Litcius/Paper detail

Enhanced detection of viruses for improved water safety

Emalie K. Hayes, Madison Gouthro, Megan Fuller, David Redden, Graham A. Gagnon

2023Scientific Reports15 citationsDOIOpen Access PDF

Abstract

Human viruses pose a significant health risk in freshwater environments, but current monitoring methods are inadequate for detecting viral presence efficiently. We evaluated a novel passive in-situ concentration method using granular activated carbon (GAC). This study detected and quantified eight enteric and non-enteric, pathogenic viruses in a freshwater recreational lake in paired grab and GAC passive samples. The results found that GAC passive sampling had a higher detection rate for all viruses compared to grab samples, with adenovirus found to be the most prevalent virus, followed by respiratory syncytial virus, norovirus, enterovirus, influenza A, SARS-CoV-2, and rotavirus. GAC in-situ concentration allowed for the capture and recovery of viral gene copy targets that ranged from one to three orders of magnitude higher than conventional ex-situ concentration methods used in viral monitoring. This simple and affordable sampling method may have far-reaching implications for reducing barriers associated with viral monitoring across various environmental contexts.

Topics & Concepts

NorovirusRotavirusEnterovirusVirusVirologyVirus quantificationBiologyMicrobiologyViral gastroenteritis research and epidemiologySARS-CoV-2 detection and testingRespiratory viral infections research