Grantee Research Project Results

Novel Quantitative Methods for Indigenous Viruses in Wastewater, Improving the Assessment of Water Reuse Treatment Performance

EPA Grant Number: R840258
Title: Novel Quantitative Methods for Indigenous Viruses in Wastewater, Improving the Assessment of Water Reuse Treatment Performance
Investigators: Gim Aw, Tiong , Rose, Joan B. , Shen, Yun
Institution: Tulane University , Michigan State University , University of California Riverside
Current Institution: Tulane University , University of California Riverside , Michigan State University
EPA Project Officer: Ludwig-Monty, Sarah
Project Period: August 1, 2021 through July 31, 2024 (Extended to July 31, 2026)
Project Amount: $1,239,241
RFA: Viral Pathogen and Surrogate Approaches for Assessing Treatment Performance in Water Reuse (2021) RFA Text |  Recipients Lists
Research Category: Water Treatment

Description:

The project goal is to develop a better understanding of indigenous viruses in different wastewater systems to design improved viral surrogate approaches that address challenges and shortcomings of current methodologies, including low concentrations of viruses in wastewater, quantitative detection and a lack of specificity for addressing human health risk. Our hypotheses focus on (i) indigenous viruses are present in wastewater in high concentrations which provide a major advantage compared to the currently used viral indicators for wastewater treatment such as coliphages; (ii) viruses in wastewater vary geographically, and (iii) viruses in various forms (free, particle-associated and vesicle-cloaked) are one of the reasons for apparent more recalcitrant populations during disinfection.

Objective:

Project objectives are to: (1) characterize the composition of indigenous viruses in wastewater (including viruses with three different forms: free, particle-associated, and vesicle-cloaked viruses) using a metagenomic approach, with the purpose of identification of viral surrogates for assessing treatment performance; (2) design and develop individual based quantitative assays for new viral surrogates using new instrumentation and molecular viability methods; and (3) validate new surrogates and new quantitative detection assays (from Objective 1 & 2) for estimating reduction of viruses through full-scale advanced water treatment processes (with some bench-scale work).

Approach:

With strategic partnership with water reclamation facilities in California, Florida and Ohio, a comprehensive characterization of indigenous viruses (including free, particle-associated, and vesicle-cloaked viruses) in wastewater will be conducted using metagenomics to identify improved surrogates for assessing treatment performance. This will then lead to the design and development of new analytical methods to provide not only rapid and precise quantification of viruses in wastewater but also able to assess viability. Finally, new quantitative detection assays for estimating reduction of viruses will be validated using both full-scale advanced water reclamation treatment facilities and bench-scale disinfection experiments.

Expected Results:

The project will develop new knowledge that provides a better understanding of virus attenuation in wastewater and water treatment systems. The development of new quantitative detection tools with novel surrogates will improve sensitivity, reduce analysis turnaround time and reduce cost of measuring viruses in wastewater for validating treatment performance. Knowledge on abundance, diversity, persistence, and fate of viruses and viral vesicles in wastewater will be advanced and thus strategies for risk assessment and control will be improved.

Publications and Presentations:

Publications have been submitted on this project: View all 8 publications for this project

Supplemental Keywords:

Pathogens, effluent, discharge, innovative technology, analytical, measurement methods, monitoring, genetics

Progress and Final Reports:

2022 Progress Report

2023 Progress Report

2024 Progress Report

2025