Metagenomics insights into gentamicin degradation and the dynamic of antibiotic resistance genes during co-composting of the gentamicin myelial residues with addition of various organic wastes.

Sci Total Environ

School of Chemical Engineering, Zhengzhou University, Zhengzhou 450001, PR China; School of Ecology and Environment, Zhengzhou University, Zhengzhou 450001, PR China; Henan International Joint Laboratory of Environment and Resources, Zhengzhou University, Zhengzhou 450001, PR China. Electronic address:

Published: August 2023

AI Article Synopsis

  • The increasing presence of antibiotic mycelial residues (AMRs) and antibiotic resistance genes (ARGs) poses a major risk to both ecosystems and public health.
  • Research indicates that composting can effectively recycle AMRs, but the specifics of how gentamicin and ARGs degrade during the composting process of gentamicin mycelial residues (GMRs) is not well-studied on an industrial level.
  • The study found that the optimal composting condition (C/N ratio of 25:1) achieved 98.23% removal of gentamicin and 53.20% removal of total ARGs, while also revealing that the increasing presence of aminoglycoside resistance genes (AMGs) after composting

Article Abstract

Increasing antibiotic mycelial residues (AMRs) and related antibiotic resistance genes (ARGs) pose a significant threat to ecosystems and public health. Composting is a crucial method for recycling AMRs. However, the variation in ARGs and gentamicin degradation in the composting process of gentamicin mycelial residues (GMRs) has received little attention on an actual industrial scale. This research investigated the metabolic pathways and functional genes on the gentamicin and ARGs removal during the co-composting of GMRs with addition of various organic wastes (rice chaff, mushroom residue, etc.) under various C/N ratios (15:1, 25:1, 35:1). The results showed that the removal efficiencies of gentamicin and the total ARGs were 98.23 % and 53.20 %, respectively, with the C/N ratio of 25:1. Moreover, metagenomics and LS-MS/MS analysis demonstrated that the acetylation was the primary pathway for gentamicin biodegradation and the corresponding degrading genes were the categories of aac(3) and aac(6'). However, the relative abundance of aminoglycoside resistance genes (AMGs) were increased after 60 days composting. The partial least squares path modeling analysis demonstrated that the AMG abundance was directly influenced by the predominant mobile gene elements intI1 (p < 0.05) which was closely related to the bacterial community composition. Therefore, the ecological environmental risks should be assessed in the future application of GMRs composting products.

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http://dx.doi.org/10.1016/j.scitotenv.2023.163848DOI Listing

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