Abstract
Captive breeding is often a last resort management option in the conservation of endangered species which can in turn lead to increased risk of inbreeding depression and loss of genetic diversity. Thus, recording breeding events via studbook for the purpose of estimating relatedness, and facilitating mating pair selection to minimize inbreeding, is common practice. However, as founder relatedness is often unknown, loss of genetic variation and inbreeding cannot be entirely avoided. Molecular genotyping is slowly being adopted in captive breeding programs, however achieving sufficient resolution can be challenging in small, low diversity, populations. Here, we evaluate the success of the Vancouver Island marmot (Marmota vancouverensis; VIM; among the worlds most endangered mammals) captive breeding program in preventing inbreeding and maintaining genetic diversity. We explored the use of high-throughput amplicon sequencing of microsatellite regions to assay greater genetic variation in both captive and wild populations than traditional length-based fragment analysis. Contrary to other studies, this method did not considerably increase diversity estimates, suggesting: (1) that the technique does not universally improve resolution, and (2) VIM have exceedingly low diversity. Studbook estimates of pairwise relatedness and inbreeding in the current population were weakly, but positively, correlated to molecular estimates. Thus, current studbooks are moderately effective at predicting genetic similarity when founder relatedness is known. Finally, we found that captive and wild populations did not differ in allelic frequencies, and conservation efforts to maintain diversity have been successful with no significant decrease in diversity over the last three generations.
Highlights
The need for conservation actions are rapidly increasing as biodiversity declines with the onset of the sixth mass extinction, which has already caused severe population declines in 30–50% of vertebrates worldwide (Ceballos et al 2015, 2017, 2020)
We focus on the Vancouver Island marmot (Marmota vancouverensis; Swarth 1911; hereafter VIM) which is endemic to Vancouver Island and the only critically-endangered terrestrial mammal species in Canada (COSEWIC 2008, Roach 2017, Vancouver Island Marmot Recovery Team [VIMRT] 2017, COSEWIC 2019)
All loci were in linkage equilibrium and eight of 11 loci deviated from Hardy–Weinberg equilibrium, they were retained in the analysis as specified in the methods (Table 1)
Summary
The need for conservation actions are rapidly increasing as biodiversity declines with the onset of the sixth mass extinction, which has already caused severe population declines in 30–50% of vertebrates worldwide (Ceballos et al 2015, 2017, 2020). Current conservation strategies to minimize population declines and species extinction include in situ and ex situ methods. In situ strategies occur in a species’ native environment and can include food supplementation, translocation of individuals, and predator-free enclosures (Limoges et al 2013; Kyle et al 2017). In situ measures often provide short-term population increases with relatively minimal disturbance to the population. Such measures are often slow to materialize and require relatively stable populations to be successful Severe population declines can occur before a species is recognized as endangered (Peters et al 2015), at which point in situ approaches may be insufficient for conservation. Populations considered ‘critically endangered’, for example, may require more interventionistic approaches to avoid extinction (Peters et al 2015)
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
