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Article Dans Une Revue Nature Communications Année : 2023

Silver lining to a climate crisis in multiple prospects for alleviating crop waterlogging under future climates

Ke Liu (1) , Matthew Tom Harrison (1) , Haoliang Yan (2) , De Li Liu (3) , Holger Meinke (1) , Gerrit Hoogenboom (4) , Bin Wang (3) , Bin Peng (5) , Kaiyu Guan (6) , Jonas Jaegermeyr (7) , Enli Wang (8) , Feng Zhang (9, 10) , Xiaogang Yin (11) , Sotirios Archontoulis (12) , Lixiao Nie (13) , Ana Badea (14) , Jianguo Man (15) , Daniel Wallach (16) , Jin Zhao (11, 17) , Ana Borrego Benjumea (14) , Shah Fahad (18) , Xiaohai Tian (19) , Weilu Wang (20) , Fulu Tao (21) , Zhao Zhang (22) , Reimund Rötter (23) , Youlu Yuan (24) , Min Zhu (11) , Panhong Dai (25) , Jiangwen Nie (11) , Yadong Yang (11) , Yunbo Zhang (19) , Meixue Zhou (1)
1 UTAS - University of Tasmania [Launceston]
2 CCRI - Central Cotton Research Institute
3 WWAI - Wagga Wagga Agricultural Institute
4 UF - University of Florida [Gainesville]
5 University of Illinois [Springfield]
6 UIUC - University of Illinois at Urbana-Champaign [Urbana]
7 GISS - NASA Goddard Institute for Space Studies
8 CSIRO - CSIRO Agriculture and Food
9 China Institute of Sport Science - Mass Sports Research Center
10 Chongqing University [Chongqing]
11 CAU - China Agricultural University
12 ISU - Iowa State University
13 Hainan University
14 Agriculture and Agri-Food Canada, Saskatoon Research Centre
15 HZAU - Huazhong Agricultural University [Wuhan]
16 AGIR - AGroécologie, Innovations, teRritoires
17 Aarhus University [Aarhus]
18 Abdul Wali Khan University
19 Yangtze University
20 Ministry of Education of China
21 Chinese Academy of Sciences [Xi’an]
22 BNU - Beijing Normal University
23 CBL - Centre for Biodiversity and Sustainable Land-use [University of Göttingen]
24 CAAS - Chinese Academy of Agricultural Sciences
25 Anyang University
Ke Liu
University of Tasmania [Launceston]
Matthew Tom Harrison
University of Tasmania [Launceston]
Haoliang Yan
Central Cotton Research Institute
De Li Liu
Wagga Wagga Agricultural Institute
Holger Meinke
University of Tasmania [Launceston]
Gerrit Hoogenboom
University of Florida [Gainesville]
Bin Wang
Wagga Wagga Agricultural Institute
Bin Peng
University of Illinois [Springfield]
Kaiyu Guan
University of Illinois at Urbana-Champaign [Urbana]
Jonas Jaegermeyr
  • Fonction : Auteur
NASA Goddard Institute for Space Studies
Enli Wang
CSIRO Agriculture and Food
Feng Zhang
China Institute of Sport Science - Mass Sports Research Center
Chongqing University [Chongqing]
Xiaogang Yin
China Agricultural University
Sotirios Archontoulis
Iowa State University
Lixiao Nie
  • Fonction : Auteur
Hainan University
Ana Badea
Agriculture and Agri-Food Canada, Saskatoon Research Centre
Jianguo Man
  • Fonction : Auteur
Huazhong Agricultural University [Wuhan]
Daniel Wallach
AGroécologie, Innovations, teRritoires
Jin Zhao
  • Fonction : Auteur
China Agricultural University
Aarhus University [Aarhus]
Ana Borrego Benjumea
Agriculture and Agri-Food Canada, Saskatoon Research Centre
Shah Fahad
Abdul Wali Khan University
Xiaohai Tian
Yangtze University
Weilu Wang
Ministry of Education of China
Fulu Tao
Chinese Academy of Sciences [Xi’an]
Zhao Zhang
  • Fonction : Auteur
Beijing Normal University
Reimund Rötter
Centre for Biodiversity and Sustainable Land-use [University of Göttingen]
Youlu Yuan
  • Fonction : Auteur
Chinese Academy of Agricultural Sciences
Min Zhu
  • Fonction : Auteur
China Agricultural University
Panhong Dai
Anyang University
Jiangwen Nie
China Agricultural University
Yadong Yang
China Agricultural University
Yunbo Zhang
Yangtze University
Meixue Zhou
  • Fonction : Auteur
University of Tasmania [Launceston]

Résumé

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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Sciences du Vivant [q-bio]
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Soumis le : vendredi 8 septembre 2023-14:36:55

Dernière modification le : lundi 6 mai 2024-14:13:54

Archivage à long terme le : samedi 9 décembre 2023-18:59:44

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hal-04200392 , version 1 (08-09-2023)

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Ke Liu, Matthew Tom Harrison, Haoliang Yan, De Li Liu, Holger Meinke, et al.. Silver lining to a climate crisis in multiple prospects for alleviating crop waterlogging under future climates. Nature Communications, 2023, 14 (1), pp.765. ⟨10.1038/s41467-023-36129-4⟩. ⟨hal-04200392⟩

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