Issue 1, 2024

Temperature and particles interact to affect human norovirus and MS2 persistence in surface water

Abstract

Modeling the fate and transport of viruses and their genetic material in surface water is necessary to assess risks associated with contaminated surface waters and to inform environmental surveillance efforts. Temperature has been identified as a key variable affecting virus persistence in surface waters, but the effects of the presence of biological and inert particles and of their interaction with temperature have not been well characterized. We assessed these effects on the persistence of human norovirus (HuNoV) genotype II.4 purified from stool and MS2 in surface water. Raw or filter-sterilized creek water microcosms were inoculated and incubated in the dark at 10 °C, 15 °C, and 20 °C. HuNoV (i.e., genome segments and intact capsids) and MS2 (i.e., infectious MS2, genome segments, and intact capsids) concentrations were followed over 36 days. The range in positive, significant first-order decay rate constants for HuNoV in this study was 0.14 to 0.69 day−1 compared with 0.026 to 0.71 day−1 for that of MS2. Decay rate constants for HuNoV genome segments and infectious MS2 were largest in creek water that included biological and inert particles and incubated at higher temperatures. In addition, for HuNoV and MS2 incubated in raw or filter-sterilized creek water at 15 °C, capsid damage was not identified as a dominant inactivation mechanism. Environmental processes and events that affect surface water biological and inert particles, temperature, or both could lead to variable virus decay rate constants. Incorporating the effects of particles, temperature, and their interaction could enhance models of virus fate and transport in surface water.

Graphical abstract: Temperature and particles interact to affect human norovirus and MS2 persistence in surface water

Supplementary files

Article information

Article type
Paper
Submitted
19 8月 2023
Accepted
28 11月 2023
First published
28 11月 2023

Environ. Sci.: Processes Impacts, 2024,26, 71-81

Temperature and particles interact to affect human norovirus and MS2 persistence in surface water

L. C. Kennedy, S. A. Lowry and A. B. Boehm, Environ. Sci.: Processes Impacts, 2024, 26, 71 DOI: 10.1039/D3EM00357D

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