Abstract
In this chapter, a framework for best practice for climate change adaption in Africa is presented, predominantly from the water and natural resources perspective to systematically chart out ways for adaptive capacity building. Africa’s vulnerability to climate change and variability has direct impacts on water availability, access and use. Water is the source of food and livelihood security for millions of its population. The future of food and livelihood security is likely to be challenged due to global environmental changes, particularly global climatic changes, and emerging evidence has gradually demonstrated this fact. The Intergovernmental Panel on Climate Change (IPCC) has projected that global and regional surface temperature and precipitation are likely to change with mixed degrees of severity due to increases in atmospheric carbon dioxide concentration and other anthropogenic gas emissions. There is high level of consensus on the likely effect of this on all aspects of the hydrological cycle, which in turn may alter the balance between water availability, food demand and supply in time and space in many parts of the world. Climate variability is also projected to increase, leading to uncertainty in the onset of rainy seasons and more frequent extreme weather events, such as more severe droughts and floods. Africa is particularly vulnerable to these environmental changes due to a predominance of rainfed agriculture, limited resource base and weak structural setups to monitor and mitigate climate changes. In the quest for future water and food security, greater attention must now be paid to adaptations to climatic change with a livelihood-centered approach of integrated natural resources and water management, which calls for increased diversification, improved land use and natural resource management interventions, increased use of renewable energy resources, improved risk management through early warning systems and crop insurance, and wastewater reuse for agriculture, among others.
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
Abah JP, Mashebe P (2015) Denuga DD (2015) Prospect of integrating african indigenous knowledge systems into the teaching of sciences in Africa. Am J Educ Res 3(6):668–673
Adger WN, Arnell NW, Tompkin EL (2005) Successful adaptation to climate change across scales. Glob Environ Chang 15(2005):77–86
Aires F, Rossow WB (2003) Inferring instantaneous, multivariate and nonlinear sensitivities for analysis of feedbacks in a dynamical system: Lorenz model case study. Quart J Roy Meteor Soc 129:239–275
Alemaw BF, Sebusang N (2017) Climate change and adaptation-induced engineering design and innovations in water development projects in Africa. Afr J Sci, Technol, Innov Dev. https://doi.org/10.1080/20421338.2017.1355601
Alemaw BF, Simalenga T (2015) Climate change impacts and adaptation in rainfed farming systems: a modeling framework for scaling-out climate smart agriculture in Sub-Saharan Africa. Am J Clim Chang 4:313–329. https://doi.org/10.4236/ajcc.2015.44025
Alemaw BF (2012) Integrated modelling and assessment systems: development and application for water resources variability and climate change evaluation in Southern Africa, LAMBERT Academic Publishing, Saarbrucken, Germany. p 284. ISBN 978 3 8473 1684 8
Alemaw BF, Chaoka TR (2003) A continental scale water balance model: a GIS-approach for Southern Africa. Phys Chem Earth 28:957–966
Alemaw BF, Chaoka TR (2006a) The 1950–1998 warm ENSO events and regional implications to river flow variability in Southern Africa. Water SA 32(4):459–463
Alemaw BF, Chaoka TR (2006b) Decision support tools, scaling up and down in agricultural water and risk management at a catchment level – incorporating climate change and ENSO-induced climate variability. In: Proceedings of 1st international forum on water and food of CGIAR/IWMI, Vientiane, Lao PDR from the 12–17 Nov 2006
Alemaw BF, Chaoka TR, Totolo O (2006) Investigation of sustainability of rain-fed agriculture through soil moisture modeling in the Pandamatenga Plains of Botswana. J Phys Chem Earth 31(2006):960–966
Arnell NW, Hudson DA, Jones RG (2003) Climate change scenarios from a regional climate model: estimating change in runoff in southern Africa. J Geophys Res-Atmos 108(D16):4519
Baudoin MA, Ziervogel G (2017) What role for local organizations in climate change adaptation? Insights from South Africa. Reg Environ Chang 17:691–702
Bryan E, Deressa TT, Gbetibouo GA, Ringler C (2009) Adaptation to climate change in Ethiopia and South Africa: options and constraints. Environ Sci Policy 12(2009):413–426
Bryant RC et al (2000) Adaptation in Canadian agriculture to climatic variability and change. Clim Change 45:181–201
Campbell B (2003) Rising the challenge of poverty and environmental sustainability: towards a conceptual and operational framework for INRM. Keynote paper for the SSA-CP programme formulation workshop, FARA, Accra
Campbell B et al (2001) Assessing the performance of natural resource systems. Consrv Eco 5(2):22
Chipanshi AC, Chanda R, Totolo O (2003) Vulnerability assessment of the maize and sorghum crops to climate change in Botswana. Clim Change 61(3):339–360
Crabbe P, Robin M (2006) Institutional adaptation of water resource infrastructures to climate change in Eastern Ontario. Clim Change 78:103–133
Djoudi H, Brockhaus M, Locatelli B (2013) Once there was a lake: vulnerability to environmental changes in Northern Mali. Regional Enviro. Change 13(3):493–508
Douglas EM, Githui FW, Mtafya AR, Green PA, Glidden SJ, Vörösmarty CJ (2006) Characterizing water scarcity in Africa at different scales. J Environ Manag – February 2006 (in revision)
Easterbrook D (ed) (2011) Evidence-based climate science: data opposing CO2 emissions as the primary source of global warming, 1st edn. Elsevier, Amsterdam
EAC/IDRC/DFID (2007) Towards a regional strategy in climate change adaptation: sharing knowledge on climate risks and adaptation options, Workshop Report for a meeting Co-hosted by IDRC, DFID and United Nations Economic Commission for Africa, IDRC Climate Change Adaptation in Africa program, Addis Ababa, April 16–20, 2007, p 40
Flynn C (2011) Blending climate finance through national climate funds: a guidebook for the design and establishment of national funds to achieve climate change priorities. United Nations Development Programme, New York, NY, USA
Global Water Partnership (GWP) (2000) Integrated water resources management. GWP technical committee background paper 4. Stockholm: GWP
Groenfeldt D (2010) The next nexus? Environ Ethics, Water Policies, Clim Chang, Water Altern 3(3):575–586
Hashimoto T, Stedinger JR, Loucks DP (1982) Reliability, resiliency, and vulnerability criteria for water resource system performance evaluation. Water Resour Res 18(1982):14–20
Hirji R, Davis R (2009) Environmental flows in water resources policies, plans, and projects: Findings and recommendations. DC, The World Bank, Washington
Holman IP et al (2005a) A regional, multi-sectoral and integrated assessment of the impacts of climate and socio-economic change in the UK. Part 2. Results. Clim Change 71:43–73
Holman IP et al (2005b) A regional, multi-sectoral and integrated assessment of the impacts of climate and socio-economic change in the UK. Part 1. Methodol Clim Change 71:9–41
Hulme M, Raper SCB, Wigley TML (1995) An integrated framework to address climate change (ESCAPE) and further developments of the global and regional climate modules (MAGICC). Energy Policy 23:347–355
Hulme M et al (2000) Using a climate scenario generator for vulnerability and adaptation assessments: MAGICC and SCENGEN version 2.4 workbook. Climatic Research Unit, Norwich UK, 52
Idso C, Singer SF (2009) Climate change reconsidered: the 2009 report of the nongovernmental international panel on climate change (NIPCC). The Heartland Institute, Chicago, IL
International Water Management Institute (IWMI) (2009) Flexible water storage options: for adaptation to climate change. Colombo, Sri Lanka: International Water Management Institute (IWMI), IWMI Water Policy Brief 31, 5p
International Water Management Institute (IWMI) (2003) Integrating research in water, food and environment, challenge program on water and food. Background Paper 4:113–118
Intergovernmental Panel on Climate Change (IPCC) (2001) Summary for policy makers. climate change 2001: impacts, adaptation, and vulnerability. A Report of Working Group II of the Intergovernmental Panel on Climate Change
Intergovernmental Panel on Climate Change (IPCC) (2007) The physical science basis. Contribution of working group I to the fourth assessment report of the IPCC
Jury MR, Pathack BMR (1993) Composite climatic patterns associated with extreme modes of summer rainfall over Southern Africa: 1975-1984. Theor Appl Climatol 47:137–145
Kristensen P (2004) The DPSIR Framework. In: Workshop on a comprehensive/ detailed assessment of the vulnerability of water resources to environmental change in Africa using river basin approach. September 2004. UNEP Headquarters, Nairobi, Kenya, pp 1–10
Kundzewicz ZW et al (2007) Freshwater resources and their management. In: Parry ML, Canziani OF, Palutikof JP, van der Linden PJ, Hanson CE (eds) Climate change 2007: impacts, adaptation and vulnerability. Contribution of working group ii to the fourth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge, pp 173–210
Lankford BA (2005) Rural infrastructure to contribute to African agricultural development: the case of irrigation. Report for the Africa Union Commission, ODG, University of East Anglia, Norwich
Lovell C, Mandondo A, Moriarty P (2002) The question of scale in integrated natural resource management. Conserv Ecol 5(2):25
Lwasa S (2015) A systematic review of research on climate change adaptation policy and practice in Africa and South Asia deltas. Reg Environ Chang 15:815
Maglinao AR (2001) Management of Soil Erosion Consortium (MSEC), Annual Report. International Water Management Institute (IWMI), Colombo, Sri Lanka
Maier HR, Lence BJ, Tolson BA, Foschi RO (2001) First-order reliability method for estimating reliability, vulnerability, and resilience. Wat Res Res 37:779–790
McCabe GJ, Markstrom SL (2007) A monthly water-balance model driven by a graphical user interface. U.S. Geological Survey Open-File report, 2007-1088, 6p
Merrey DJ, Drechsel P, Penning de Vries FWT, Sally H (2005) Integrating livelihoods into integrated water resources management: taking the integration paradigm to its logical next step for developing countries. Reg Environ Change 5(4):197–204
Mizina SV, Smith JB, Gossen E, Spiecker KF, Witkowski SL (1999) An evaluation of adaptation options for climate change impacts on agriculture in Kazakhstan. Mitig Adapt Strat Glob Clim Change 4:25–41
Moss R et al (2010) The next generation of scenarios for climate change research and assessment. Nature 463:747–756
Naess LO, Bang G, Eriksen S, Vevatne J (2005) Institutional adaptation to climate change: flood responses at the municipal level in Norway. Glob Environ Change 15:125–138
OReilly CM, Alin SR, Plisnier PD, Cohen AS, McKee BA (2003) Climate change decreases aquatic ecosystem productivity of Lake Tanganyika, Africa. Nature 424:766–768
Prasad TG, McClean JL (2004) Mechanisms for anomalous warming in the western Indian Ocean during dipole mode events. J Geophys Res 109:C02019. https://doi.org/10.1029/2003jc001872
Rijsberman F (2008) Every last drop: Managing our way out of the water crisis. Boston review, September/October. http://bostonreview.net/BR33.5/rijsberman.php
Ropelewski CF, Halpert MS (1987) Global and regional scale precipitation Patterns associated with the El Niño/Southern Oscillation. Monograms Weather Rev 115:1606–1626
Sayer JA, Campbell B (2001) Research to integrate productivity enhancement, environmental protection, and human development. Conserv Ecol 5(2):32
Schulze RE, Perks LA (2000) Assessment of the impact of climate change on hydrology and water resources in South Africa: (Report to South African Country Studies for Climate Change Programme), School of Bio-resources Engineering and Environmental Hydrology, University of Natal, Pietermartizburg, ACRU Report 33 January 2000
Smit B, Skinner MW (2002) Adaptations options in Agriculture to climate change: a typology. Mitig Adapt Strat Glob Change 7:85–114
Smithers J, Smit B (1997) Human adaptation to climatic variability and change. Glob Environ Change 7(3):129–146
Spencer RW, Braswell WD, Christy JR, Hnilo J (2007) Cloud and radiation budget changes associated with tropical intraseasonal oscillations. Geophys Res Lett 34:L15707
Spencer RW, Braswell WD (2008) Potential biases in feedback diagnosis from observational data: a simple model demonstration. J Clim 21:5624–5628. https://doi.org/10.1175/2008jcli2253.1
Teng PS, Kropff MJ, Ten Berge HFM (eds) (1995) Applications of systems approaches at the farm and regional levels, vol 1. Kluwer Academic Publishers, in cooperation with IRRI and ICASA, Dordrecht, Netherlands. 468 pp
UNFCCC (2007) Climatic change impact, vulnerabilities and adaptation in developing countries. UNFCCC Secretariat, Bonn, Germany, p 68
Vincent K (2007) Uncertainty in adaptive capacity and the importance of scale. Glob Environ Change 17(1):12–24
Wigley TML (2008) MAGICC and SCENGEN version 5.3 user manual
Xu Y, Braune E (eds) (2010) Sustainable groundwater resources in Africa: water supply and sanitation environment. CRC Press/ Balkema, Leiden, p 282
Acknowledgements
This chapter has been a result of the author’s research activities conducted at University of Dar es Salaam (1995–1999) and University of Botswana (2001 to date) and over a half a dozen collaborative and network projects undertaken in southern Africa. The author acknowledges all these institutions. I also thank those numerous colleagues and researchers who worked with me and influenced me to rethink Africa’s real challenges using water as a domain of intervention to mitigate the effect of climate change and bring resilience and sustainability issues to inform and influence policy for the meaningful development of this continent through the infusion of indigenous knowledge systems, scientific knowledge and engineering practice. Anonymous reviewers of the chapter were also of great help in improving the quality of the manuscript.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2020 Springer Nature Switzerland AG
About this chapter
Cite this chapter
Alemaw, B.F. (2020). Framework of Best Practice for Climate Change Adaptation in Africa: The Water–Development Nexus. In: Matondo, J.I., Alemaw, B.F., Sandwidi, W.J.P. (eds) Climate Variability and Change in Africa . Sustainable Development Goals Series. Springer, Cham. https://doi.org/10.1007/978-3-030-31543-6_7
Download citation
DOI: https://doi.org/10.1007/978-3-030-31543-6_7
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-31542-9
Online ISBN: 978-3-030-31543-6
eBook Packages: Earth and Environmental ScienceEarth and Environmental Science (R0)