Yuqing Mao, Mohamed Zeineldin, Moiz Usmani, Antarpreet Jutla, Joanna L. Shisler, Rachel J. Whitaker, Thanh H. Nguyen
{"title":"佛罗伦萨飓风洪水后当地和环境中的肠道沙门氏菌蓄水池","authors":"Yuqing Mao, Mohamed Zeineldin, Moiz Usmani, Antarpreet Jutla, Joanna L. Shisler, Rachel J. Whitaker, Thanh H. Nguyen","doi":"10.1029/2023GH000877","DOIUrl":null,"url":null,"abstract":"<p>In many regions of the world, including the United States, human and animal fecal genetic markers have been found in flood waters. In this study, we use high-resolution whole genomic sequencing to examine the origin and distribution of <i>Salmonella enterica</i> after the 2018 Hurricane Florence flooding. We specifically asked whether <i>S. enterica</i> isolated from water samples collected near swine farms in North Carolina shortly after Hurricane Florence had evidence of swine origin. To investigate this, we isolated and fully sequenced 18 independent <i>S. enterica</i> strains from 10 locations (five flooded and five unflooded). We found that all strains have extremely similar chromosomes with only five single nucleotide polymorphisms (SNPs) and possessed two plasmids assigned bioinformatically to the incompatibility groups IncFIB and IncFII. The chromosomal core genome and the IncFIB plasmid are most closely related to environmental <i>Salmonella</i> strains isolated previously from the southeastern US. In contrast, the IncFII plasmid was found in environmental <i>S. enterica</i> strains whose genomes were more divergent, suggesting the IncFII plasmid is more promiscuous than the IncFIB type. We identified 65 antibiotic resistance genes (ARGs) in each of our 18 <i>S. enterica</i> isolates. All ARGs were located on the <i>Salmonella</i> chromosome, similar to other previously characterized environmental isolates. All isolates with different SNPs were resistant to a panel of commonly used antibiotics. These results highlight the importance of environmental sources of antibiotic-resistant <i>S. enterica</i> after extreme flood events.</p>","PeriodicalId":48618,"journal":{"name":"Geohealth","volume":"7 11","pages":""},"PeriodicalIF":4.3000,"publicationDate":"2023-11-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10624599/pdf/","citationCount":"0","resultStr":"{\"title\":\"Local and Environmental Reservoirs of Salmonella enterica After Hurricane Florence Flooding\",\"authors\":\"Yuqing Mao, Mohamed Zeineldin, Moiz Usmani, Antarpreet Jutla, Joanna L. Shisler, Rachel J. Whitaker, Thanh H. Nguyen\",\"doi\":\"10.1029/2023GH000877\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>In many regions of the world, including the United States, human and animal fecal genetic markers have been found in flood waters. In this study, we use high-resolution whole genomic sequencing to examine the origin and distribution of <i>Salmonella enterica</i> after the 2018 Hurricane Florence flooding. We specifically asked whether <i>S. enterica</i> isolated from water samples collected near swine farms in North Carolina shortly after Hurricane Florence had evidence of swine origin. To investigate this, we isolated and fully sequenced 18 independent <i>S. enterica</i> strains from 10 locations (five flooded and five unflooded). We found that all strains have extremely similar chromosomes with only five single nucleotide polymorphisms (SNPs) and possessed two plasmids assigned bioinformatically to the incompatibility groups IncFIB and IncFII. The chromosomal core genome and the IncFIB plasmid are most closely related to environmental <i>Salmonella</i> strains isolated previously from the southeastern US. In contrast, the IncFII plasmid was found in environmental <i>S. enterica</i> strains whose genomes were more divergent, suggesting the IncFII plasmid is more promiscuous than the IncFIB type. We identified 65 antibiotic resistance genes (ARGs) in each of our 18 <i>S. enterica</i> isolates. All ARGs were located on the <i>Salmonella</i> chromosome, similar to other previously characterized environmental isolates. All isolates with different SNPs were resistant to a panel of commonly used antibiotics. 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Local and Environmental Reservoirs of Salmonella enterica After Hurricane Florence Flooding
In many regions of the world, including the United States, human and animal fecal genetic markers have been found in flood waters. In this study, we use high-resolution whole genomic sequencing to examine the origin and distribution of Salmonella enterica after the 2018 Hurricane Florence flooding. We specifically asked whether S. enterica isolated from water samples collected near swine farms in North Carolina shortly after Hurricane Florence had evidence of swine origin. To investigate this, we isolated and fully sequenced 18 independent S. enterica strains from 10 locations (five flooded and five unflooded). We found that all strains have extremely similar chromosomes with only five single nucleotide polymorphisms (SNPs) and possessed two plasmids assigned bioinformatically to the incompatibility groups IncFIB and IncFII. The chromosomal core genome and the IncFIB plasmid are most closely related to environmental Salmonella strains isolated previously from the southeastern US. In contrast, the IncFII plasmid was found in environmental S. enterica strains whose genomes were more divergent, suggesting the IncFII plasmid is more promiscuous than the IncFIB type. We identified 65 antibiotic resistance genes (ARGs) in each of our 18 S. enterica isolates. All ARGs were located on the Salmonella chromosome, similar to other previously characterized environmental isolates. All isolates with different SNPs were resistant to a panel of commonly used antibiotics. These results highlight the importance of environmental sources of antibiotic-resistant S. enterica after extreme flood events.
期刊介绍:
GeoHealth will publish original research, reviews, policy discussions, and commentaries that cover the growing science on the interface among the Earth, atmospheric, oceans and environmental sciences, ecology, and the agricultural and health sciences. The journal will cover a wide variety of global and local issues including the impacts of climate change on human, agricultural, and ecosystem health, air and water pollution, environmental persistence of herbicides and pesticides, radiation and health, geomedicine, and the health effects of disasters. Many of these topics and others are of critical importance in the developing world and all require bringing together leading research across multiple disciplines.
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