Silver lining to a climate crisis in multiple prospects for alleviating crop waterlogging under future climates
文献类型: 外文期刊
第一作者: Liu, Ke
作者: Liu, Ke;Harrison, Matthew Tom;Meinke, Holger;Zhou, Meixue;Liu, Ke;Tian, Xiaohai;Zhang, Yunbo;Yan, Haoliang;Yuan, Youlu;Liu, De Li;Wang, Bin;Liu, De Li;Hoogenboom, Gerrit;Peng, Bin;Guan, Kaiyu;Peng, Bin;Guan, Kaiyu;Peng, Bin;Guan, Kaiyu;Jaegermeyr, Jonas;Jaegermeyr, Jonas;Jaegermeyr, Jonas;Wang, Enli;Zhang, Feng;Yin, Xiaogang;Nie, Jiangwen;Yang, Yadong;Archontoulis, Sotirios;Nie, Lixiao;Badea, Ana;Benjumea, Ana Borrego;Zhu, Min;Man, Jianguo;Wallach, Daniel;Zhao, Jin;Fahad, Shah;Wang, Weilu;Tao, Fulu;Tao, Fulu;Zhang, Zhao;Roetter, Reimund;Dai, Panhong
作者机构:
期刊名称:NATURE COMMUNICATIONS ( 影响因子:16.6; 五年影响因子:17.0 )
ISSN:
年卷期: 2023 年 14 卷 1 期
页码:
收录情况: SCI
摘要: Extreme weather events threaten food security, yet global assessments of impacts caused by crop waterlogging are rare. Here we first develop a paradigm that distils common stress patterns across environments, genotypes and climate horizons. Second, we embed improved process-based understanding into a farming systems model to discern changes in global crop waterlogging under future climates. Third, we develop avenues for adapting cropping systems to waterlogging contextualised by environment. We find that yield penalties caused by waterlogging increase from 3-11% historically to 10-20% by 2080, with penalties reflecting a trade-off between the duration of waterlogging and the timing of waterlogging relative to crop stage. We document greater potential for waterlogging-tolerant genotypes in environments with longer temperate growing seasons (e.g., UK, France, Russia, China), compared with environments with higher annualised ratios of evapotranspiration to precipitation (e.g., Australia). Under future climates, altering sowing time and adoption of waterlogging-tolerant genotypes reduces yield penalties by 18%, while earlier sowing of winter genotypes alleviates waterlogging by 8%. We highlight the serendipitous outcome wherein waterlogging stress patterns under present conditions are likely to be similar to those in the future, suggesting that adaptations for future climates could be designed using stress patterns realised today.
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