Title
Evaluation of non-invasive genetic sampling methods for estimating tiger population size
Author(s)
Mondol, S.; Karanth, K. U.; Kumar, N. S.; Gopalaswamy, A. M.; Andheria, A.; Ramakrishnan, U.
Published
2009
Publisher
Biological Conservation
Abstract
There is often a conservation need to estimate population abundances of elusive, low-density, wide-ranging carnivore species. Because of logistical constraints, investigators often employ non-invasive 'captures' that may involve 'genetic' or 'photographic' sampling in such cases. Established capture-recapture (CR) methods offer a powerful analytical tool for such data. In this paper, we developed a rigorous combination of captive, laboratory and field-based protocols for identifying individual tigers (Panthera tigris) from fecal DNA. We explored trade-offs between numbers of microsatellite loci used for reliable individual identifications and the need for higher capture rates for robust analyses. Our field surveys of scats were also specifically designed for CR analyses, enabling us to test for population closure, estimate capture probabilities and tiger abundance. Consequently, we could compare genetic capture estimates to results of a 'photographic capture' study of tigers at the same site. The estimates using the heterogeneity model (M h-Jackknife) for fecal DNA survey were [M t+1 = 26; over(over(p, -), ^) = 0.09 and over(N, ^) (S over(E, ^) [over(N, ^)])=66 (12.98)] in close agreement with those from the photographic survey [(M t+1 = 29; over(over(p, -), ^) = 0.04 and over(N, ^) (S over(E, ^) [over(N, ^)]) = 66 (13.8)]. Our results revealed that designing field surveys of scats explicitly for CR data analyses generate reliable estimates of capture probability and abundance for elusive, low density species such as tigers. The study also highlights the importance of rigorous field survey and laboratory protocols for reliable abundance estimation in contexts where other approaches such as camera-trapping or physical tagging of animals may not be practical options.
Access Full Text
A full-text copy of this article may be available. Please email the WCS Library to request.
![]()
Back
PUB11892