[Occurrence Characteristics and Consumption Risk of Antibiotic Resistance Genes in Organic Vegetables].

Agricultural soil has become an important reservoir and transmission source of antibiotic resistance genes （ARGs） because of the extensive application of organic fertilizers such as livestock and poultry manure in organic agriculture production. This greatly increases the risk of foodborne transmission of ARGs in organic agricultural products. However， the extent of ARGs contamination in different types of organic vegetables and its driving factors remain unclear. Therefore， two organic and traditional farming species： green radish （ L.） and coriander （ L.） species were selected as representatives to compare and analyze the abundance of ARGs and mobile gene elements （MGEs） and microbial community structure of the vegetable surface bacteria and endophytic bacteria using real-time PCR and 16S rRNA sequencing technology. Compared to conventional farming practices， organic farming significantly increased the abundance of ARGs among both epiphytic and endophytic bacteria on vegetables. The enrichment levels reached up to 78.9 times and 1.99 times， respectively. Furthermore， compared with that in coriander， green radishes exhibited a higher accumulation of ARGs. Similarly， the relative abundance of MGEs in endophytic bacteria of organically grown vegetables was significantly higher than those of the conventionally grown vegetables. Additionally， the abundance of MGEs positively correlated with the abundance of ARGs （<0.05）， indicating that the organic farming practices increased the abundance of ARGs in the microbiomes of the vegetables by promoting horizontal gene transfer. Furthermore， network analysis showed that the interactions between ARGs and bacteria were more complex under organic farming practices， enriching 30 bacterial genera as potential hosts. Among them， 14 bacterial genera （e.g.， ， ， and ） were significantly associated with high-risk ARGs （， ， and ）. These findings demonstrated that organic farming practices can increase the risk of human intake of ARGs by introducing potential ARG host bacteria and enriching MGEs， and root vegetables are more significantly affected by organic farming practices compared to leafy vegetables. This study provides a theoretical basis for assessing the health risks of ARGs contamination in edible vegetables under organic agricultural ecosystems.