Abstract
Fertilizer application in intensive agriculture critically influences microbial communities. It is still unclear how long-term input of different nutrients shapes microbial eco-evolutionary strategies and ecological functions. Through 180-year-old field fertilization experiment, alongside microbial culturing, pot experiments, and comprehensive metagenomic data analysis, we show that exclusive fertilization with inorganic chemicals causes carbon-nitrogen imbalances that increase microbial resource competition and antibiotic resistance gene (ARG) levels. Viruses further amplify this expansion through "piggyback the winner" strategy. The imbalanced use of nitrogen in chemical fertilizers disrupt ecological niche connections, leading to an increase in virulent viruses and reducing microbial nutrient cycling capacity. In contrast, more balanced nutrient supplies from organic fertilization reduced microbial competition and promoted microbial growth. However, responsible antibiotic use in livestock is essential to maximizing these benefits. Our research provides insights into enhancing agricultural sustainability through the management of soil nutrient conditions.