Abstract
Genome-wide evaluations of genetic diversity and population structure are important for informing management and conservation of trailing-edge populations. North American moose (Alces alces) are declining along portions of the southern edge of their range due to disease, species interactions, and marginal habitat, all of which may be exacerbated by climate change. We employed a genotyping by sequencing (GBS) approach in an effort to collect baseline information on the genetic variation of moose inhabiting the species’ southern range periphery in the contiguous United States. We identified 1920 single nucleotide polymorphisms (SNPs) from 155 moose representing three subspecies from five states: A. a. americana (New Hampshire), A. a. andersoni (Minnesota), and A. a. shirasi (Idaho, Montana, and Wyoming). Molecular analyses supported three geographically isolated clusters, congruent with currently recognized subspecies. Additionally, while moderately low genetic diversity was observed, there was little evidence of inbreeding. Results also indicated > 20% shared ancestry proportions between A. a. shirasi samples from northern Montana and A. a. andersoni samples from Minnesota, indicating a putative hybrid zone warranting further investigation. GBS has proven to be a simple and effective method for genome-wide SNP discovery in moose and provides robust data for informing herd management and conservation priorities. With increasing disease, predation, and climate related pressure on range edge moose populations in the United States, the use of SNP data to identify gene flow between subspecies may prove a powerful tool for moose management and recovery, particularly if hybrid moose are more able to adapt.
Highlights
Moose (Alces alces) are the sole extant members of the Alces genus and are widely distributed among subarctic regions of the northern hemisphere
The ΔK value peaked at K = 2 (Fig. 3A) with one cluster representing A. a. shirasi and the other A. a. andersoni and A. a. americana (Fig. 3B)
Region within A. a. shirasi displayed between 22 and 49% shared ancestry proportions with the A. a. andersoni samples and were congruent to the observed group separated from the A. a. shirasi cluster in the principal coordinates analysis (PCoA) analysis (Fig. 2)
Summary
Moose (Alces alces) are the sole extant members of the Alces genus and are widely distributed among subarctic regions of the northern hemisphere In North America, four subspecies have been described based on biogeography and morphology (Peterson 1955; Hall 1981), with three of the subspecies’ boundaries extending south into the contiguous United States (U.S.): A. a. Americana (Eastern moose), and the fourth subspecies, A. a. With an overall estimated population of around one million in North America, A. alces are not considered to be a species of concern by the United States government (Timmermann and Rodgers 2017). Management has predominantly been state or regionally focused in an effort to maintain sustainable populations as a local natural resource (Wattles and DeStefano 2011; Timmermann and Rodgers 2017)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
