1. Successive use of shared space by badgers and cattle: implications for Mycobacterium bovis transmission
- Author
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Rosie Woodroffe, Kelly Moyes, Christl A. Donnelly, C. Ham, Naomi G. Stratton, Kayna Chapman, Samantha J. Cartwright, and Medical Research Council (MRC)
- Subjects
Badger ,animal diseases ,05 Environmental Sciences ,wildlife health ,law.invention ,law ,biology.animal ,disease ecology ,Bovine tuberculosis ,bovine tuberculosis ,Ecology, Evolution, Behavior and Systematics ,badger ,Mycobacterium bovis ,Science & Technology ,biology ,Disease ecology ,06 Biological Sciences ,biology.organism_classification ,Virology ,Transmission (mechanics) ,cattle ,Animal Science and Zoology ,Life Sciences & Biomedicine ,Zoology ,Meles meles - Abstract
Managing infectious disease demands understanding pathogen transmission. In Britain, transmission of Mycobacterium bovis from badgers (Meles meles) to cattle hinders the control of bovine tuberculosis (TB), but the mechanism of such transmission is uncertain. As badgers and cattle seldom interact directly, transmission might occur in their shared environment through contact with contamination such as faeces, urine and saliva. We used concurrent GPS collar tracking of badgers and cattle at four sites in Cornwall, southwest Britain, to test whether each species used locations previously occupied by the other species, within the survival time of M. bovis bacteria. Although analyses of the same data set showed that badgers avoided cattle, we found no evidence that this avoidance persisted over time: neither GPS‐collared badgers nor cattle avoided space which had been occupied by the other species in the preceding 36 h. Defining a contact event as an animal being located
- Published
- 2021