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Variations in Bacterial Communities and Antibiotic Resistance Genes Across Diverse Recycled and Surface Water Irrigation Sources in the Mid-Atlantic and Southwest United States: A CONSERVE Two-Year Field Study.

Leena MalayilPadmini RamachandranSuhana ChattopadhyaySarah M AllardAnthony BuiJicell ButronMary Theresa CallahanHillary A CraddockRianna MurrayCheryl EastManan SharmaKalmia KnielShirley MicallefFawzy HashemCharles P GerbaSadhana RavishankarSalina ParveenEric MayEric HandyPrachi KulkarniBrienna Anderson-CoughlinShani CraigheadSamantha GartleyAdam VanoreRico DuncanDerek FoustJoseph HaymakerWalter BetancourtLibin ZhuEmmanuel F MongodinAmir SapkotaMihai PopAmy R Sapkota
Published in: Environmental science & technology (2022)
Reduced availability of agricultural water has spurred increased interest in using recycled irrigation water for U.S. food crop production. However, there are significant knowledge gaps concerning the microbiological quality of these water sources. To address these gaps, we used 16S rRNA gene and metagenomic sequencing to characterize taxonomic and functional variations (e.g., antimicrobial resistance) in bacterial communities across diverse recycled and surface water irrigation sources. We collected 1 L water samples ( n = 410) between 2016 and 2018 from the Mid-Atlantic (12 sites) and Southwest (10 sites) U.S. Samples were filtered, and DNA was extracted. The V3-V4 regions of the 16S rRNA gene were then PCR amplified and sequenced. Metagenomic sequencing was also performed to characterize antibiotic, metal, and biocide resistance genes. Bacterial alpha and beta diversities were significantly different ( p < 0.001) across water types and seasons. Pathogenic bacteria, such as Salmonella enterica , Staphylococcus aureus , and Aeromonas hydrophilia were observed across sample types. The most common antibiotic resistance genes identified coded against macrolides/lincosamides/streptogramins, aminoglycosides, rifampin and elfamycins, and their read counts fluctuated across seasons. We also observed multi-metal and multi-biocide resistance across all water types. To our knowledge, this is the most comprehensive longitudinal study to date of U.S. recycled water and surface water used for irrigation. Our findings improve understanding of the potential differences in the risk of exposure to bacterial pathogens and antibiotic resistance genes originating from diverse irrigation water sources across seasons and U.S. regions.
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