Standardization and validation of a panel of cross-species microsatellites to individually identify the Asiatic wild dog (Cuon alpinus): implications in population estimation and dynamics
Abstract
Background
The Asiatic wild dog or dhole (Cuon alpinus) is a highly elusive, monophyletic, forest dwelling, social canid distributed across south and Southeast Asia. Severe pressures from habitat loss, prey depletion, disease, human persecution and interspecific competition resulted in global population decline in dholes. Despite a declining population trend, detailed information on population size, ecology, demography and genetics is lacking. Generating reliable information and landscape level for dholes is challenging due to their secretive behaviour and monomorphic physical features. Recent advances in non-invasive DNA-based tools can be used to monitor populations and individuals across large landscapes. In this paper, we describe standardization and validation of faecal DNA-based methods for individual identification of dholes. We tested this method on field-collected dhole faeces in four tiger reserves of the central Indian landscape in the state of Maharashtra, India. Further, we conducted preliminary analyses of dhole population structure and demography in the study area.
Results
We tested a total of 18 cross-species markers and developed a panel of 12 markers for unambiguous individual identification of dholes. This marker panel identified 101 unique individuals from faecal samples collected across our pilot field study area. These loci showed varied level of amplification success (57-88%), polymorphism (3-9 alleles), heterozygosity (0.23-0.63) and produced a cumulative probability of identity(unbiased)and probability of identity(sibs)value of 4.7×10−10and 1.5×10−4, respectively. Our preliminary analyses of population structure indicated four genetic subpopulations in dholes. Qualitative analyses of population demography show signal of population decline.
Conclusion
Our results demonstrated that the selected panel of 12 microsatellite loci can conclusively identify dholes from poor quality, non-invasive biological samples and help in exploring various population parameters. Our methods can be used to estimate dhole populations and assess population trends for this elusive, social carnivore.
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