Abstract
Livestock diseases such as bovine tuberculosis can
have considerable negative effects on human health and economic
activity. Wildlife reservoirs often hinder disease eradication
in sympatric livestock populations. Therefore, quantifying
interactions between wildlife and livestock is an important
aspect of understanding disease persistence. This study
was conducted on an extensive cattle farm in southwest Spain,
where cattle, domestic pigs, wild boar and red deer are considered
to be part of a tuberculosis host community.We tested
the hypothesis that the frequency of both types of interactions
would be greater at food and water sites, due to the aggregation
of individuals from multiple species at these locations.
We measured direct and indirect interactions between individuals
using GPS and proximity loggers. Over 57,000 direct
interactions were recorded over a 2-year period, of which
875 (1.5 %) occurred between different species and 216
(0.38 %) occurred between wildlife and livestock. Most direct
and indirect interactions occurred at water sites. Over 90 % of
indirect interactions between wildlife and livestock took place
within the estimated 3-day environmental survival time of
Mycobacterium bovis in this habitat. Red deer home ranges
and daily activity patterns revealed significant spatial and temporal
overlaps with cattle, particularly in autumn. Suids and
red deer also cross the farm boundary regularly, introducing a
between-farm interaction risk. The infrequent occurrence of
direct interactions between individuals from different species
suggests that they are unlikely to be the sole mode of disease
transmission and that indirect interactions may play an important
role.
Original language | English |
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Pages (from-to) | 51 - 64 |
Number of pages | 14 |
Journal | European Journal of Wildlife Research |
Volume | 62 |
Issue number | 1 |
DOIs | |
Publication status | First published - 10 Nov 2015 |
Keywords
- Bovine tuberculosis
- Contact rates
- Multi-host pathogens
- Proximity logging
- Species interactions
- Wildlife:livestock interface