Frontiers in Plant Science, Journal Year: 2023, Volume and Issue: 14

Published: Nov. 14, 2023

Biofertilizers have immense potential for enhancing agricultural productivity. However, there is still a need clarification regarding the specific mechanisms through which these biofertilizers improve soil properties and stimulate plant growth. In this research, bacterial agent was utilized to enhance growth investigate microbial modulation mechanism of nutrient turnover using metagenomic technology. The results demonstrated significant increase in fast-acting nitrogen (by 46.7%) phosphorus 88.6%) upon application agent. This finding suggests that stimulated microbes contribute enhanced transformation, ultimately leading improved Furthermore, had notable impact on accumulation key genes involved cycling. Notably, it nitrification (amo, hao, nar), while denitrification (nir nor) showed slight decrease. indicates ammonium oxidation may be primary pathway increasing soils. Additionally, influenced composition functional structure community. Moreover, metagenome-assembled genomes (MAGs) obtained from communities exhibited complementary metabolic processes, suggesting mutual exchange. These MAGs contained widely distributed highly abundant encoding promotion (PGP) traits. findings emphasize how can vegetation by availability regulating hormone production. effect further introducing inoculated agents. conclusion, study provides novel insights into underlying beneficial effects availability, cycling, presence PGP traits highlight practices. important implications sustainability productivity, with positive societal environmental impacts.

Language: Английский