The advancement of life in all its forms relies on agricultural practices and food security,which are fundamentally influenced by soil characteristics.The demand for agricultural products has surged due to climate cha...The advancement of life in all its forms relies on agricultural practices and food security,which are fundamentally influenced by soil characteristics.The demand for agricultural products has surged due to climate change and global population growth,leading to a significant increase in the utilization of chemical fertilizers.Since chemical agents have affected soil fertility and quality by degradation,causing the development of agricultural fields with rich soil to be incomprehensible,consideration for a secure and profitable agricultural production has drifted.Plant growth promoting rhizobacteria(PGPR)have established eco-evolutionary relationships with host plants,fitness,and productivity.Microbial renaissance driven by plant growth regulators has been successfully achieved through disease resistance in emerging pathogens,bio-fertilization,rhizoremediation,and stimulating root growth.PGPR can profoundly increase plant growth by producing growth hormones,improving nutrient uptake,suppressing plant pathogens,and protecting against biotic and abiotic stress conditions.Here,we provide insight into sustainable agricultural development aimed at increasing crop yield and production by exploring the mechanisms and commercial applications of potential rhizobacteria under changing climatic conditions.展开更多
基金supported by the Yunnan Agricultural University Startup Fund(20232020003).
文摘The advancement of life in all its forms relies on agricultural practices and food security,which are fundamentally influenced by soil characteristics.The demand for agricultural products has surged due to climate change and global population growth,leading to a significant increase in the utilization of chemical fertilizers.Since chemical agents have affected soil fertility and quality by degradation,causing the development of agricultural fields with rich soil to be incomprehensible,consideration for a secure and profitable agricultural production has drifted.Plant growth promoting rhizobacteria(PGPR)have established eco-evolutionary relationships with host plants,fitness,and productivity.Microbial renaissance driven by plant growth regulators has been successfully achieved through disease resistance in emerging pathogens,bio-fertilization,rhizoremediation,and stimulating root growth.PGPR can profoundly increase plant growth by producing growth hormones,improving nutrient uptake,suppressing plant pathogens,and protecting against biotic and abiotic stress conditions.Here,we provide insight into sustainable agricultural development aimed at increasing crop yield and production by exploring the mechanisms and commercial applications of potential rhizobacteria under changing climatic conditions.
