Climate change impacts on Canadian yields of spring wheat, canola and maize for global warming levels of 1.5 °C, 2.0 °C, 2.5 °C and 3.0 °C

Qian, Budong; Zhang, Xuebin; Smith, Ward; Grant, Brian; Jing, Qi; Cannon, Alex J.; Neilsen, D.; McConkey, B.G.; Li, Guilong; Bonsal, Barrie; Wan, Hui; Xue, Li; Zhao, Jun

doi:10.1088/1748-9326/ab17fb

Cited by 58 publications

(58 citation statements)

References 59 publications

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“…Studies have reported that climate change and variability manifested in changing rainfall patterns and temperature, determines water availability for growth and production of crops with direct effects on crop yields 31 – 34 . An increase in global temperature by 2 °C, for example, can potentially lead to a 17% reduction in crop yields 35 , 36 , most especially those very sensitive crops, such as maize and rice, and this may result in reduction of yields in SSA 37 , 38 . In the case of maize for example, though the seed germinates at a temperature range of 18–21 °C, it can be grown in both rainy and dry seasons provided adequate water is available during germination and the first month of growth.…”

Section: Environmental and Pest Challenges Overlapped The Movement Rementioning

confidence: 99%

COVID-19 and food security in Sub-Saharan Africa: implications of lockdown during agricultural planting seasons

2020

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COVID-19 pandemic movement restrictions as part of the control measures put in place by countries in Sub-Saharan Africa (SSA) has implications on food security, as movement restrictions coincided with planting periods for most of the staple crops. The measures are affecting important staple crops in SSA, and are likely to exacerbate food security challenges in many countries. Achieving adequate food supply in SSA requires developing better policies and packages to confronting the challenge of reducing hunger post COVID-19 pandemic. The lessons learned after COVID-19 crisis will be very important for African countries to rethink their strategies and policies for sustainable economic growth, as COVID-19 many have significant impacts on all sectors of their economies.

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Section: Environmental and Pest Challenges Overlapped The Movement Rementioning

confidence: 99%

COVID-19 and food security in Sub-Saharan Africa: implications of lockdown during agricultural planting seasons

2020

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“…Process-based models are valuable tools in evaluating management practices and climate change impacts on crop production, soil water balance and carbon (C) & N dynamics in diverse agroecosystems 20,21 . The DSSAT model is a widely used tool for testing cropping technologies, assessing management practices, and exploring climate change mitigation stategies 14,[21][22][23][24] . The DSSAT model has been successfully used to optimize field management practices to achieve high crop yield, improve understandings of crop physiology, soil management and weather effects on crop growth and environmental quality 25,26 , and explore the responses of crop production to climate change and develop effective adaptation strategies 10,12,14,27 .…”

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confidence: 99%

Modelling adaptation strategies to reduce adverse impacts of climate change on maize cropping system in Northeast China

Jiang

et al. 2021

Sci Rep

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Maize (Zea mays L.) production in Northeast China is vulnerable to climate change. Thus, exploring future adaptation measures for maize is crucial to developing sustainable agriculture to ensure food security. The current study was undertaken to evaluate the impacts of climate change on maize yield and partial factor productivity of nitrogen (PFPN) and explore potential adaptation strategies in Northeast China. The Decision Support System for Agrotechnology Transfer (DSSAT) model was calibrated and validated using the measurements from nine maize experiments. DSSAT performed well in simulating maize yield, biomass and N uptake for both calibration and validation periods (normalized root mean square error (nRMSE) < 10%, −5% < normalized average relative error (nARE) < 5% and index of agreement (d) > 0.8). Compared to the baseline (1980–2010), the average maize yields and PFPN would decrease by 7.6–32.1% and 3.6–14.0 kg N kg−1 respectively under future climate scenarios (2041–2070 and 2071–2100) without adaptation. Optimizing N application rate and timing, establishing rotation system with legumes, adjusting planting dates and breeding long-season cultivars could be effective adaptation strategies to climate change. This study demonstrated that optimizing agronomic crop management practices would assist to make policy development on mitigating the negative impacts of future climate change on maize production.

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“…Sorghum and millet: Sorghum and millet are two possible crops to move into the drier areas of the prairies in 2050. These crops represent a possible feed grain for the driest areas, but sensitivity to frost will limit area even with increased growing season [25].…”

Section: Biophysical Impacts On Crop Productionmentioning

confidence: 99%

Resiliency of Prairie Agriculture to Climate Change

Kulshreshtha¹

2019

Climate Change and Agriculture

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The Prairie Region, consisting of the provinces of Manitoba, Saskatchewan, and Alberta, is a major agricultural region of Canada. Climate change will have a significant impact on its agriculture and through these changes on related industries in the region, as well as on other parts of Canada and rest of the world. This study is a synthesis of literature on various aspects of climate change-impacts, adaptation, and knowledge gaps for the Prairie Region. These impacts include potential to increase crop production through higher yields, improved livestock productivity, and higher income for producers through higher export sales. Agriculture may also expand to higher latitude areas that are currently not capable of sustaining such an activity. However, the dampening effect on the region would be through higher frequency of extreme events-droughts and floods. In spite of positive effect of climate change on the region, adaptation to climate change by producers will be virtually necessary. Producers are willing to adopt such measures, although there are major knowledge gaps in how climate change would affect and how one can adapt to it. Major uncertainties are carbon fertilization, ability of northern areas to sustain production with shifting ecozones, and impact of new pest and diseases, among others, which may affect the degree of resiliency of the prairie agriculture to climate change. This review concludes that the prairie agriculture is resilient except under prolong and intense extreme events and lack of adaptation to them.

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Climate change impacts on Canadian yields of spring wheat, canola and maize for global warming levels of 1.5 °C, 2.0 °C, 2.5 °C and 3.0 °C

Cited by 58 publications

References 59 publications

COVID-19 and food security in Sub-Saharan Africa: implications of lockdown during agricultural planting seasons

COVID-19 and food security in Sub-Saharan Africa: implications of lockdown during agricultural planting seasons

Modelling adaptation strategies to reduce adverse impacts of climate change on maize cropping system in Northeast China

Resiliency of Prairie Agriculture to Climate Change

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