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Escherichia coli in urban marine sediments : interpreting virulence, biofilm formation, halotolerance, and antibiotic resistance to infer contamination or naturalization

Erb, Isabel K. LU ; Suarez, Carolina LU ; Frank, Ellinor M. LU ; Bengtsson-Palme, Johan ; Lindberg, Elisabet and Paul, Catherine J. LU orcid (2024) In FEMS Microbes 5.
Abstract

Marine sediments have been suggested as a reservoir for pathogenic bacteria, including Escherichia coli. The origins, and properties promoting survival of E. coli in marine sediments (including osmotolerance, biofilm formation capacity, and antibiotic resistance), have not been well-characterized. Phenotypes and genotypes of 37 E. coli isolates from coastal marine sediments were characterized. The isolates were diverse: 30 sequence types were identified that have been previously documented in humans, livestock, and other animals. Virulence genes were found in all isolates, with more virulence genes found in isolates sampled from sediment closer to the effluent discharge point of a wastewater treatment plant. Antibiotic resistance was... (More)

Marine sediments have been suggested as a reservoir for pathogenic bacteria, including Escherichia coli. The origins, and properties promoting survival of E. coli in marine sediments (including osmotolerance, biofilm formation capacity, and antibiotic resistance), have not been well-characterized. Phenotypes and genotypes of 37 E. coli isolates from coastal marine sediments were characterized. The isolates were diverse: 30 sequence types were identified that have been previously documented in humans, livestock, and other animals. Virulence genes were found in all isolates, with more virulence genes found in isolates sampled from sediment closer to the effluent discharge point of a wastewater treatment plant. Antibiotic resistance was demonstrated phenotypically for one isolate, which also carried tetracycline resistance genes on a plasmid. Biofilm formation capacity varied for the different isolates, with most biofilm formed by phylogroup B1 isolates. All isolates were halotolerant, growing at 3.5% NaCl. This suggests that the properties of some isolates may facilitate survival in marine environments and can explain in part how marine sediments can be a reservoir for pathogenic E. coli. As disturbance of sediment could resuspend bacteria, this should be considered as a potential contributor to compromised bathing water quality at nearby beaches.

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organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
antibiotic resistance, bathing water, biofim, environmental Escherichia coli, halotolerance, whole genome sequencing
in
FEMS Microbes
volume
5
article number
xtae024
publisher
Oxford University Press
external identifiers
  • scopus:85203493586
  • pmid:39246828
DOI
10.1093/femsmc/xtae024
language
English
LU publication?
yes
additional info
Publisher Copyright: © The Author(s) 2024.
id
f2a01417-fa3f-46b5-b409-1c90a56e842d
date added to LUP
2024-12-04 08:22:48
date last changed
2025-07-17 02:41:29
@article{f2a01417-fa3f-46b5-b409-1c90a56e842d,
  abstract     = {{<p>Marine sediments have been suggested as a reservoir for pathogenic bacteria, including Escherichia coli. The origins, and properties promoting survival of E. coli in marine sediments (including osmotolerance, biofilm formation capacity, and antibiotic resistance), have not been well-characterized. Phenotypes and genotypes of 37 E. coli isolates from coastal marine sediments were characterized. The isolates were diverse: 30 sequence types were identified that have been previously documented in humans, livestock, and other animals. Virulence genes were found in all isolates, with more virulence genes found in isolates sampled from sediment closer to the effluent discharge point of a wastewater treatment plant. Antibiotic resistance was demonstrated phenotypically for one isolate, which also carried tetracycline resistance genes on a plasmid. Biofilm formation capacity varied for the different isolates, with most biofilm formed by phylogroup B1 isolates. All isolates were halotolerant, growing at 3.5% NaCl. This suggests that the properties of some isolates may facilitate survival in marine environments and can explain in part how marine sediments can be a reservoir for pathogenic E. coli. As disturbance of sediment could resuspend bacteria, this should be considered as a potential contributor to compromised bathing water quality at nearby beaches.</p>}},
  author       = {{Erb, Isabel K. and Suarez, Carolina and Frank, Ellinor M. and Bengtsson-Palme, Johan and Lindberg, Elisabet and Paul, Catherine J.}},
  keywords     = {{antibiotic resistance; bathing water; biofim; environmental Escherichia coli; halotolerance; whole genome sequencing}},
  language     = {{eng}},
  publisher    = {{Oxford University Press}},
  series       = {{FEMS Microbes}},
  title        = {{Escherichia coli in urban marine sediments : interpreting virulence, biofilm formation, halotolerance, and antibiotic resistance to infer contamination or naturalization}},
  url          = {{http://dx.doi.org/10.1093/femsmc/xtae024}},
  doi          = {{10.1093/femsmc/xtae024}},
  volume       = {{5}},
  year         = {{2024}},
}