Adsorption of respiratory syncytial virus (RSV), rhinovirus, SARS-CoV-2, and F+ bacteriophage MS2 RNA onto wastewater solids from raw wastewater

Abstract

AbstractDespite the wide adoption of wastewater surveillance, more research is needed to understand the fate and transport of viral genetic markers in wastewater. This information is essential for the interpretation of wastewater surveillance data and the development of mechanistic models that link wastewater measurements to the number of individuals shedding virus. In this study, we examined the solid-liquid partitioning behavior of four viruses in wastewater: SARS-CoV-2, respiratory syncytial virus (RSV), rhinovirus (RV), and F+ coliphage/MS2. We used two approaches to achieve this: we (1) conducted laboratory partitioning experiments using lab-grown viruses and (2) examined the distribution of endogenous viruses in wastewater. Partition experiments were conducted at 4°C and 22°C; wastewater samples were spiked with varying concentrations of each virus and stored for three hours to allow the system to equilibrate. Solids and liquids were separated via centrifugation and viral RNA concentrations were quantified using reverse-transcription-digital droplet PCR (RT-ddPCR). For the distribution experiment, wastewater samples were collected from six wastewater treatment plants and processed without spiking exogenous viruses; viral RNA concentrations were measured in wastewater solids and liquid. Overall, RNA concentrations were higher in solids than the liquid fraction of wastewater by approximately 3–4 orders of magnitude. Partition coefficients (KF) from laboratory experiments were determined using the Freundlich model and ranged from 2,000–270,000 ml·g-1across viruses and temperature conditions. Distribution coefficients (Kd) determined from endogenous wastewater viruses were consistent with results from laboratory experiments.Further research is needed to understand how virus and wastewater characteristics might influence the partition of viral genetic markers in wastewater.SynopsisWe examined the solid-liquid partitioning behavior of SARS-CoV-2, RSV, RV, and F+coliphage/MS2 RNA in wastewater influent. Overall, partition/distribution coefficients were similar across viruses and temperature conditions.