Mitigating the transfer risk of antibiotic resistance genes from fertilized soil to cherry radish during the application of insect fertilizer

The transfer of antibiotic resistance genes (ARGs) from fertilized soil to vegetables, particularly those consumed raw, causes significant public health risks through the food chain. Black soldier fly larvae can efficiently convert animal manure into organic fertilizer with reduced antibiotic resistance. This study utilized metagenomic sequencing to investigate fields treated with control organic fertilizer (COF), black soldier fly organic fertilizer (BOF), and no fertilizer, with the aim of assessing the transfer risks of ARGs from soil to cherry radish. The results indicated that BOF significantly reduced the richness and abundance of ARGs in both soil and cherry radish compared to COF, reducing 13 ARG subtypes and a 27.6% decrease in ARG abundance in cherry radish. Moreover, a significant positive correlation was observed between mobile genetic elements (MGEs) and virulence factors (VFs) with ARGs, with BOF treatment resulting in a relative abundance reduction of 32.8% and 29.1%, respectively. The complexity of networks involving ARGs with MGEs, VFs, and microbial communities in the BOF treatment was 54.2%, 32.3%, and 32.8% lower, respectively, than the COF treatment. Further analysis of metagenomic-assembled genomes (MAGs) revealed the co-occurrence of ARGs, MGEs, and VFs in cherry radish, indicating the presence of potential pathogenic antibiotic-resistant bacteria (PARB). Notably, the abundance of these PARB in BOF radishes decreased by 45.6% compared to COF. These findings underscore the efficacy of insect fertilizer in mitigating the transfer risks of ARGs to radish, highlighting the significance of sustainable agricultural practices in managing the environmental and health risks associated with ARGs.