Abstract
The restricted distribution and isolation of island endemics often produces unique genetic and phenotypic diversity of conservation interest to management agencies. However, these isolated species, especially those with sensitive life history traits, are at high risk for the adverse effects of genetic drift and habitat degradation by non-native wildlife. Here, we study the population genetic diversity, structure, and stability of a classic “island giant” (Xantusia riversiana, the Island Night Lizard) on San Clemente Island, California following the removal of feral goats. Using DNA microsatellites, we found that this population is reasonably genetically robust despite historical grazing, with similar effective population sizes and genetic diversity metrics across all sampling locations irrespective of habitat type and degree of degradation. However, we also found strong site-specific patterns of genetic variation and low genetic diversity compared to mainland congeners, warranting continued special management as an island endemic. We identify both high and low elevation areas that remain valuable repositories of genetic diversity and provide a case study for other low-dispersal coastal organisms in the face of future climate change.
Highlights
Islands, due to their isolation, often support suites of highly endemic species and contain some of the most threatened habitats in the world [1, 2, 3]
Island endemics are sensitive to loss of genetic diversity and stochastic population fluctuations caused by the small size and isolation of their habitat [6, 7]
We investigated the correlation between deme identity and potential explanatory variables by using a Generalized Additive Model (GAM) implemented in the R package ‘gam’ [64]
Summary
Due to their isolation, often support suites of highly endemic species and contain some of the most threatened habitats in the world [1, 2, 3]. Island endemics are sensitive to loss of genetic diversity and stochastic population fluctuations caused by the small size and isolation of their habitat [6, 7]. Insular species can be vulnerable to invasive species, through predation, competition, or habitat destruction [8, 9]. Despite these challenges, islands offer the opportunity to completely eradicate invasive species, PLOS ONE | DOI:10.1371/journal.pone.0163738. Islands offer the opportunity to completely eradicate invasive species, PLOS ONE | DOI:10.1371/journal.pone.0163738 November 9, 2016
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