Benefits and pitfalls of captive conservation genetic management: Evaluating diversity in scimitar-horned oryx to support reintroduction planning
Benefits and pitfalls of captive conservation genetic management: Evaluating diversity in scimitar-horned oryx to support reintroduction planning
The reintroduction of the scimitar-horned oryx to Chad is a multi-disciplinary endeavour, planned and implemented over the past decade, utilizing a wide range of conservation science applications to maximise the chances of long-term population sustainability. The principle of incorporating genetic diversity information into founder selection for species reintroductions is widely recognized; however, in practice, a full assessment of available ex-situ genetic variation is rarely attempted prior to identifying individuals for release.
In this study we present the results of over ten years of research analyzing and interpreting the genetic diversity present in the key source populations for the Chad scimitar-horned oryx reintroduction. Three empirical genetic datasets (mitochondrial DNA sequence, nuclear DNA microsatellite and SNP markers) comprising over 500 individuals sampled from public and private institutions were analysed, accompanied by simulation studies to address applied questions relating to management of the reintroduction.
The results strongly demonstrate the importance of conservation genetic analysis in ensuring that founders represent the greatest breadth of evolutionary diversity available. The inclusion of both intensively and lightly managed collections allowed us to bridge the gap between studbook and group managed populations, enabling the inclusion of individuals from populations that lack historic data on their origins, but which may hold unique diversity of significant conservation value. Importantly, however, our study also reveals the potential risks of applying standard population genetic approaches to multiple captive populations, for which small founder sizes are likely to strongly bias results, with potentially serious consequences for the genetic management of conservation breeding programmes.
DNA, Diversity, Ex situ, Founder selection, Population structure, Translocation
Ogden, Rob
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Chuven, Justin
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Gilbert, Tania
ec807003-6c13-4dcb-bb63-0f36e9143409
Hosking, Caroline
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Gharbi, Karim
9715391a-8b72-4075-9ca3-3176f5c66b09
Craig, Mark
3ff21639-ae33-4c41-bbe6-42933338dfac
Al Dhaheri, Shaikha Salem
1980f44c-fbc1-4c34-9118-43829f54f7ff
Senn, Helen
d7adc614-93c6-494a-b4c4-8ef8db3ec0f4
1 January 2020
Ogden, Rob
b063b189-deef-4da5-a81b-cae31aa799c6
Chuven, Justin
c1d941ed-bf2b-4ebd-b8c5-c587a7035da4
Gilbert, Tania
ec807003-6c13-4dcb-bb63-0f36e9143409
Hosking, Caroline
3be5f9f9-9a72-49c0-a5e0-62b26492ea32
Gharbi, Karim
9715391a-8b72-4075-9ca3-3176f5c66b09
Craig, Mark
3ff21639-ae33-4c41-bbe6-42933338dfac
Al Dhaheri, Shaikha Salem
1980f44c-fbc1-4c34-9118-43829f54f7ff
Senn, Helen
d7adc614-93c6-494a-b4c4-8ef8db3ec0f4
Ogden, Rob, Chuven, Justin, Gilbert, Tania, Hosking, Caroline, Gharbi, Karim, Craig, Mark, Al Dhaheri, Shaikha Salem and Senn, Helen
(2020)
Benefits and pitfalls of captive conservation genetic management: Evaluating diversity in scimitar-horned oryx to support reintroduction planning.
Biological Conservation, 241, [108244].
(doi:10.1016/j.biocon.2019.108244).
Abstract
The reintroduction of the scimitar-horned oryx to Chad is a multi-disciplinary endeavour, planned and implemented over the past decade, utilizing a wide range of conservation science applications to maximise the chances of long-term population sustainability. The principle of incorporating genetic diversity information into founder selection for species reintroductions is widely recognized; however, in practice, a full assessment of available ex-situ genetic variation is rarely attempted prior to identifying individuals for release.
In this study we present the results of over ten years of research analyzing and interpreting the genetic diversity present in the key source populations for the Chad scimitar-horned oryx reintroduction. Three empirical genetic datasets (mitochondrial DNA sequence, nuclear DNA microsatellite and SNP markers) comprising over 500 individuals sampled from public and private institutions were analysed, accompanied by simulation studies to address applied questions relating to management of the reintroduction.
The results strongly demonstrate the importance of conservation genetic analysis in ensuring that founders represent the greatest breadth of evolutionary diversity available. The inclusion of both intensively and lightly managed collections allowed us to bridge the gap between studbook and group managed populations, enabling the inclusion of individuals from populations that lack historic data on their origins, but which may hold unique diversity of significant conservation value. Importantly, however, our study also reveals the potential risks of applying standard population genetic approaches to multiple captive populations, for which small founder sizes are likely to strongly bias results, with potentially serious consequences for the genetic management of conservation breeding programmes.
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Accepted/In Press date: 9 September 2019
e-pub ahead of print date: 27 November 2019
Published date: 1 January 2020
Keywords:
DNA, Diversity, Ex situ, Founder selection, Population structure, Translocation
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Local EPrints ID: 436936
URI: http://eprints.soton.ac.uk/id/eprint/436936
ISSN: 0006-3207
PURE UUID: 326ea5c9-293d-406d-9fc2-ce2b40c603d0
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Date deposited: 14 Jan 2020 17:30
Last modified: 17 Mar 2024 05:10
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Contributors
Author:
Rob Ogden
Author:
Justin Chuven
Author:
Tania Gilbert
Author:
Caroline Hosking
Author:
Karim Gharbi
Author:
Mark Craig
Author:
Shaikha Salem Al Dhaheri
Author:
Helen Senn
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