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| Main Authors: | , , , , , , , , , , , |
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| Format: | Artículo científico |
| Language: | en |
| Published: |
Applied and environmental microbiology
2026
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| Subjects: | |
| Online Access: | https://pubmed.ncbi.nlm.nih.gov/41615177/ |
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Table of Contents:
- prevalence and lineages vary across land-use types due to shifts in small mammal communities. Rajaonarivelo, Jeanne A Kauffman, Kayla M Randriamoria, Toky M Herrera, James P Wickenkamp, Natalie Turpin, Magali Baudino, Fiona Young, Hillary S Soarimalala, Voahangy Goodman, Steven M Nunn, Charles L Tortosa, Pablo Animals Leptospira Leptospirosis Prevalence Madagascar Chiroptera Zoonoses Mice Rats Mammals Forests Humans Human-induced land-use change can affect the composition of small mammal communities and the ecology of their zoonotic pathogens - yet questions remain on the direction and generality of these changes, which can have opposite effects on disease prevalence depending on the ecological context and pathogen involved. These contrasting patterns highlight the need to investigate how specific host-pathogen assemblages respond to local anthropogenic land-use mosaics. To address this need, we studied terrestrial and bat species composition, infection prevalence, and species composition across a mosaic of land-use types in northeastern Madagascar. We found differences in host communities between forested, agricultural, and village land-use types for both bat ( = 400) and terrestrial ( = 2,053) small mammal communities. infection prevalence was higher in bats (37.7%) than in terrestrial small mammals (13.8%), and bats were infected with strains that were molecularly distinct from those shed by terrestrial small mammals. Non-native mice and rats were almost exclusively infected with cosmopolitan and respectively, while some native terrestrial small mammals sheltered and bats hosted a more diverse set of species. prevalence across land-use types varied in terrestrial small mammals, but not in bats. Altogether, the highest prevalence occurred in mice in flooded rice fields. Our data show that land use predominantly impacts infecting terrestrial mammals, likely due to habitat disturbance favoring replacement of endemic hosts and pathogens with Muridae rodents and their associated pathogens, many of which are zoonotic. Leptospirosis, a globally distributed, environmentally transmitted zoonosis, causes 2.9 million disability-adjusted life years annually, primarily among rural farmers in tropical regions. Infected animals' urine contaminates soils and water with bacteria, where other individuals are then exposed. Understanding the impact of land use on the transmission of this disease is of considerable importance. In Madagascar, infection dynamics are impacted by the combined effects of converting forests to agricultural fields and colonization of these areas by non-native mammal species, which carry molecularly distinct lineages of . We show that land use corresponds to the replacement of native species and endemic lineages with non-native species and their cosmopolitan and . Together, this contributes to higher infection prevalence in more disturbed habitats like flooded rice fields, where >50% of mice captured were infected, highlighting the important effects of land use on prevalence and presence, which together impact zoonotic risk.