Evaluation of alternative management strategies for maintenance of genetic variation in wildlife populations
Authored by R M Giglio, J A Ivy, L C Jones, E K Latch
Date Published: 2016
DOI: 10.1111/acv.12254
Sponsors:
United States Fish and Wildlife Service
Platforms:
No platforms listed
Model Documentation:
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Model Code URLs:
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Abstract
Wildlife management strategies are often designed around a population's
demographic goals, but such strategies also can inadvertently impact
genetic variation. For species like bison Bison bison, where management
includes the regular removal of individuals to maintain restricted
population sizes on constrained landscapes, management actions can be
tailored to address genetic diversity retention in addition to simply
maintaining a target population size. In this study, we provide an
assessment of alternative culling strategies for maintenance of genetic
variation in managed wildlife populations. Our primary goal was to
compare the long-term retention of genetic variation and accumulation of
inbreeding among three types of culling strategies, including one that
considered genetic variation directly by measuring variation at a suite
of variable loci {[}mean allele frequency (MAF) strategy], one that used
genome-wide measures of variation {[}mean kinship (MK) strategy] and one
that relied solely on demographic information (sex and age; RANDOM). To
achieve this goal, we built an individual-based model, parameterized in
accordance with bison biology, to project levels of genetic variation
and inbreeding over time under each of the three management strategies.
Our results suggest wildlife management strategies that incorporate
goals for retaining genetic variation (MAF and MK strategies) are better
suited to preserving the evolutionary potential of wildlife populations
than those that focus solely on a target size and demographic stability
(RANDOM). In particular, the MK culling strategy performed the best at
maximizing the retention of genome-wide variation. These results extend
previous work demonstrating the utility of pedigree-based mate selection
strategies in captive population management, and show that such
strategies maximize the retention of genome-wide variation under culling
practices as well. These models will aid in the long-term management of
bison, and can be adapted to other managed wildlife species.
Tags
Viability
Diversity
selection
Demography
Conservation
patterns
Inbreeding depression
Breeding programs
Minimization
Pedigrees