Differential drivers on the occurrence of antibiotic resistance genes in agricultural soils and crops: Evidence from the different fertilization regimes

Organic fertilizer application caused bacterial resistance contamination in farming systems has been widely documented, and long-term fertilization will exacerbate the migration of antibiotic resistance genes (ARGs) to crops and humans. However, it remains unclear whether a combined pattern of chemical and organic fertilizer application can arrest the high prevalence of ARGs in soil-crop. Here we investigated the ARGs occurrence under different fertilization regimes, and explored the mechanisms by which micro-ecological shifts and geochemical factors in modulating the ARGs fate in soil and crop. The results showed that the soil ARGs abundance was highest under 100% organic fertilizer, while the highest ARGs abundance in crops was observed at 100% chemical fertilizer. Application of organic fertilizers with more than 50% ration intensified the soil accumulation and migration of tetA, sul1, sul2 and macA genes. And, multidrug_transporter, macA and sul1 were co-shared in soil and crop, where ARGs potential hosts differed complete in the two, suggesting that these ARGs may be transferred across media by horizontal transfer. Procrustes analysis revealed that soil microbial community was significantly correlated with ARG hosts, and soil microbial evolutionary pathway was congruent with antibiotic resistance, suggesting that fertilizers affect soil ARGs abundance mainly by altering soil microbial composition and their ecological evolutionary trajectories. While, no significant correlation was observed between endophytes and crop ARG host. Structural equations demonstrated that soil nutrients and crop growth characteristics contributed largely to the prevalence of crop ARGs. This outcome will provide new insights into the high prevalence of ARGs in soil and crop, and offer fertilizer recommendations for effectively curbing antibioticresistance contamination in farming systems.