Kansas agriculture in 2050: a pathway for climate-resilient crop production

Kelly M. Suttles, B. V. Smoliak, Aditya P. Ranade, Samuel F. Potter, Marika Jaeger, Eileen L. McLellan
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Abstract

Advances in farming technologies and practices have helped farmers to increase crop yields, but continued production increases – while needed to feed a growing global population – are being hindered by climate change and other environmental challenges. Kansas, a globally important region for wheat production, is already experiencing threats to staple crop production. This study explores one possible alternative future for Kansas crop production in which farmers could, by crop switching, continue to grow nutrient-rich crops while responding to hotter temperatures and increasing water demand.We used a combination of climate and crop modeling with simple water budgets to identify optimal crop mixes under anticipated climatic and water constraints. Interviews with Kansas farmers helped identify feasible crop switching options: sorghum instead of corn (maize), winter rye and winter oats instead of winter wheat, and millet instead of soybeans.Our analysis suggests that a sizeable proportion of current Kansas cropland would need to shift to these alternative crops by 2050 to meet anticipated water constraints and produce equivalent nutritional value under projected climate conditions. Alternative crops could increase from 16% of Kansas' crop area in 2021 to 43% of the area in 2050, resulting in a reduction in 2050 crop water demand of 12% relative to that of the current crop mix. This crop water demand reduction would be concentrated in parts of the state that will experience the greatest change in water needs between today and mid-century due to changing climate conditions.Our analysis shows that, by changing (diversifying) the mix of crops grown, it is biophysically possible for crop production in Kansas to be both sustainable and resilient under future climate conditions. However, achieving a more climate-resilient crop mix on the ground, in Kansas and elsewhere, will require major shifts in the broader agricultural system. Food companies, agricultural lenders, and policymakers can play a key role in enabling farmers to adapt cropping systems in the face of climate and environmental challenges.
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2050 年的堪萨斯农业:适应气候的作物生产之路
耕作技术和耕作方法的进步帮助农民提高了作物产量,但持续增产--虽然需要养活不断增长的全球人口--正受到气候变化和其他环境挑战的阻碍。堪萨斯州是全球重要的小麦生产地区,但该地区的主要作物生产已经受到威胁。本研究探讨了堪萨斯州作物生产的一种可能的替代未来,在这种未来中,农民可以通过作物转换,继续种植营养丰富的作物,同时应对更高的温度和不断增长的水资源需求。我们将气候和作物模型与简单的水资源预算相结合,确定了在预期气候和水资源限制条件下的最佳作物组合。与堪萨斯州农民的访谈帮助我们确定了可行的作物转换方案:用高粱代替玉米,用冬黑麦和冬燕麦代替冬小麦,用小米代替大豆。我们的分析表明,到 2050 年,堪萨斯州现有耕地的相当大一部分将需要转种这些替代作物,以满足预期的水资源限制,并在预计的气候条件下产生同等的营养价值。替代作物占堪萨斯州农作物面积的比例可能从 2021 年的 16% 增加到 2050 年的 43%,从而使 2050 年的农作物需水量比目前的农作物组合减少 12%。我们的分析表明,通过改变(多样化)作物种植组合,堪萨斯州的作物生产在生物物理上有可能在未来气候条件下实现可持续发展并具有抗灾能力。然而,要在堪萨斯州和其他地区实现更具气候适应性的作物组合,需要对更广泛的农业系统进行重大调整。食品公司、农业贷款机构和政策制定者可以发挥关键作用,帮助农民调整种植系统,以应对气候和环境挑战。
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