Plants engage in beneficial associations with microorganisms that enhance their ability to efficiently acquire essential nutrients,such as nitrogen(N)and phosphorus(P)(Zhao et al.,2024).While most plant species form a...Plants engage in beneficial associations with microorganisms that enhance their ability to efficiently acquire essential nutrients,such as nitrogen(N)and phosphorus(P)(Zhao et al.,2024).While most plant species form arbuscular mycorrhizal(AM)symbiosis,legumes additionally develop root nodule symbiosis with nitrogen-fixing rhizobia.These symbiotic interactions are of pro-found ecological and economic significance,with the potential to contribute to climate change mitigation and agricultural sustainability.展开更多
基金supported by the National Natural Science Foundation of China(32200208 to J.-P.G.)a grant to the University of Cambridge by the Bill&Melinda Gates Foundation andtheUKForeign,CommonwealthandDevelopment Office(grant no.OPP1172165)known as the Enabling Nutrient Symbioses in Agriculture(ENSA)project.C.H.C.was supported by the National University of Singapore Overseas Postdoctoral Fellowship(NUS-OPF)and Biotechnology and Biological Sciences(grant no.BB/X011933/1).
文摘Plants engage in beneficial associations with microorganisms that enhance their ability to efficiently acquire essential nutrients,such as nitrogen(N)and phosphorus(P)(Zhao et al.,2024).While most plant species form arbuscular mycorrhizal(AM)symbiosis,legumes additionally develop root nodule symbiosis with nitrogen-fixing rhizobia.These symbiotic interactions are of pro-found ecological and economic significance,with the potential to contribute to climate change mitigation and agricultural sustainability.
