Use of genetic data in a species status assessment of the Sicklefin Redhorse (Moxostoma sp.)

Use of genetic data in a species status assessment of the Sicklefin Redhorse (Moxostoma sp.)

Under the United States Endangered Species Act, a species is granted protection if it is in danger of extinction throughout all or a significant portion of its range. Since 2016, the United States Fish and Wildlife Service has adopted a more analytical approach to determining significant portion of...

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Bibliographic Details
Published in:Conservation genetics Vol. 20; no. 5; pp. 1175 - 1185
Main Authors: Moyer, Gregory R., Bohn, Sandra, Cantrell, Mark, Williams, Ashantye S.
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-10-2019
Springer Nature B.V
Subjects:
Admixtures
Animal Genetics and Genomics
Anthropogenic factors
Bayesian analysis
Biodiversity
Biomedical and Life Sciences
Catastrophic events
Conservation biology
Conservation Biology/Ecology
Ecology
Endangered & extinct species
Endangered species
Environmental changes
Evolutionary Biology
Genetic markers
Hazards
Human influences
Life Sciences
Microsatellites
Moxostoma
Parameter estimation
Plant Genetics and Genomics
Population number
Populations
Protected species
Redundancy
Representations
Research Article
Resilience
River basins
Rivers
Species extinction
Stochasticity
Wildlife
Wildlife conservation
United States > US
Assignment
Microsatellite
Species Status Assessment
Admixture
Approximate Bayesian computation (ABC)
Anthropogenic
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Description
Summary:Under the United States Endangered Species Act, a species is granted protection if it is in danger of extinction throughout all or a significant portion of its range. Since 2016, the United States Fish and Wildlife Service has adopted a more analytical approach to determining significant portion of its range. Termed Species Status Assessment (SSA), this approach addresses whether loss of individuals from a portion of its range will influence at least one of the conservation biology principles of redundancy (ability to withstand catastrophic events), resiliency (ability to withstand stochastic events), and representation (ability to adapt over time to long-term changes in the environment). Using Sicklefin Redhorse ( Moxostoma sp.), we illustrate the use of genetic data to evaluate each SSA metric. We sampled ( n  = 382) Sicklefin Redhorse from three major river basins throughout its contemporary distribution and estimated genetic parameters using ten microsatellite markers. Using STRUCTURE analyses, we showed that redundancy was three, but our approximate Bayesian computation analysis revealed that this value could be reduced to two if admixture, due to anthropogenic stressors of the 1900s, continues. We used estimates of effective population size ( Ne ) to measure resiliency and representation and found that all populations showed resiliency and representation with Ne  ≥ 479. Genetic monitoring of the Little Tennessee and Tuckasegee populations will be necessary to assess the future status of redundancy for this species. Any reduction in redundancy would warrant further ESA evaluation.
ISSN:1566-0621
1572-9737
DOI:10.1007/s10592-019-01202-3