Genetic characterization of invasive house mouse populations on small islands

AbstractHouse mice (Mus musculus) have dispersed to nearly every major landmass around the globe as a result of human activity. They are a highly successful invasive species, but their presence can be devastating for native ecosystems. This is particularly true on small offshore islands where mouse populations may grow unchecked by predators. Here we use genome-wide SNP genotypes to examine ancestry and population structure on two islands of ecological interest - Southeast Farallon Island, near San Francisco, CA; and Floreana Island in the Galpagos - in the context of a total cohort of 520 mice with diverse geographic origins, as a first step towards genetically-based eradication campaigns. We show that Farallon and Floreana mice, like those from previously-studied islands in both the Atlantic and Pacific Oceans, are of admixed European ancestry. We find that these populations are on average more inbred than mainland ones and passed through a strong colonization bottleneck with little subsequent genetic exchange. Finally we show that rodenticide resistance alleles present in parts of Europe are absent from all island populations studied. Our results add nuance to previous studies of island populations based on mitochondrial sequences or small numbers of microsatellites and will be useful for future eradication and monitoring efforts.

Morgan, A. P., Didion, J. P., Hughes, J. J., Searle, J. B., Jolley, W. J., Campbell, K. J., Threadgill, D. W., & de Villena, F.

Morgan, Andrew P||Didion, John P||Hughes, Jonathan J||Searle, Jeremy B||Jolley, Wesley J||Campbell, Karl J||Threadgill, David W||de Villena, Fernando Pardo Manuel

Genetic characterization of invasive house mouse populations on small islands Academic Article