Abstract
The effective number of breedable individuals is a crucial determinant for maintaining genetic variability within a population. The population of Bargur, the hill cattle of South India, has gone down drastically by more than 93 % in the past three decades, and only a few thousand animals are available at present. The present study was undertaken to evaluate Bargur cattle for mutation drift equilibrium and to detect the occurrence of recent genetic bottleneck event, if any, in this population. About 50 unrelated animals, true to the type, were sampled and genotyped at 25 microsatellite loci. The mean observed heterozygosity (0.808 ± 0.023) was higher than the mean expected heterozygosity (0.762 ± 0.008) with 15 out of 25 microsatellite loci exhibiting heterozygosity excess when assumed under Hardy–Weinberg equilibrium. To evaluate Bargur cattle for mutation drift equilibrium, three tests were performed under three different mutation models, viz., infinite allele model (IAM), stepwise mutation model (SMM) and two-phase model (TPM). The observed gene diversity (H e) and expected equilibrium gene diversity (H eq) were estimated under different models of microsatellite evolution. All the 25 loci were found to exhibit gene diversity excess under IAM and TPM, while 22 loci were having gene diversity excess under SMM. All the three statistical tests, viz., sign test, standardized differences test, and Wilcoxon sign rank test, revealed significant (P < 0.01) deviation of Bargur cattle population from mutation-drift equilibrium under all the three models of mutation. Furthermore, the qualitative test of allele frequency distribution in Bargur cattle population revealed a strong mode shift from the normal L-shaped form suggesting that the population had experienced genetic bottleneck in the recent past. The occurrence of genetic bottleneck might have led to the loss of several rare alleles in the population, which point towards the need for efforts to conserve this important cattle germplasm. The present study is the first report in demonstrating the genetic basis of demographic bottleneck in an Indian cattle population.
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References
Al-Atiyat, R.M., 2008. Extinction probabilities of Jordan indigenous cattle using population viability analysis. Livestock Science, 123, 121–128.
Amirinia, C., Seyedabadi, H., Banabazi, M.H. and Kamali, M.A., 2007. Bottleneck study and genetic structure of Iranian Caspian horse population using microsatellites. Pakistan Journal of Biological Sciences, 10, 1540–1543
Arora, R. and Bhatia, S., 2009. Evaluation of genetic effects of demographic bottleneck in Muzzafarnagri sheep from India using microsatellite markers. Asian Australasian Journal of Animal Sciences, 22, 1–6.
Botstein, D., White, R.L., Skolnick, M. and Davis, R.W., 1980. Construction of a genetic linkage map in man using restriction fragment length polymorphisms. American Journal of Human Genetics, 32, 314–331.
Bradshaw, C.J.A., Isagi, Y., Kaneko, S., Brook, B.W., Bowman, D.M.J.S. and Frankham, R., 2007. Low genetic diversity in the bottlenecked population of endangered non-native banteng in northern Australia. Molecular Ecology, 16, 2998–3008.
Bray, T.C., Chikhi, L., Sheppy, A.J. and Bruford, M.Q., 2009. The population genetic effects of ancestry and admixture in a sub-divided cattle breed. Animal Genetics, 40, 393–400.
Côté, S.D., Dallas, J.F., Marshall, F., Irvine, R.J., Langvatn, R. and Albon, S.D., 2002. Microsatellite DNA evidence for genetic drift and philopatry in Svalbard reindeer. Molecular Ecology, 11, 1923–1930.
Di Rienzo, A., Peterson, A.C., Garca, J.C., Valdes, A.M. and Slatkin, M., 1994. Mutational processes of simple sequence repeats in human populations. Proceedings of National Academy of Sciences, USA, 91, 3168–3170.
Dieringer, D., and Schlötterer, C., 2003. Microsatellite Analyzer (MSA): a platform independent analysis tool for large microsatellite data sets. Molecular. Ecology Notes, 3, 167–169.
Excoffier, L., Laval, G. and Schneider, S., 2005. Arlequin ver. 3.0: An integrated software package for population genetics data analysis. Evolutionary Bioinformatics Online, 1, 47–50.
FAO, 2011. Draft Guidelines on molecular genetic characterization of animal genetic resources, Item 5.2 of the provisional agenda. Commission on Genetic Resources for Food And Agriculture, FAO, Rome.
Ganapathi, P., Rajendran, R. and Subramanian, A., 2009. Distribution and Population Status of Bargur Cattle. The Indian Veterinary Journal, 86, 971–972
Glowatzki-Mullis, M-L., Muntwyler, J., Baumle, E. and Gaillard, C., 2008. Genetic diversity measures of Swiss goat breeds as decision making support for conservation policy. Small Ruminant Research, 74, 202–211.
Karthickeyan, S.M.K., Saravanan, R. and Thangaraju, P., 2006. Characterization of Krishna Valley breed of cattle (Bos indicus) in South India using microsatellite markers. Livestock Research for Rural Development, 18 (http://www.lrrd.org/lrrd18/12/kart 18168.htm)
Kataria, R.S., Kathiravan, P., Bulandi, S.S., Pandey, D. and Mishra, B.P., 2010. Microsatellite based genetic monitoring to detect cryptic demographic bottleneck in Indian riverine buffaloes (Bubalus bubalis). Tropical Animal Health and Production, 42, 849–855.
Kathiravan, P., Mishra, B.P., Kataria, R.S. and Sadana, D.K., 2009. Evaluation of genetic architecture and mutation drift equilibrium of Marathwada buffalo population in Central India. Livestock Science, 121, 288–293.
Mburu, D.N., and Hanotte, O., 2005. Comparative genetic analysis of molecular diversity of African cattle. In the Proceedings of International Workshop on the Role of Biotechnology for the characterization and conservation of crop, forestry, animal and fishery genetic resources, 5–7 March, 2005, Villa Gualino, Turin, Italy.
Nivsarkar, A.E., Vij, P.K. and Tantia, M.S., 2000. Animal Genetic Resources of India : Cattle and Buffalo. Directorate of Information and Publications of Agriculture, ICAR, New Delhi.
Pandey, A.K., Sharma, R., Singh, Y., Prakash, B. and Ahlawat, S.P.S., 2006. Genetic diversity studies of Kherigarh cattle based on microsatellite markers. Journal of Genetics, 85, 117–122.
Peakall, R. and Smouse, P.E., 2006. GENALEX 6: genetic analysis in Excel. Population genetic software for teaching and research. Molecular Ecology Notes, 6, 288–295.
Piry, S., Luikart, G. and Cornuet, J.M., 1999. Bottleneck: a computer program for detecting recent reductions in the effective population size using allele frequency data. Journal of Heredity, 90, 502–503.
Pundir, R.K., Kathiravan, P., Singh, P.K. and Manikhandan, V.A., 2009. Bargur cattle: Status, characteristics and performance. Indian Journal of Animal Sciences, 79, 681–685.
Shama, L.N.S., Kubow, K.B., Jokela, J. and Robinson, C.T., 2011. Bottlenecks drive temporal and spatial genetic changes in alpine caddisfly metapopulations. BMC Evolutionary Biology, 11, 278–288.
Sharma, R., Pandey, A.K., Singh, Y., Mishra, B.P., Singh, P.K. and Singh, G., 2008. Estimation of genetic diversity in Siri cattle from India. Russian Journal of Genetics, 44, 1331–1337.
Sharma, R., Pandey, A.K., Singh, Y., Prakash, B., Mishra, B.P., Kathiravan, P., Singh, P.K. and Singh, G., 2009. Evaluation of genetic variation and phylogenetic relationship among North Indian cattle breeds. Asian Australasian Journal of Animal Sciences, 22, 13–19.
Sodhi, M., Mukesh, M., Prakash, B., Ahlawat, S.P.S. and Sobti, R.C., 2006 Microsatellite DNA typing for assessment of genetic variability in Tharparkar breed of Indian zebu (Bos indicus) cattle, a major breed of Rajasthan. Journal of Genetics, 85, 165–170.
Spencer, C.C., Niegel, J.E. and Leberg, P.L., 2000. Experimental evaluation of the usefulness of microsatellite DNA for detecting demographic bottlenecks. Molecular Ecology, 9, 1517–1528.
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The authors are thankful to the Dean, Madras Veterinary College and Professor and Head, Department of Animal Genetics and Breeding, Madras Veterinary College, Chennai, India for providing necessary facilities for conducting the study.
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P. Ganapathi and R. Rajendran contributed equally to this work.
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Ganapathi, P., Rajendran, R. & Kathiravan, P. Detection of occurrence of a recent genetic bottleneck event in Indian hill cattle breed Bargur using microsatellite markers. Trop Anim Health Prod 44, 2007–2013 (2012). https://doi.org/10.1007/s11250-012-0171-8
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DOI: https://doi.org/10.1007/s11250-012-0171-8