TY - JOUR
T1 - Seasonal and spatial dynamics of enteric viruses in wastewater and in riverine and estuarine receiving waters
AU - Malham, Shelagh
AU - Farkas, Kata
AU - McDonald, James
AU - Jones, Davey L.
AU - Cooper, David
AU - de Rougemont, Alexis
PY - 2018/9/1
Y1 - 2018/9/1
N2 - Enteric viruses represent a global public health threat and are implicated in numerous foodborne and waterborne disease outbreaks. Nonetheless, little is known of their fate and stability in the environment. In this study we used carefully validated methods to monitor enteric viruses, namely adenovirus (AdV), JC polyomavirus (JVC), noroviruses (NoVs), Sapovirus (SaV) and hepatitis A and E viruses (HAV and HEV) from wastewater source to veaches and shellfish beds. Wastewater influent and effluent, surface water, sediment and shellfish samples were collected in the conwy catchment (North Wales, UK) once a month for one year. High concentrations of AdV and JCV were found in the majority of samples, and no seasonal patterns were observed. No HAV and HEV were detected and no related illnesses were reported in the area during the period of sampling. Noroviruses and SaV were also detected at high concentrations in wastewater and surface water, and their presence correlated with local gastroenteritis outbreaks during teh spring and autumn seasons. Noroviruses were also found in estuarine sediment and in shellfish harvested for human consumption. As PCR-based methods were used for quantification, viral infectivity and degradation was estimated using a NoV capsid integrity assay. The assay revealed low-levels of viral decay in wastewater effluent compared to influent, and more significant decay in environmental waters and sediment. Results suggest that AdV and JCV may be suitable markers for the assessment of the spatial distribution of wastewater contamination in the environment; pathogenic viruses can be directly monitored during the after reported outbreaks to prevent further environment-derived illnesses
AB - Enteric viruses represent a global public health threat and are implicated in numerous foodborne and waterborne disease outbreaks. Nonetheless, little is known of their fate and stability in the environment. In this study we used carefully validated methods to monitor enteric viruses, namely adenovirus (AdV), JC polyomavirus (JVC), noroviruses (NoVs), Sapovirus (SaV) and hepatitis A and E viruses (HAV and HEV) from wastewater source to veaches and shellfish beds. Wastewater influent and effluent, surface water, sediment and shellfish samples were collected in the conwy catchment (North Wales, UK) once a month for one year. High concentrations of AdV and JCV were found in the majority of samples, and no seasonal patterns were observed. No HAV and HEV were detected and no related illnesses were reported in the area during the period of sampling. Noroviruses and SaV were also detected at high concentrations in wastewater and surface water, and their presence correlated with local gastroenteritis outbreaks during teh spring and autumn seasons. Noroviruses were also found in estuarine sediment and in shellfish harvested for human consumption. As PCR-based methods were used for quantification, viral infectivity and degradation was estimated using a NoV capsid integrity assay. The assay revealed low-levels of viral decay in wastewater effluent compared to influent, and more significant decay in environmental waters and sediment. Results suggest that AdV and JCV may be suitable markers for the assessment of the spatial distribution of wastewater contamination in the environment; pathogenic viruses can be directly monitored during the after reported outbreaks to prevent further environment-derived illnesses
U2 - 10.1016/j.scitotenv.2018.04.038
DO - 10.1016/j.scitotenv.2018.04.038
M3 - Article
SN - 0048-9697
VL - 634
JO - Science of the Total Environment
JF - Science of the Total Environment
ER -