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Zoonotic potential of urban wildlife faeces, assessed through metabarcoding

Xabier Cabodevilla, Juan E. Malo, Daniel Aguirre de Cárcer, Julia Zurdo, Rubén Chaboy‐Cansado, Alberto Rastrojo, F. Javier García, Juán Traba

2024The Science of The Total Environment10 citationsDOIOpen Access PDF

Abstract

Monitoring zoonoses in urban environments is of great relevance, where the incidence of certain pathogens may be higher and where population density makes the spread of any contagious disease more likely. In this study we applied a metabarcoding approach to study potentially zoonotic pathogens in faecal samples of 9 urban vertebrate species. We applied this methodology with two objectives. Firstly, to obtain information on potential pathogens present in the urban fauna of a large European city (Madrid, Spain) and to determine which are their main reservoirs. In addition, we tested for differences in the prevalence of these potential pathogens between urban and rural European rabbits, used as ubiquitous species. Additionally, based on the results obtained, we evaluated the effectiveness of metabarcoding as a tool for monitoring potential pathogen. Our results revealed the presence of potentially zoonotic bacterial genera in all studied host species, 10 of these genera with zoonotic species of mandatory monitoring in the European Union. Based on these results, urban birds (especially house sparrows and pigeons) and bats are the species posing the greatest potential risk, with Campylobacter and Listeria genera in birds and of Chlamydia and Vibrio cholerae in bats as most relevant pathogens. This information highlights the risk associated with fresh faeces from urban wildlife. In addition, we detected Campylobacter in >50 % of the urban rabbit samples, while we only detected it in 11 % of the rural rabbit samples. We found that urban rabbits have a higher prevalence of some pathogens relative to rural rabbits, which could indicate increased risk of pathogen transmission to humans. Finally, our results showed that metabarcoding can be an useful tool to quickly obtain a first screening of potentially zoonotic organisms, necessary information to target the monitoring efforts on the most relevant pathogens and host species. • Among urban species, studied birds' and bats' faeces pose a higher potential zoonotic risk. • Campylobacter spp. and Listeria spp. in faeces of nearly all urban bird species • Chlamydia spp., Listeria spp. and Vibrio cholerae in bats • Higher prevalence of certain potential pathogens in urban rabbits than in rural ones • Metabarcoding can be a valuable tool for screening potentially zoonotic organisms.

Topics & Concepts

WildlifeBiologyCampylobacterEuropean unionPopulationFecesZoonosisVeterinary medicineZoologyGeographyEcologyEnvironmental healthVirologyBacteriaMedicineGeneticsEconomic policyBusinessZoonotic diseases and public healthYersinia bacterium, plague, ectoparasites researchAnimal Disease Management and Epidemiology
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