Prevalence and proliferation of antibiotic resistance genes in the subtropical mangrove wetland ecosystem of South China Sea

We investigated the diversity and functions of antibiotic resistance genes (ARGs) in an urban estuary containing mangroves in the South China Sea by shotgun metagenomics method. Total abundance of ARGs, six ARGs mtrA, rpoB, rpoC, rpsL, ef ‐Tu, and parY, abundance of resistance types elfamycin, multidrug and peptide, and resistance mechanism target alteration were all significantly lower in mangrove sediment samples than that in nonmangrove sediment. Network and partial redundancy analysis showed that sediment properties and mobile genetic elements (MGEs) were the most influential factors impacting ARG distributio. Our study indicated that mangrove sediments have the capacity to remove ARGs. AbstractThe emerging pollutants antibiotic resistance genes (ARGs) are prevalent in aquatic environments such as estuary. Coastal mangrove ecosystems always serve as natural wetlands for receiving sewage which always carry ARGs. Currently, the research considering ARG distribution in mangrove ecosystems gains more interest. In this work, we investigated the diversity of ARGs in an urban estuary containing mangrove and nonmangrove areas of the South China Sea. A total of 163 ARGs that classified into 22 resistance types and six resistance mechanisms were found. ARG abundance of the samples in the estuary is between 0.144 and 0.203. This is within the general range of Chinese estuaries. The difference analysis showed that abundances of total ARGs, six most abundant ARGs (mtrA,rpoB,rpoC,rps...
Source: MicrobiologyOpen - Category: Microbiology Authors: Tags: SPECIAL ISSUE: ANTIMICROBIAL RESISTANCE Source Type: research