Integrating Genetic Data and Demographic Modeling to Facilitate Conservation of Small, Isolated Mountain Goat Populations.

Autor: White, Kevin S., Levi, Taal, Breen, Jessica, Britt, Meghan, Meröndun, Justin, Martchenko, Daria, Shakeri, Yasaman N., Porter, Boyd, Shafer, Aaron B. A.
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Zdroj: Journal of Wildlife Management; Feb2021, Vol. 85 Issue 2, p271-282, 12p
Abstrakt: Acquisition of field data and analytical methods needed for conservation and management of wildlife populations represent significant challenges, particularly for species that inhabit landscapes that are difficult to access or species that persist in small, isolated populations. In such instances, integrating diverse and complementary data streams, such as genetic and non‐genetic data, can advance our understanding of population dynamics and associated management implications. We examined how genetic and morphologic data can be used to articulate population structure of a low‐density, peninsular population of mountain goats (Oreamnos americanus) on the Cleveland Peninsula, Alaska, USA, and surrounding areas, 2005–2018. We then use a population demographic modeling approach to examine how the use of population structure information influences sustainable harvest quotas, as compared to a panmictic, null model. Specifically, we conducted extensive field sampling of genetic (n = 446) and morphologic (i.e., horn length, n = 371) data to characterize population structure. We conducted demographic analyses and examined harvest modeling scenarios using a sex‐ and age‐specific matrix population modeling approach. Genetic and morphologic data analyses suggested peninsular subpopulations were demographically isolated, relative to surrounding mainland populations. Specifically, genetic structuring was evident and followed an isolation‐by‐distance, stepping‐stone pattern indicating limited interchange, low effective population sizes, and reduced genetic diversity along a peninsular extremity to mainland gradient. Harvest modeling indicated that overharvest would likely occur if the panmictic, null model was used to guide harvest because the smallest genetically defined population at the peninsular extremity was too small to permit any level of sustainable harvest. Our analyses illustrate the importance of using genetic and morphologic data, in combination with demographic modeling, to quantitatively delineate population boundaries and dynamics for ensuring viability of small, isolated populations. © 2020 The Wildlife Society. We integrated population genetic data and demographic modeling to facilitate conservation of small, peninsular mountain goat populations in coastal Alaska. Our findings illustrate how population genetic data can represent a key resource for delineating populations and, when integrated in a rigorous and quantitative harvest modeling framework, can significantly advance our ability to sustainably manage populations. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index