Carbon dioxide responsiveness mitigates rice yield loss under high night temperature

播种 二氧化碳 水稻 产量(工程) 光合作用 农学 粮食产量 地球大气中的二氧化碳 生物 碳纤维 稻属 环境科学 植物 生态学 复合数 材料科学 冶金 复合材料 基因 生物化学
作者
Rajeev N. Bahuguna,Ashish K. Chaturvedi,Madan Pal,Viswanathan Chinnusamy,S. V. Krishna Jagadish,Ashwani Pareek
出处
期刊:Plant Physiology [Oxford University Press]
卷期号:188 (1): 285-300 被引量:18
标识
DOI:10.1093/plphys/kiab470
摘要

Abstract Increasing night-time temperatures are a major threat to sustaining global rice (Oryza sativa L.) production. A simultaneous increase in [CO2] will lead to an inevitable interaction between elevated [CO2] (e[CO2]) and high night temperature (HNT) under current and future climates. Here, we conducted field experiments to identify [CO2] responsiveness from a diverse indica panel comprising 194 genotypes under different planting geometries in 2016. Twenty-three different genotypes were tested under different planting geometries and e[CO2] using a free-air [CO2] enrichment facility in 2017. The most promising genotypes and positive and negative controls were tested under HNT and e[CO2] + HNT in 2018. [CO2] responsiveness, measured as a composite response index on different yield components, grain yield, and photosynthesis, revealed a strong relationship (R2 = 0.71) between low planting density and e[CO2]. The most promising genotypes revealed significantly lower (P < 0.001) impact of HNT in high [CO2] responsive (HCR) genotypes compared to the least [CO2] responsive genotype. [CO2] responsiveness was the major driver determining grain yield and related components in HCR genotypes with a negligible yield loss under HNT. A systematic investigation highlighted that active selection and breeding for [CO2] responsiveness can lead to maintained carbon balance and compensate for HNT-induced yield losses in rice and potentially other C3 crops under current and future warmer climates.

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