AI Article Synopsis
- Compost-based organic fertilizers have high levels of antibiotic resistance genes (ARGs) and mobile genetic elements (MGEs), making their analysis crucial for understanding antibiotic resistance risks.
- A study examined both extracellular (eARGs and eMGEs) and intracellular (iARGs and iMGEs) distributions of these genetic components across 51 commercial composts using advanced techniques like qPCR and metagenomic sequencing.
- Findings revealed that a significant percentage of ARGs and MGEs are found in both forms, with key similarities in diversity and association with plasmids, emphasizing the need for careful risk assessment and management of compost use.
Article Abstract
Compost-based organic fertilizers often contain high levels of antibiotic resistance genes (ARGs) and mobile genetic elements (MGEs). Previous studies focused on quantification of total ARGs and MGEs. For a more accurate risk assessment of the dissemination risk of antibiotic resistance, it is necessary to quantify the intracellular and extracellular distribution of ARGs and MGEs. In the present study, extracellular ARGs and MGEs (eARGs and eMGEs) and intracellular ARGs and MGEs (iARGs and iMGEs) were separately analyzed in 51 commercial composts derived from different raw materials by quantitative polymerase chain reaction (qPCR) and metagenomic sequencing. Results showed that eARGs and eMGEs accounted for 11-56% and 4-45% of the total absolute abundance of ARGs and MGEs, respectively. Comparable diversity, host composition and association with MGEs were observed between eARGs and iARGs. Contents of high-risk ARGs were similar between eARGs and iARGs, with high-risk ARGs in the two forms accounting for 6.7% and 8.2% of the total abundances, respectively. Twenty-four percent of the overall ARGs were present in plasmids, while 56.7% of potentially mobile ARGs were found to be associated with plasmids. Variation partitioning analysis, null model and neutral community model indicated that the compositions of both eARGs and iARGs were largely driven by deterministic mechanisms. These results provide important insights into the cellular distribution of ARGs in manure composts that should be paid with specific attention in risk assessment and management.
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| http://dx.doi.org/10.1016/j.scitotenv.2024.172558 | DOI Listing |
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