Assessing climate change impacts on sorghum and millet yields in the Sudanian and Sahelian savannas of West Africa

Sultan, Benjamin; Roudier, Philippe; Quirion, Philippe; Alhassane, Agali; Muller, Bertrand; Dingkuhn, Michaël; Ciais, Philippe; Guimberteau, Matthieu; Traoré, Seydou; Baron, Christian

doi:10.1088/1748-9326/8/1/014040

Cited by 263 publications

(235 citation statements)

References 36 publications

(41 reference statements)

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“…2). Higher temperatures accelerate plant phenology, leading to decreased yield potential (Schlenker and Lobell 2010;Sultan et al 2013). Temperatures above or below thresholds may trigger plant senescence, and reduce leaf area growth and photosynthesis.…”

Section: Effects On Mixed Farming Systemsmentioning

confidence: 99%

Climate change adaptation and mitigation in smallholder crop–livestock systems in sub-Saharan Africa: a call for integrated impact assessments

et al. 2016

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African mixed crop-livestock systems are vulnerable to climate change and need to adapt in order to improve productivity and sustain people's livelihoods. These smallholder systems are characterized by high greenhouse gas emission rates, but could play a role in their mitigation. Although the impact of climate change is projected to be large, many uncertainties persist, in particular with respect to impacts on livestock and grazing components, whole-farm dynamics and heterogeneous farm populations. We summarize the current understanding on impacts and vulnerability and highlight key knowledge gaps for the separate system components and the mixed farming systems as a whole. Numerous adaptation and mitigation options exist for crop-livestock systems. We provide an overview by distinguishing risk management, diversification and sustainable intensification strategies, and by focusing on the contribution to the three pillars of climate-smart agriculture. Despite the potential solutions, smallholders face major constraints at various scales, including small farm sizes, the lack of response to the proposed measures and the multi-functionality of the livestock herd. Major institutional barriers include poor access to markets and relevant knowledge, land tenure insecurity and the common property status of most grazing resources. These limit the adoption potential and hence the potential impact on resilience and mitigation. In order to effectively inform decision-making, we therefore call for integrated, system-oriented impact assessments and a realistic consideration of the adoption constraints in smallholder systems. Building on agricultural system model development, integrated impact assessments and scenario analyses can inform the co-design and implementation of adaptation and mitigation strategies.F

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Section: Effects On Mixed Farming Systemsmentioning

confidence: 99%

Climate change adaptation and mitigation in smallholder crop–livestock systems in sub-Saharan Africa: a call for integrated impact assessments

et al. 2016

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“…Although irrigation or timely availability of rainfall are capable of reducing heat-stress impacts, neither of these options is a regular feature in the arid regions where sorghum is a dominant crop. Furthermore, a comprehensive crop modeling exercise using data on sorghum and millets obtained from 35 stations across sub-Saharan West Africa (Senegal, Mali, Burkina Faso, and Niger) indicated that negative impacts associated with a 2°C temperature increase were not compensated by additional precipitation (19). Thus, even though sorghum might have some advantages relative to other crops for resisting extreme heat exposure, warming temperatures are still associated with large yield reductions in major growing regions, thereby suggesting an important need to investigate the potential for enhanced heat resilience.…”

mentioning

confidence: 99%

Disaggregating sorghum yield reductions under warming scenarios exposes narrow genetic diversity in US breeding programs

Tack

Lingenfelser

Jagadish

2017

Proc. Natl. Acad. Sci. U.S.A.

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Historical adaptation of sorghum production to arid and semiarid conditions has provided promise regarding its sustained productivity under future warming scenarios. Using Kansas field-trial sorghum data collected from 1985 to 2014 and spanning 408 hybrid cultivars, we show that sorghum productivity under increasing warming scenarios breaks down. Through extensive regression modeling, we identify a temperature threshold of 33°C, beyond which yields start to decline. We show that this decline is robust across both field-trial and on-farm data. Moderate and higher warming scenarios of 2°C and 4°C resulted in roughly 17% and 44% yield reductions, respectively. The average reduction across warming scenarios from 1 to 5°C is 10% per degree Celsius. Breeding efforts over the last few decades have developed high-yielding cultivars with considerable variability in heat resilience, but even the most tolerant cultivars did not offer much resilience to warming temperatures. This outcome points to two concerns regarding adaption to global warming, the first being that adaptation will not be as simple as producers' switching among currently available cultivars and the second being that there is currently narrow genetic diversity for heat resilience in US breeding programs. Using observed flowering dates and disaggregating heat-stress impacts, both pre-and postflowering stages were identified to be equally important for overall yields. These findings suggest the adaptation potential for sorghum under climate change would be greatly facilitated by introducing wider genetic diversity for heat resilience into ongoing breeding programs, and that there should be additional efforts to improve resilience during the preflowering phase.agriculture | climate change | crop | sorghum | warming

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“…The rating process was operated on a nine-point scale and the relative importance of every two indices regarding the land suitability was compared. The weight coefficient of each crop was calculated by MATLAB software and its value ranged from 1 to 9/9 (Hoogenboom, 2000;Masilionytė and Maikštėnienė, 2011;Sultan et al, 2013;Tadross et al, 2009;Turner and Rao, 2013 (Table 4).…”

Section: Planting Ecological Adaptability Model Based On Gis-mcementioning

confidence: 99%

The decrease of potential suitable areas and the distribution tendency of staple crops in Ethiopia under future climate conditions

Tan¹,

Yue²,

Wang³

et al. 2016

Afr. J. Agric. Res.

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Rain-fed agriculture is the most common pattern for Ethiopian smallholders, while it is sensitive to climate change in the future. In order to predict the impact of climate change and decrease the risk of food crisis in Ethiopia, the potential crops suitability of teff (Eragrostis tef), maize (Zea mays), wheat (Triticum aestivum Linn.) were simulated and suitable distribution were analyzed by using GIS-MCE (Multi-Criteria Evaluation) Planting Ecological Adaptability model under both current and future (2080s) climate conditions. The simulation showed that climate change will decrease the 14% potential suitable areas of teff from 41 to 27% and also reduce that of wheat from 33 to 29% in the future, while the potential suitable regions for maize will remain almost stable, or even slightly more (1%) in the future (46%) compared to the current conditions (45%). Overall, agriculture will suffer negative impacts on the main crops in Ethiopia. All these three crops' potential suitable lands are gathering to higher altitude which is in the centre of the whole nation because of warmer temperature. Thus, maize may become more widely grown and compete for lands with teff and wheat in high and mid-altitude. In this study, our model results can help both the policymakers and the smallholders to amend the existing limitations, as well as to plan better long-term strategies under the future climate scenarios.

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Assessing climate change impacts on sorghum and millet yields in the Sudanian and Sahelian savannas of West Africa

Cited by 263 publications

References 36 publications

Climate change adaptation and mitigation in smallholder crop–livestock systems in sub-Saharan Africa: a call for integrated impact assessments

Climate change adaptation and mitigation in smallholder crop–livestock systems in sub-Saharan Africa: a call for integrated impact assessments

Disaggregating sorghum yield reductions under warming scenarios exposes narrow genetic diversity in US breeding programs

The decrease of potential suitable areas and the distribution tendency of staple crops in Ethiopia under future climate conditions

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