Eds.), Food security and climate change in dry areas: Proceedings of an International Conference, 1–4 Feb, Amman, Jordan. ICARDA, Aleppo. pp: 24–26.
Ryan, J. G. (1999). Assessing the impact of rice policy changes in Viet Nam and the contribution of policy research. Impact Assessment Discussion Paper No. 8. International Food Policy Research Institute (IFPRI), Washington, DC.
Ryan, J. G. (2002). Assessing the impact of food policy research: Rice trade policies in Viet Nam. Food Policy, 27, 1–29.
Salkini, A.B., & Ansell, D. (1992). Agro-economic impact of supplemental irrigation in rainfed wheat production under the Mediterranean environment of Syria. Paper presented at International conference on supplemental irrigation and drought water management, Valenzano-Bari, 27 Sep – 20 Oct 1992.
Shideed, K. (2008). Food security and its socioeconomic impact: Towards reducing the food gap in the Arab countries. Arab Agricultural Investment Journal, 6(2008), 31–35.
Shideed, K., Oweis, T., Gabr, M., & Osman, M. (2005). Assessing on-farm water-use efficiency: A new approach. Aleppo: ICARDA xiv + 86 pp.
Shideed, K., Alary, V., Laamari, A., Nefzaoui, A., & El-Mourid, M. (2007). Ex-post impact assessment of natural resource management technologies in crop-livestock systems in dry areas of Morocco and Tunisia. In H. Waibel & D. Zilberman (Eds.), International research on natural resource management: Advances in impact assessment (pp. 169–195). Wallingford: FAO and CABI International.
Shideed, K., Mazid, A., Ahmed, M. A., & Zahir, Z. (2008). Policy influence and returns to policy-oriented agricultural research: The case of barley fertilization in Syria. International Center for Agricultural Research in the Dry Areas (ICARDA) and the Syrian Ministry of Agriculture and Agrarian Reform (SMAAR). Syria, Aleppo and Damascus. 58 pp.
Solh, M. (2011). Harnessing research and innovation for Arab food security. 1st Arab development symposium on food and water security in the Arab world, 14–15 March 2011, Kuwait.
Tadesse, W. et al. (2015). Wheat. A chapter in a book on: Genetic and genomic resources for grain cereals improvement. Elsevier, ISBN: 978-0-12-802000-5
The Independent. (2015, July 12). World entering era of global food insecurity with malnutrition and obesity side by side within countries, say leading food expert http://www.independent.co.uk/news/world/
The World Bank. (2009, December). Making development climate resilient: A World Bank strategy for sub-Saharan Africa. Report No. 46947-AFR, Sustainable Development Department.
The World Bank. (2011). Rising global interest in farmland: Can it yield sustainable and equitable benefits? Klaus Deininger and Derek Byerlee with Jonathan Lindsay, Andrew Norton, Harris Selod, and Mercedes Stickler. Washington, DC: World Bank.
Vermeulen, S. J. (2014). Climate change, food security and small-scale producers. CCAFS Info Brief. CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS). Copenhagen, Denmark. Available online at: www.ccafs.cgiar.org
World Bank. (2014). http://www.worldbank.org/en/news/press-release/2014/04/11/remittances-developingcountries-deportations-migrant-workers-wb. Accessed 29 June 2014.
World Bank. (2015). Agriculture and rural development in MENA. http://siteresources.worldbank.org/INTMENAREGTOPAGRI/Resources/AGRICULTURE-ENG-2008AM.pdf. Accessed 29 June 2015.
Yigezu, Y.A., Ahmed, M.A., Shideed, K.H., Aw-Hassan, A. El-Shater, T., & Al-Atwan, S. (2011a). Economic and environmental impacts of supplemental irrigation in rained agriculture: The case of wheat in Syria. ICARDA. Forthcoming.
Yigezu, Y.A., Ahmed, M.A., Shideed, K.H., Aw-Hassan, A. El-Shater, T., & Al-Atwan, S. (2011b). The effect of changes in irrigation technology on technical, water use, and cost efficiencies: The case of supplemental irrigation in Syrian wheat farms. ICARDA. Forthcoming.
Zilberman, D., & Waibel, H. (2007). Productivity enhancement and natural resource management. In H. Waibel & D. Zilberman (Eds.), International research on natural resource management: Advances in impact assessment (pp. 21–55). Wallingford: FAO and CABI International.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2017 Springer International Publishing AG
About this chapter
Cite this chapter
Shideed, K. (2017). Rainfed Agriculture and Food Security in Dry Areas. In: Murad, S., Baydoun, E., Daghir, N. (eds) Water, Energy & Food Sustainability in the Middle East. Springer, Cham. https://doi.org/10.1007/978-3-319-48920-9_14
Download citation
DOI: https://doi.org/10.1007/978-3-319-48920-9_14
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-48919-3
Online ISBN: 978-3-319-48920-9
eBook Packages: Earth and Environmental ScienceEarth and Environmental Science (R0)