One size does not fit all: Genetic considerations from the Missouri elk restoration

Ellen M. Pero; Donovan A. Bell; Zachary L. Robinson; M. Colter Chitwood; Aaron M. Hildreth; Leah K. Berkman; Barbara J. Keller; Jason A. Sumners; Lonnie P. Hansen; Jason L. Isabelle; Lori S. Eggert; Chelsea L. Titus; Joshua J. Millspaugh

doi:10.1111/csp2.598

Conservation Science and Practice (Feb 2022)

One size does not fit all: Genetic considerations from the Missouri elk restoration

Ellen M. Pero,
Donovan A. Bell,
Zachary L. Robinson,
M. Colter Chitwood,
Aaron M. Hildreth,
Leah K. Berkman,
Barbara J. Keller,
Jason A. Sumners,
Lonnie P. Hansen,
Jason L. Isabelle,
Lori S. Eggert,
Chelsea L. Titus,
Joshua J. Millspaugh

Affiliations

Ellen M. Pero: Wildlife Biology Program University of Montana Missoula Montana USA
Donovan A. Bell: Wildlife Biology Program University of Montana Missoula Montana USA
Zachary L. Robinson: Wildlife Biology Program University of Montana Missoula Montana USA
M. Colter Chitwood: Natural Resource Ecology and Management Oklahoma State University Stillwater Oklahoma USA
Aaron M. Hildreth: Missouri Department of Conservation Columbia Missouri USA
Leah K. Berkman: Missouri Department of Conservation Columbia Missouri USA
Barbara J. Keller: Minnesota Department of Natural Resources St. Paul Minnesota USA
Jason A. Sumners: Missouri Department of Conservation Jefferson City Missouri USA
Lonnie P. Hansen: Missouri Department of Conservation Columbia Missouri USA
Jason L. Isabelle: Missouri Department of Conservation Columbia Missouri USA
Lori S. Eggert: Biological Sciences University of Missouri Columbia Missouri USA
Chelsea L. Titus: Missouri Department of Conservation Columbia Missouri USA
Joshua J. Millspaugh: Wildlife Biology Program University of Montana Missoula Montana USA

DOI: https://doi.org/10.1111/csp2.598
Journal volume & issue: Vol. 4, no. 2
pp. n/a – n/a

Abstract

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Abstract Population restoration is an inherently costly conservation practice typically reliant on animal translocations. There are many approaches to translocation and consideration is paid to understanding how various translocation models influence restoration success. Translocation strategies are often designed to meet site‐specific objectives, minimize cost, and maximize success. We investigated genetic diversity retention associated with the low‐founder, multi‐release, single admixed stock translocation model of the Missouri elk (Cervus canadensis) restoration in 2011–2013. We further estimated effective population size and projected future losses in genetic diversity if the restored Missouri elk herd is maintained at the population size objective with no immigration from neighboring states. We observed relatively high levels of genetic diversity retention as evidenced by minimal losses in allelic richness and expected heterozygosity. Our projections indicated 90% genetic diversity retention within the Missouri population for roughly 130 years. Where number of progeny or source stocks are limited by resource or disease considerations, use of a relatively low‐founder, single admixed source may enable retention of genetic variation, while minimizing costs.

Published in Conservation Science and Practice

ISSN: 2578-4854 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Biology (General): Ecology; Science: Natural history (General): General. Including nature conservation, geographical distribution
Website: https://onlinelibrary.wiley.com/journal/25784854

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