Quantitative genetics in conservation biology

RICHARD FRANKHAM

doi:10.1017/S001667239900405X

Abstract

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Most of the major genetic concerns in conservation biology, including inbreeding depression, loss of evolutionary potential, genetic adaptation to captivity and outbreeding depression, involve quantitative genetics. Small population size leads to inbreeding and loss of genetic diversity and so increases extinction risk. Captive populations of endangered species are managed to maximize the retention of genetic diversity by minimizing kinship, with subsidiary efforts to minimize inbreeding. There is growing evidence that genetic adaptation to captivity is a major issue in the genetic management of captive populations of endangered species as it reduces reproductive fitness when captive populations are reintroduced into the wild. This problem is not currently addressed, but it can be alleviated by deliberately fragmenting captive populations, with occasional exchange of immigrants to avoid excessive inbreeding. The extent and importance of outbreeding depression is a matter of controversy. Currently, an extremely cautious approach is taken to mixing populations. However, this cannot continue if fragmented populations are to be adequately managed to minimize extinctions. Most genetic management recommendations for endangered species arise directly, or indirectly, from quantitative genetic considerations.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Templeton, Alan R. 1998. Human Races: A Genetic and Evolutionary Perspective. American Anthropologist, Vol. 100, Issue. 3, p. 632.

Forbes, Stephen H. and Hogg, John T. 1999. Assessing population structure at high levels of differentiation: microsatellite comparisons of bighorn sheep and large carnivores. Animal Conservation, Vol. 2, Issue. 3, p. 223.

Singer, Francis J. Moses, Michael E. Bellew, Susan and Sloan, William 2000. Correlates to Colonizations of New Patches by Translocated Populations of Bighorn Sheep. Restoration Ecology, Vol. 8, Issue. 4S, p. 66.

Podolsky, Robert H. 2001. Genetic Variation for Morphological and Allozyme Variation in Relation to Population Size in Clarkia dudleyana, an Endemic Annual. Conservation Biology, Vol. 15, Issue. 2, p. 412.

Lavigne, Claire Reboud, Xavier Lefranc, Madeleine Porcher, Emmanuelle Roux, Fabrice Olivieri, Isabelle and Godelle, Bernard 2001. Evolution of genetic diversity in metapopulations: Arabidopsis thaliana as an experimental model. Genetics Selection Evolution, Vol. 33, Issue. S1,

Landry, Christian and Bernatchez, Louis 2001. Comparative analysis of population structure across environments and geographical scales at major histocompatibility complex and microsatellite loci in Atlantic salmon (Salmo salar). Molecular Ecology, Vol. 10, Issue. 10, p. 2525.

Reed, David H. and Bryant, Edwin H. 2001. The relative effects of mutation accumulation versus inbreeding depression on fitness in experimental populations of the housefly. Zoo Biology, Vol. 20, Issue. 3, p. 145.

Petit, Christophe Fréville, Hélène Mignot, Agnès Colas, Bruno Riba, Miquel Imbert, Eric Hurtrez-Boussés, Sylvie Virevaire, Myriam and Olivieri, Isabelle 2001. Gene flow and local adaptation in two endemic plant species. Biological Conservation, Vol. 100, Issue. 1, p. 21.

McKay, John K. Bishop, John G. Lin, Jing-Zhong Richards, James H. Sala, Anna and Mitchell-Olds, Thomas 2001. Local adaptation across a climatic gradient despite small effective population size in the rare sapphire rockcress. Proceedings of the Royal Society of London. Series B: Biological Sciences, Vol. 268, Issue. 1477, p. 1715.

Martins, Ana Gonçalves Netto, Newton Tércio Aulagnier, Stéphane Borges, Ana Dubois, Michel Vicente, Luis Gerard, Jean‐François and Maublanc, Marie‐Line 2002. Population subdivision among mouflon sheep (Ovis gmelini) ewes and ranging behaviour of rams during the rut. Journal of Zoology, Vol. 258, Issue. 1, p. 27.

Moran, P. 2002. Current conservation genetics: building an ecological approach to the synthesis of molecular and quantitative genetic methods. Ecology of Freshwater Fish, Vol. 11, Issue. 1, p. 30.

McKay, John K. and Latta, Robert G. 2002. Adaptive population divergence: markers, QTL and traits. Trends in Ecology & Evolution, Vol. 17, Issue. 6, p. 285.

Le Corre, Valérie and Kremer, Antoine 2003. Genetic Variability at Neutral Markers, Quantitative Trait Loci and Trait in a Subdivided Population Under Selection. Genetics, Vol. 164, Issue. 3, p. 1205.

Sánchez, Leopoldo Bijma, Piter and Woolliams, John A 2003. Minimizing Inbreeding by Managing Genetic Contributions Across Generations. Genetics, Vol. 164, Issue. 4, p. 1589.

Piertney, Stuart B. 2003. Major histocompatibility complex B‐LB gene variation in red grouseLagopus lagopus scoticus. Wildlife Biology, Vol. 9, Issue. 4, p. 251.

Demirci, Banu Lornage, Jacqueline Salle, Bruno Poirel, Marie Thèrese Guerin, Jean François and Franck, Michel 2003. The cryopreservation of ovarian tissue: uses and indications in veterinary medicine. Theriogenology, Vol. 60, Issue. 6, p. 999.

Oostermeijer, J. G. B. 2003. Population Viability in Plants. Vol. 165, Issue. , p. 17.

Hitchmough, James 2003. Plant User Handbook. p. 7.

Allendorf, Fred W. and Lundquist, Laura L. 2003. Introduction: Population Biology, Evolution, and Control of Invasive Species. Conservation Biology, Vol. 17, Issue. 1, p. 24.

Vigilant, Linda and Bradley, Brenda J. 2004. Genetic variation in gorillas. American Journal of Primatology, Vol. 64, Issue. 2, p. 161.

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