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Photosynthetic physiological response of water‐saving and drought‐resistant rice to severe drought under wetting‐drying alternation irrigation

Haibing He, Quan Wang, Lele Wang, Kun Yang, Ru Yang, Cuicui You, Jian Ke, Liquan Wu

2021Physiologia Plantarum22 citationsDOI

Abstract

Abstract Water‐saving and drought‐resistant rice (WDR) is widely grown in central China in recent years. However, studies have not explored the interaction effect of WDR and irrigation regimes on drought‐resistance capacities under severe drought at sensitive growth periods. A pot experiment was conducted using a WDR cultivar Hanyou73 (HY73) and traditional high‐yielding and drought‐sensitive cultivar Huiliangyou 898 (HLY898). Three irrigation regimes, including flooding irrigation (W1), mild wetting‐drying alternation irrigation (W2), and severe wetting‐drying alternation irrigation (W3), were applied before heading. At heading, severe drought with −50 KPa soil water potential was established for all treatments and cultivars. The findings showed that cultivar HY73 under W2 treatment had the highest yield, 1000‐grain yield, filled grain, relative water content, and photosynthesis potential compared with the other combinations. The higher net photosynthetic rate ( P n ) was attributed to larger mesophyll conductance ( g m ) in drought for cultivar HY73 under W2 treatment compared with that for cultivar HLY898 and the other water treatments. Enhanced photo‐respiration rate may be an important photoprotection mechanism for achieving high P n for cultivar HY73 coupled with W2 treatment than for other combinations in drought. The relative expression level of OsPIP1;1 gene wa s significantly down‐regulated during drought in all cultivars and water regimes. But OsPIP1;2 , OsPIP2;3 , OsTIP2;2 , and OsTIP3;1 genes were upregulated to alleviate the significant decrease in g s and g m under drought. These results suggest that WDR and mild wetting‐drying alternation irrigation (W2) have significant interaction effects in improving photosynthetic production potential by maintaining higher g m under severe drought.

Topics & Concepts

CultivarPhotosynthesisStomatal conductanceAgronomyIrrigationDrought toleranceWater-use efficiencyTranspirationBiologyHorticultureBotanyRice Cultivation and Yield ImprovementPlant responses to water stressPlant Stress Responses and Tolerance
Photosynthetic physiological response of water‐saving and drought‐resistant rice to severe drought under wetting‐drying alternation irrigation | Litcius