An Assessment of Caribou (Rangifer tarandus) Genomic Diversity and Structure in Western Canada to Guide Species Conservation and Management

Human-induced environmental change is one of the biggest threats to global biological diversity, and the resulting environmental conditions have made it increasingly difficult for species to adapt and survive. The use of genomic technologies, such as the inference of genetic structure, can aid speci...

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Bibliographic Details
Main Author: Michalak, Anita
Other Authors: Poissant, Jocelyn, Musiani, Marco, Polfus, Jean, Rogers, Sean
Format: Master Thesis
Language:English
Published: Veterinary Medicine 2023
Subjects:
conservation genomics
population structure
genetic differentiation
clustering
evolutionarily significant units
ecotypes
endangered wildlife
Forestry and Wildlife
Ecology
Genetics
Zoology
British Columbia
Canada
Rangifer
Rangifer tarandus
Online Access:http://hdl.handle.net/1880/115800
https://doi.org/10.11575/PRISM/40705
Description
Summary:Human-induced environmental change is one of the biggest threats to global biological diversity, and the resulting environmental conditions have made it increasingly difficult for species to adapt and survive. The use of genomic technologies, such as the inference of genetic structure, can aid species conservation and prevent population declines. Particularly for caribou (Rangifer tarandus), which are considered an at-risk species across Canada, determining population genetic structure can help delineate units for conservation while detecting potentially cryptic population structure and diversity as well as undetected and/or mislabeled populations. For my M.Sc. thesis, I studied genomic diversity in caribou sampled throughout western Canada to better characterize population structure and supplement previous genetic studies conducted in this region. I accomplished this using several population structure inference methods and by combining individual-based genomic and spatial data for 658 individuals derived from 41 herds across British Columbia (BC) and Alberta (AB). Results indicate that population structure inferred from genomic data reflects neither past nor present caribou classification schemes. Instead, caribou genetic differentiation in BC and AB is best reflected at K=4 clusters, which primarily: (1) identifies a potential new conservation unit composed of individuals belonging to Itcha-Ilgachuz and neighboring subpopulations, and (2) redefines the boundaries of existing populations. Despite the need for multiple lines of evidence to provide complementary criteria for designating distinct units for conservation or populations, my work illustrates how genomics can help inform and improve the delineation of such conservation and management units for caribou.

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