摘要
Plants are frequently subjected to a deficiency of single or multiple nutrients,leading to an imbalance of mineral elements impacting plant growth and development.During evolution,plants acquired diverse morphological and physiological adaptations to cope with nutrient deficiencies.Increasing evidence supports the existence of multilevel interactions between mineral nutrients,in which the uptake,transport,and assimilation of a certain nutrient can be modulated by the status of other nutrients,thus allowing plants to coordinate the balance of all essential mineral elements.Among macronutrients,nitrogen(N)is the essential nutrient required in the largest amount to sustain crop productivity(Xu et al.,2012).Because of the massive input of N fertilizers,N availability is no longer a limiting factor in most agricultural systems nowadays,but the excessive application of N fertilizers leads to several environmental problems(Sutton et al.,2011).Therefore,improving N use efficiency of crops becomes an urgent task of plant breeding(Xu et al.,2012;Hu et al.,2023).
基金
supported by the National Key Research and Development Program of China(2021YFF1000400)
the Jiangsu Provincial Key Research and Development Program(BE2020339 and BE2022336).