Abstract
Sequencing-based surveillance can enable rapid and sensitive detection of environmental pathogens. The Oslofjord inlet is relatively narrow, and is exposed to substantial human activity, including occasional wastewater contamination. Restricted water exchange also allows for occasional summer heat spells with elevated water temperatures. Thus, infections stemming from wastewater contamination and seasonal opportunistic pathogens are potential health threats to recreational users of the fjord. In this pilot study, we assess the suitability of sequencing-based surveillance for the detection of pathogens at a popular urban location for recreational water activities, employing both long- and short-read sequencing platforms, paired with selective culturing. We find both metagenomic and full-length 16S sequencing to be promising tools for surveillance of seasonal opportunistic Vibrio pathogens. Furthermore, we identified Rhodoferax abundance to be a potentially attractive indicator of sewage contamination using low to medium full-length 16S sequencing. Selective plating revealed minimal abundance of culturable extended-spectrum β-lactam resistant bacteria, of which none were detected by metagenomic sequencing. Metagenomic analyses did however pick up a number of other β-lactamases in various bacterial taxa.
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Abstract
Sequencing-based surveillance can enable rapid and sensitive detection of environmental pathogens. The Oslofjord inlet is relatively narrow, and is exposed to substantial human activity, including occasional wastewater contamination. Restricted water exchange also allows for occasional summer heat spells with elevated water temperatures. Thus, infections stemming from wastewater contamination and seasonal opportunistic pathogens are potential health threats to recreational users of the fjord.
In this pilot study, we assess the suitability of sequencing-based surveillance for the detection of pathogens at a popular urban location for recreational water activities, employing both long- and short-read sequencing platforms, paired with selective culturing.
We find both metagenomic and full-length 16S sequencing to be promising tools for surveillance of seasonal opportunistic Vibrio pathogens. Furthermore, we identified Rhodoferax abundance to be a potentially attractive indicator of sewage contamination using low to medium full-length 16S sequencing. Selective plating revealed minimal abundance of culturable extended-spectrum β-lactam resistant bacteria, of which none were detected by metagenomic sequencing. Metagenomic analyses did however pick up a number of other β-lactamases in various bacterial taxa.
- Received:
- Version Posted:
Funding
-
Norges Forskningsråd
(Award 314720)
- Principal Award Recipient: Daniel Straume
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