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Low genetic diversity in the bottlenecked population of endangered non-native banteng in northern Australia

Authors

  • COREY J. A. BRADSHAW,

    1. School for Environmental Research, Institute of Advanced Studies, Charles Darwin University, Darwin, NT 0909, Australia,
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  • YUJI ISAGI,

    1. Graduate School of Integrated Arts and Sciences, Hiroshima University, Kagamiyama 1-7-1, Higashi-Hiroshima 739-8521 Japan,
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    • Present address: Laboratory of Forest Biology, Division of Forest and Biomaterials Science, Graduate School of Agriculture, Kyoto University, Kitashirakawa Oiwake-cho, Sakyo-ku, Kyoto 606-8502, Japan

  • SHINGO KANEKO,

    1. Graduate School for International Development and Cooperation, Hiroshima University, Kagamiyama 1-5-1, Higashi-Hiroshima 739-8529, Japan,
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  • BARRY W. BROOK,

    1. School for Environmental Research, Institute of Advanced Studies, Charles Darwin University, Darwin, NT 0909, Australia,
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    • **

      Present address: Research Institute of Climate Change and Sustainability, School of Earth and Environmental Sciences, University of Adelaide, SA 5005, Australia

  • DAVID M. J. S. BOWMAN,

    1. School for Environmental Research, Institute of Advanced Studies, Charles Darwin University, Darwin, NT 0909, Australia,
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    • ††

      Present address: Department of Plant Science, University of Tasmania, Private Bag 05, Hobart, Tas. 7001, Australia

  • RICHARD FRANKHAM

    1. Department of Biological Sciences, Macquarie University, NSW 2109, Australia
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Corey J. A. Bradshaw, Fax: +61 88946 7720; E-mail: corey.bradshaw@cdu.edu.au

Abstract

Undomesticated (wild) banteng are endangered in their native habitats in Southeast Asia. A potential conservation resource for the species is a large, wild population in Garig Gunak Barlu National Park in northern Australia, descended from 20 individuals that were released from a failed British outpost in 1849. Because of the founding bottleneck, we determined the level of genetic diversity in four subpopulations in the national park using 12 microsatellite loci, and compared this to the genetic diversity of domesticated Asian Bali cattle, wild banteng and other cattle species. We also compared the loss of genetic diversity using plausible genetic data coupled to a stochastic Leslie matrix model constructed from existing demographic data. The 53 Australian banteng sampled had average microsatellite heterozygosity (HE) of 28% compared to 67% for outbred Bos taurus and domesticated Bos javanicus populations. The Australian banteng inbreeding coefficient (F) of 0.58 is high compared to other endangered artiodactyl populations. The 95% confidence bounds for measured heterozygosity overlapped with those predicted from our stochastic Leslie matrix population model. Collectively, these results show that Australian banteng have suffered a loss of genetic diversity and are highly inbred because of the initial population bottleneck and subsequent small population sizes. We conclude that the Australian population is an important hedge against the complete loss of wild banteng, and it can augment threatened populations of banteng in their native range. This study indicates the genetic value of small populations of endangered artiodactyls established ex situ.

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