Projected Changes in Mean and Extreme Precipitation in Africa under Global Warming. Part I: Southern Africa

Shongwe, Mxolisi; Oldenborgh, G. J. van; Hurk, Bart van den; Boer, Bas de; Coelho, Caio A. S.; Aalst, Maarten van

doi:10.1175/2009jcli2317.1

Cited by 251 publications

(177 citation statements)

References 54 publications

(64 reference statements)

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“…Except for the southernmost countries, there is a tendency for models that project most warming to simulate stronger reductions in precipitation. Analysis of extreme precipitation in the climate models used for the Intergovernmental Panel on Climate Change Fourth Assessment Report shows a marked delay in rainy season onset over most of the region and an early end to the season in parts of the region 46 .…”

Section: Modelling Nexus Sectors In a Changing Climatementioning

confidence: 99%

Climate and southern Africa's water–energy–food nexus

et al. 2015

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Section: Modelling Nexus Sectors In a Changing Climatementioning

confidence: 99%

Climate and southern Africa's water–energy–food nexus

et al. 2015

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“…Collier et al (2008) projected rainfall would increase by 2-4 % in Eastern Africa, but decrease by 5 % in Southern Africa during the main maize growing seasons (SRES A1B emissions scenario, 21 global climate models). Shongwe et al (2009) estimated a general decrease in precipitation between September-November and MarchMay (12 global climate models, SRES A1B emissions scenario). The authors predict a notable delay in the onset of the rainy season in Southern Africa, with an early cessation of the rainy season in many areas within this region.…”

Section: Introductionmentioning

confidence: 99%

Adapting maize production to climate change in sub-Saharan Africa

Cairns¹,

et al. 2013

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Given the accumulating evidence of climate change in sub-Saharan Africa, there is an urgent need to develop more climate resilient maize systems. Adaptation strategies to climate change in maize systems in subSaharan Africa are likely to include improved germplasm with tolerance to drought and heat stress and improved management practices. Adapting maize systems to future climates requires the ability to accurately predict future climate scenarios in order to determine agricultural responses to climate change and set priorities for adaptation strategies. Here we review the projected climate change scenarios for Africa's maize growing regions using the outputs of 19 global climate models. By 2050, air temperatures are expected to increase throughout maize mega-environments within sub-Saharan Africa by an average of 2.1°C. Rainfall changes during the maize growing season varied with location. Given the time lag between the development of improved cultivars until the seed is in the hands of farmers and adoption of new management practices, there is an urgent need to prioritise research strategies on climate change resilient germplasm development to offset the predicted yield declines.

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“…James, Washington, & Rowell, 2014). This is due to a combination of factors, such as poor observational records, high levels of interannual and decadal climate variability that are poorly simulated, and a low level of investment in climate science (Kusangaya, Warburton, Archer van Garderen, & Jewitt, 2014;Shongwe, van Oldenborgh, van den Hurk, de Boer, Coelho, & van Aalst, 2009;Washington, James, Pearce, Pokam, & Moufouma-Okia, 2013). There is a pressing need for climate information to inform national-level planning, and policy and decision making across a range of sectors, environments, and socio-political settings (Jones, Roux, Scott, & Tanner, 2014;Vaughan & Dessai, 2014), to support future climate-resilient development and to help safeguard promising trends of economic development across the region.…”

Section: Introductionmentioning

confidence: 99%

Identifying climate services needs for national planning: insights from Malawi

et al. 2015

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The importance of climate services, i.e. providing targeted, tailored, and timely weather and climate information, has gained momentum, but requires improved understanding of user needs. This article identifies the opportunities and barriers to the use of climate services for planning in Malawi, to identify the types of information that can better inform future adaptation decisions in sub-Saharan Africa. From policy analysis, stakeholder interviews, and a national workshop utilizing serious games, it is determined that only 5-10 day and seasonal forecasts are currently being used in government decision making. Impediments to greater integration of climate services include spatial and temporal scale, accessibility, timing, credibility and the mismatch in timeframes between planning cycles (1-5 years) and climate projections (over 20 years). Information that could more usefully inform planning decisions includes rainfall distribution within a season, forecasts with 2-3 week lead times, likely timing and location of extreme events in the short term (1 -5 years), and projections (e.g. rainfall and temperature change) in the medium term (6 -20 years). Development of a national set of scenarios would also make climate information more accessible to decision makers, and capacity building around such scenarios would enable its improved use in short-to medium-term planning. Improved climate science and its integration with impact models offer exciting opportunities for integrated climate-resilient planning across sub-Saharan Africa. Accrual of positive impacts requires enhanced national capacity to interpret climate information and implement communication strategies across sectors. Policy relevanceFor climate services to achieve their goal of improving adaptation decision making, it is necessary to understand the decision making process and how and when various types of weather and climate information can be incorporated. Through a case study of public sector planning in Malawi, this article highlights relevant planning and policy-making processes. The current use of weather and climate information and needs, over various timescales -sub-annual to short term (1-5 years) to medium term (6 -20 years) -is outlined. If climate scientists working with boundary organizations are able to address these issues in a more targeted, sector-facing manner they will improve the uptake of climate services and the likelihood of climate-resilient decisions across sub-Saharan Africa.

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Projected Changes in Mean and Extreme Precipitation in Africa under Global Warming. Part I: Southern Africa

Cited by 251 publications

References 54 publications

Climate and southern Africa's water–energy–food nexus

Climate and southern Africa's water–energy–food nexus

Adapting maize production to climate change in sub-Saharan Africa

Identifying climate services needs for national planning: insights from Malawi

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