One-Year Surveillance of SARS-CoV-2 and Rotavirus in Water Matrices from a Hot Spring Area

Rotavirus in Water Environments: A Systematic Review and Meta-Analysis

Background

Despite the adoption of rotavirus vaccines, sporadic outbreaks of the virus have been reported in many parts of the world. These outbreaks are facilitated by several factors including the ease of transmission of rotavirus through water environments. This systematic review aimed to determine the global prevalence of rotavirus in water environments.

Methodology

Comprehensive Boolean searches were conducted in PubMed, SCOPUS, and Web of Science. A total of 75 eligible studies were included in the study, from which data was extracted for both systematic review and meta-analysis. Extracted prevalence data was grouped according to six water categories: drinking water, untreated sewage, treated sewage, surface water, groundwater, and others. A single-group prevalence meta-analysis was conducted in RStudio version 4.3.3 subjecting the data to the random-effects model.

Results

The included studies were conducted in 32 countries that span 5 continents: Africa, Asia, Europe, North America, and South America. The pooled prevalence of rotavirus in water environments was 40.86%. Among the individual water environments, untreated sewage had the highest prevalence (68.27%), followed by treated sewage (53.07%), surface water (33.40%), groundwater (25.64%) and drinking water (9.46%). Continental stratification of the prevalence data was as follows: Africa (51.75%), Asia (32.48%), Europe (55.90%), North America (41.80%), and South America (28.51%).

Conclusion

There is a high prevalence of rotavirus in water environments, especially in untreated sewage, and in Europe. Further research is needed to find more efficient methods that can effectively eliminate rotavirus to insignificant levels in water environments.

Viruses in Wastewater-A Concern for Public Health and the Environment

Wastewater monitoring provides essential information about water quality and the degree of contamination. Monitoring these waters helps identify and manage risks to public health, prevent the spread of disease, and protect the environment. Standardizing the appropriate and most accurate methods for the isolation and identification of viruses in wastewater is necessary. This review aims to present the major classes of viruses in wastewater, as well as the methods of concentration, isolation, and identification of viruses in wastewater to assess public health risks and implement corrective measures to prevent and control viral infections. Last but not least, we propose to evaluate the current strategies in wastewater treatment as well as new alternative methods of water disinfection.

SARS-CoV-2 infection in animals: Patterns, transmission routes, and drivers

The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is more widespread in animals than previously thought, and it may be able to infect a wider range of domestic and wild species. To effectively control the spread of the virus and protect animal health, it is crucial to understand the cross-species transmission mechanisms and risk factors of SARS-CoV-2. This article collects published literature on SARS-CoV-2 in animals and examines the distribution, transmission routes, biophysical, and anthropogenic drivers of infected animals. The reported cases of infection in animals are mainly concentrated in South America, North America, and Europe, and species affected include lions, white-tailed deer, pangolins, minks, and cats. Biophysical factors influencing infection of animals with SARS-CoV-2 include environmental determinants, high-risk landscapes, air quality, and susceptibility of different animal species, while anthropogenic factors comprise human behavior, intensive livestock farming, animal markets, and land management. Due to current research gaps and surveillance capacity shortcomings, future mitigation strategies need to be designed from a One Health perspective, with research focused on key regions with significant data gaps in Asia and Africa to understand the drivers, pathways, and spatiotemporal dynamics of interspecies transmission.