Molecular survey of Zika virus in the animal-human interface in traditional farming

Laura Ivone Lopez-Apodaca; Heliot Zarza; Emily Zamudio-Moreno; Daniel Nuñez-Avellaneda; Carlos Marcial Baak-Baak; Guadalupe del Carmen Reyes-Solis; Torres-Chablé Oswaldo Margarito; Ingris Peláez-Ballestas; David Roiz; David Roiz; Gerardo Suzán; Gerardo Suzán; Benjamin Roche; Benjamin Roche; Carlos Ignacio Machain-Williams

doi:10.3389/fvets.2022.1057686

Frontiers in Veterinary Science (Nov 2022)

Molecular survey of Zika virus in the animal-human interface in traditional farming

Laura Ivone Lopez-Apodaca,
Heliot Zarza,
Emily Zamudio-Moreno,
Daniel Nuñez-Avellaneda,
Carlos Marcial Baak-Baak,
Guadalupe del Carmen Reyes-Solis,
Torres-Chablé Oswaldo Margarito,
Ingris Peláez-Ballestas,
David Roiz,
David Roiz,
Gerardo Suzán,
Gerardo Suzán,
Benjamin Roche,
Benjamin Roche,
Carlos Ignacio Machain-Williams

Affiliations

Laura Ivone Lopez-Apodaca: Laboratory of Arbovirology, Regional Research Center Dr. Hideyo Noguchi, Autonomous University of Yucatan, Mérida, Mexico
Heliot Zarza: Department of Environmental Sciences, Lerma Unit Metropolitan Autonomous University, Mexico City, Mexico
Emily Zamudio-Moreno: Laboratory of Arbovirology, Regional Research Center Dr. Hideyo Noguchi, Autonomous University of Yucatan, Mérida, Mexico
Daniel Nuñez-Avellaneda: Direction Adjunt of Technological Development, Liaison and Innovation-National Science and Technology Council, Mexico City, Mexico
Carlos Marcial Baak-Baak: Laboratory of Arbovirology, Regional Research Center Dr. Hideyo Noguchi, Autonomous University of Yucatan, Mérida, Mexico
Guadalupe del Carmen Reyes-Solis: Laboratory of Arbovirology, Regional Research Center Dr. Hideyo Noguchi, Autonomous University of Yucatan, Mérida, Mexico
Torres-Chablé Oswaldo Margarito: Laboratory of Tropical and Vector-Borne Diseases DACA-UJAT, Academic Division of Agricultural Sciences, Juarez Autonomous University of Tabasco, Villahermosa, Mexico
Ingris Peláez-Ballestas: Rheumatology Unit, Hospital General de México Dr. Eduardo Liceaga, Mexico City, Mexico
David Roiz: Infectious Diseases: Vector, Control, Genetic, Ecology and Evolution (MIVEGEC), Univ. Montpellier, IRD, CNRS, Montpellier, France
David Roiz: International Laboratory Ecosystem, Biological Diversity, Habitat Modifications, and Risk of Emerging Pathogens and Diseases in Mexico (ELDORADO), Mérida, Mexico
Gerardo Suzán: International Laboratory Ecosystem, Biological Diversity, Habitat Modifications, and Risk of Emerging Pathogens and Diseases in Mexico (ELDORADO), Mérida, Mexico
Gerardo Suzán: Laboratory of Disease Ecology and One Health, Department of Ethology and Wildlife, Faculty of Veterinary Medicine and Zootechnics, National Autonomous University of Mexico, Mexico City, Mexico
Benjamin Roche: Infectious Diseases: Vector, Control, Genetic, Ecology and Evolution (MIVEGEC), Univ. Montpellier, IRD, CNRS, Montpellier, France
Benjamin Roche: International Laboratory Ecosystem, Biological Diversity, Habitat Modifications, and Risk of Emerging Pathogens and Diseases in Mexico (ELDORADO), Mérida, Mexico
Carlos Ignacio Machain-Williams: Laboratory of Arbovirology, Regional Research Center Dr. Hideyo Noguchi, Autonomous University of Yucatan, Mérida, Mexico

DOI: https://doi.org/10.3389/fvets.2022.1057686
Journal volume & issue: Vol. 9

Abstract

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Backyard animal husbandry is common in rural communities in developing countries and, given the conditions in which it occurs, it can increase the risk of disease transmission, such as arboviruses. To determine the presence of the Zika virus (ZIKV) and abundance of its arthropod vectors we evaluated the socioeconomic implications involved in its transmission in two highly vulnerable Mayan communities in the state of Yucatan that practice backyard farming. An analytical cross-sectional study was carried out throughout 2016 to understand socioeconomic variables and seasonal patterns in mosquito populations. We selected 20 households from each community. Social exclusion indicators were analyzed, human and domestic animals were sampled, and mosquitoes were collected and identified. Four out of eight indicators of social exclusion were higher than the reported national averages. We captured 5,825 mosquitoes from 16 species being Culex quinquefasciatus and Aedes aegypti the most abundant. The presence of chickens and human overcrowding in dwellings were the most significant factors (P = 0.026) associated with the presence of Ae. aegypti. Septic tanks (odds ratio = 6.64) and chickens (odds ratio = 27.41) in backyards were the main risk factors associated with the presence of immature states of Ae. aegypti in both communities. Molecular analysis to detect ZIKV was performed in blood samples from 416 humans, 1,068 backyard animals and 381 mosquito pools. Eighteen humans and 10 pig pools tested positive for ZIKV. Forty-three mosquito pools tested positive for flavivirus. Ten of the 43 pools of positive mosquitoes were sequenced, corresponding 3/10 to ZIKV and 1/10 to Dengue virus type 2. The findings obtained indicate the continuous circulation of Flavivirus (including ZIKV) in backyard environments in vulnerable communities, highlighting the importance of studying their transmission and maintenance in these systems, due that backyard animal husbandry is a common practice in these vulnerable communities with limited access to health services.

Published in Frontiers in Veterinary Science

ISSN: 2297-1769 (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Agriculture: Animal culture: Veterinary medicine
Website: https://www.frontiersin.org/journals/veterinary-science

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