Nitrogen (N)-based fertilizers are routinely used to increase agricultural productivity for both food and non-food uses of crops. Unfortunately, excess N fertilizers escape to the environment, leading to detrimental...Nitrogen (N)-based fertilizers are routinely used to increase agricultural productivity for both food and non-food uses of crops. Unfortunately, excess N fertilizers escape to the environment, leading to detrimental effects on the ecosystem and human health. Understanding how plants sense and respond to different N nutrients or metabolites to regulate metabolism, physiology, growth, and development is essential for sustained yields while reducing agriculture's environmental and economic costs.展开更多
文摘Nitrogen (N)-based fertilizers are routinely used to increase agricultural productivity for both food and non-food uses of crops. Unfortunately, excess N fertilizers escape to the environment, leading to detrimental effects on the ecosystem and human health. Understanding how plants sense and respond to different N nutrients or metabolites to regulate metabolism, physiology, growth, and development is essential for sustained yields while reducing agriculture's environmental and economic costs.
