Literature detail

Livestock aggregated samples for monitoring viruses infecting animals and potentially zoonotic viral pathogens.

Marta Rusiñol^1,2 Sandra Martínez-Puchol² Diana Ribeiro¹ Júlia Verdaguer¹ Ona Torrejón-Llorens¹ Marta Itarte¹ Ignasi Estarlich-Landajo^1,2,3 Cristina Mejías-Molina^1,2 Gisela Juliachs-Torroella^1,2,3 Rosina Girones^1,2 Gustavo A Ramírez⁴ Jordi Baliellas⁵ Silvia Bofill-Mas^1,2 Xavier Fernández-Cassi^3,2

Affiliations 5 institutions

Laboratory of Viruses Contaminants of Water and Food, Departament de Genètica. Microbiologia i Estadística, Universitat de Barcelona, Barcelona, Catalonia, Spain.
Institut de Recerca de l'Aigua (IdRA), Universitat de Barcelona, Barcelona, Catalonia, Spain.
Laboratory of Microorganisms of Interest in Food and Animal Safety, Departament de Biologia, Sanitat i Medi Ambient, Facultat de Farmàcia i Ciències de l'Alimentació, Universitat de Barcelona, Barcelona, Catalonia, Spain.
Department of Animal Science (ETSEA), Universitat de Lleida-AGROTECNIO-CERCA Centre, Lleida, Catalonia, Spain.
Grup de Sanejament Porcí (GSP), Lleida, Catalonia, Spain.

PMID 41695450 2026 One Health eng epublish

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Article

Publication summary

Active surveillance of livestock pathogens is essential to prevent animal health losses and zoonotic spillover. This study evaluted aggregated environmental sampling as a non-invasive approach for monitoring swine- and cattle-associated viruses across farms and slaughterhouses, bridging the gap between agricultural biosecurity and public health. Over eleven months, 105 samples, including swine slurry, cattle manure, farm air, and slaughterhouse wastewater, were collected and analyzed using pathogen-specific (RT) qPCR and targeted viral metagenomics. Seasonal and sample patterns were evident, with higher detection of rotavirus A (RoV-A) and bovine coronavirus (BCoV) in slurry and wastewater during winter, and porcine reproductive and respiratory syndrome virus (PRRSV), porcine epidemic diarrhea virus (PEDV) and transmissible gastroenteritis virus (TGEV) sporadicly in slaughterhouse wastewater. Farm slurry or manure were optimal for enteric viruses such as RoV-A or hepatitis E virus (HEV), and farm air proved valuable for respiratory viruses like BCoV. Targeted sequencing identified a broader viral community, revealing up to 80% of total detected viral species in slaughterhouse wastewater alone. Frequent detection of porcine bocavirus, circoviruses and astrovirus, alongside zoonotic viruses such as HEV and porcine bufavirus (PBuV), underscored the environmental transmission risk at the human-animal interface. Sequencing also uncovered viruses of unclear pathogenicity, including kobuvirus and copiparvovirus, underscoring the complexity of the livestock virome and the potential for emerging viral threats. Slaughterhouse wastewater consistently captured the highest viral richness, integrating inputs from multiple farms and regions, while farm air samples yielded lower diversity but detected respiratory (astrovirus, caliciviruses) and persistent viruses (papillomaviruses, polyomaviruses). Aggregated sampling proved particularly efficient in swine systems, while cattle surveillance may require adapted strategies due to lower stocking densities and greater ventilation. This work demonstrates the novelty and value of aggregated environmental samples, collected at different points in the production chain, as strategic One Health sentinels. This scalable, practical approach supports early warning and control of animal and zoonotic diseases, directly contributing to One Health surveillance.

Livestock viral pathogens One Health Viral fecal indicators Wastewater surveillance Zoonotic spillover

Structured evidence records

Evidence records

4 total

Zoonotic Surveillance 2 records

Zoonotic Surveillance Extraction confidence 0.98

Key finding

Aggregated samples from swine and cattle environments revealed diverse animal and zoonotic viruses, demonstrating the effectiveness of livestock-based environmental sampling for zoonotic surveillance.

Virus

Host

Location

Supporting text

Aggregated environmental sampling was used for monitoring swine- and cattle-associated viruses across farms and slaughterhouses. Over eleven months, 105 samples including swine slurry, cattle manure, farm air, and slaughterhouse wastewater were collected and analyzed using (RT) qPCR and targeted viral metagenomics. Frequent detection of porcine bocavirus, circoviruses and astrovirus, alongside zoonotic viruses such as HEV and porcine bufavirus (PBuV), underscored the environmental transmission risk at the human-animal interface.

Method: RT-qPCR; targeted viral metagenomics
Sample type: swine slurry; farm air; slaughterhouse wastewater

Zoonotic Surveillance Extraction confidence 0.96

Key finding

Environmental surveillance of cattle systems detected bovine coronavirus and other viral species, supporting the utility of aggregated manure and air samples for One Health monitoring of zoonotic risk.

Virus

Host

Location

Supporting text

The study evaluated aggregated sampling for monitoring cattle-associated viruses across farms and slaughterhouses. Cattle manure and farm air were analyzed using pathogen-specific (RT) qPCR and targeted viral metagenomics, with detection of bovine coronavirus (BCoV) in winter and identification of diverse viral species in wastewater.

Method: RT-qPCR; targeted viral metagenomics
Sample type: cattle manure; farm air; slaughterhouse wastewater

Genomic Evolution 1 records

Genomic Evolution Extraction confidence 0.65

Key finding

Targeted viral metagenomic sequencing of aggregated livestock environmental samples revealed extensive viral diversity, including kobuvirus and copiparvovirus.

Virus

Host

Location

Supporting text

Targeted sequencing identified a broader viral community, revealing up to 80% of total detected viral species in slaughterhouse wastewater alone. Sequencing also uncovered viruses of unclear pathogenicity, including kobuvirus and copiparvovirus.

Analysis methods: targeted sequencing; viral metagenomics

Reservoir Ecology 1 records

Reservoir Ecology Extraction confidence 0.72

Key finding

Livestock environmental samples showed ecological patterns of viral detection, with seasonality and sample-type differences indicating reservoirs and interfaces for enteric and respiratory viruses across swine and cattle systems.

Virus

Host

Location

Supporting text

Seasonal and sample patterns were evident, with higher detection of rotavirus A (RoV-A) and bovine coronavirus (BCoV) in slurry and wastewater during winter, and porcine reproductive and respiratory syndrome virus (PRRSV), porcine epidemic diarrhea virus (PEDV) and transmissible gastroenteritis virus (TGEV) sporadically in slaughterhouse wastewater. Farm slurry or manure were optimal for enteric viruses such as RoV-A or hepatitis E virus (HEV), and farm air proved valuable for respiratory viruses like BCoV.

Method: environmental sampling; RT-qPCR; targeted viral metagenomics
Sample type: slurry; manure; farm air; wastewater

Citation context

References

53 references

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Evidence overview

Evidence 4

Types 3

Virus 4

Host 2

Evidence types

Zoonotic Surveillance 2 Genomic Evolution 1 Reservoir Ecology 1

Linked entities

Viruses

Hosts

Locations

Publication metadata

Journal: One health (Amsterdam, Netherlands)
Volume / Issue / Pages: 22 / - / 101340
ISSN: 2352-7714
Journal country: Netherlands
DOI: 10.1016/j.onehlt.2026.101340