Heat stress may cause a significant reduction of rice yield in China under future climate scenarios

Extreme heat events have become more frequent and severe under climate change and seriously threaten rice growth. Most existing crop models tend to underestimate the impacts of heat stress on rice yields. Heat stress modules in crop models have not been extensively explored, particularly on a large...

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Bibliographic Details
Published in:The Science of the total environment 2022-04, Vol.818, p.151746-151746, Article 151746
Main Authors: Sun, Qing, Zhao, Yanxia, Zhang, Yi, Chen, Sining, Ying, Qing, Lv, Zunfu, Che, Xianghong, Wang, Delong
Format: Article
Language:English
Subjects:
Agriculture
CERES-Rice model
China
Climate Change
CO2 effect
Heat stress
Heat-Shock Response
Oryza
Rice yield
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Summary:Extreme heat events have become more frequent and severe under climate change and seriously threaten rice growth. Most existing crop models tend to underestimate the impacts of heat stress on rice yields. Heat stress modules in crop models have not been extensively explored, particularly on a large scale. This study modeled rice growth under heat stress at the flowering and filling stages through two heat stress models which coupled into the CERES-Rice model. We evaluated the advanced model with provincial statistics and Gridded Observed Rice Yield. Our improved CERES-Rice model produced more accurate estimates on rice yield than the original model evidenced by an increased correlation coefficient (R) of 12.72% and d-index of 0.02%. The RMSE and MAE decreased by 5.94% and 6.01%, respectively. Most pseudo positive correlations between rice yield and the number of heat days were corrected to the negative ones by the improved model. The future projections from the improved model signifies multi-model ensemble yield projection without CO2 effect (MME-I-NOCO2) has an apparent fall from 2020 to 2099 under RCP4.5, RCP6.0 and RCP8.5 with the decreasing percentages of 6%, 14%, and 37%, respectively, whereas the decreasing trend (12%) only occurs under RCP8.5 with CO2 effect (MME-I-CO2). The apparently decreasing trends of yield projection from MME-I-NOCO2 will occur in most rice-planted regions of China with the decreasing rateĀ 
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2021.151746