Soil salinity,a serious threat to global agriculture,affects∼77 million hectares of farmland and is exacerbated by climate change,particularly global warming[[1],[2],[3]].Therefore,developing salt-tolerant crop culti...Soil salinity,a serious threat to global agriculture,affects∼77 million hectares of farmland and is exacerbated by climate change,particularly global warming[[1],[2],[3]].Therefore,developing salt-tolerant crop cultivars is crucial for ensuring global food security.However,the genetic networks governing plant adaptation to salt stress,including osmotic regulation,ion homeostasis,oxidative stress mitigation,and developmental reprogramming,remain unclear[1,2]and thus require comprehensive analysis.展开更多
基金supported by the National Key R&D Program of China(2022YFF1001601)the National Natural Science Foundation of China(32325037,32201718,and 32401756)+1 种基金the Postdoctoral Innovation Talents Support Program(BX20240420)the China Postdoctoral Science Foundation(2024T171011 and 2023M743817).
文摘Soil salinity,a serious threat to global agriculture,affects∼77 million hectares of farmland and is exacerbated by climate change,particularly global warming[[1],[2],[3]].Therefore,developing salt-tolerant crop cultivars is crucial for ensuring global food security.However,the genetic networks governing plant adaptation to salt stress,including osmotic regulation,ion homeostasis,oxidative stress mitigation,and developmental reprogramming,remain unclear[1,2]and thus require comprehensive analysis.
