Frontiers in Microbiology (May 2018)

Human Activity Determines the Presence of Integron-Associated and Antibiotic Resistance Genes in Southwestern British Columbia

  • Miguel I. Uyaguari-Díaz,
  • Miguel I. Uyaguari-Díaz,
  • Matthew A. Croxen,
  • Matthew A. Croxen,
  • Zhiyao Luo,
  • Kirby I. Cronin,
  • Kirby I. Cronin,
  • Michael Chan,
  • Waren N. Baticados,
  • Matthew J. Nesbitt,
  • Shaorong Li,
  • Kristina M. Miller,
  • Damion Dooley,
  • William Hsiao,
  • William Hsiao,
  • Judith L. Isaac-Renton,
  • Judith L. Isaac-Renton,
  • Patrick Tang,
  • Natalie Prystajecky,
  • Natalie Prystajecky

DOI
https://doi.org/10.3389/fmicb.2018.00852
Journal volume & issue
Vol. 9

Abstract

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The dissemination of antibiotic resistant bacteria from anthropogenic sources into the environment poses an emerging public health threat. Antibiotic resistance genes (ARGs) and gene-capturing systems such as integron-associated integrase genes (intI) play a key role in alterations of microbial communities and the spread of antibiotic resistant bacteria into the environment. In order to assess the effect of anthropogenic activities on watersheds in southwestern British Columbia, the presence of putative antibiotic resistance and integrase genes was analyzed in the microbiome of agricultural, urban influenced, and protected watersheds. A metagenomics approach and high-throughput quantitative PCR (HT qPCR) were used to screen for elements of resistance including ARGs and intI. Metagenomic sequencing of bacterial genomic DNA was used to characterize the resistome of microbial communities present in watersheds over a 1-year period. There was a low prevalence of ARGs relative to the microbial population (<1%). Analysis of the metagenomic sequences detected a total of 60 elements of resistance including 46 ARGs, intI1, and groEL/intI1 genes and 12 quaternary ammonium compounds (qac) resistance genes across all watershed locations. The relative abundance and richness of ARGs was found to be highest in agriculture impacted watersheds compared to urban and protected watersheds. A downstream transport pattern was observed in the impacted watersheds (urban and agricultural) during dry months. Similar to other reports, this study found a strong association between intI1 and ARGs (e.g., sul1), an association which may be used as a proxy for anthropogenic activities. Chemical analysis of water samples for three major groups of antibiotics was below the detection limit. However, the high richness and gene copy numbers (GCNs) of ARGs in impacted sites suggest that the effects of effluents on microbial communities are occurring even at low concentrations of antimicrobials in the water column. Antibiotic resistance and integrase genes in a year-long metagenomic study showed that ARGs were driven mainly by environmental factors from anthropogenized sites in agriculture and urban watersheds. Environmental factors such as land-use and water quality parameters accounted for 45% of the variability observed in watershed locations.

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