CAUSES AND CONSEQUENCES OF VARIATION IN GENOMIC DIVERSITY IN SABLE ISLAND FERAL HORSES
Date
2025-01-16
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
ORCID
0000-0001-5669-9410
Type
Thesis
Degree Level
Doctoral
Abstract
Understanding how likely a population is to persist in a changing environment helps inform conservation priorities and strategies. It requires a multi-pronged approach to assess the genetic health of a population, which can be difficult to achieve in endangered species. Feral populations of domestic species act as useful models for this purpose, owing to the large knowledge base and advanced genetic tools associated with those species. The feral horses (Equus caballus) of Sable Island, Canada are one such population and are of conservation interest themselves. In order to approach a holistic understanding of the horses' genetic health to assess their likelihood to persist long-term, I employed a variety of genomics approaches using ~40 000 Single Nucleotide Polymorphisms (SNPs) from 239 horses. Firstly, I investigated the genomic-level consequences of inbreeding by looking at runs of homozygosity (ROH) in Sable Island horses and 33 domestic horse breeds, and identified signatures of selection unique to the population compared to their domestic counterparts. Next, I investigated the fitness consequences of inbreeding (inbreeding depression; ID) and the intrinsic and extrinsic drivers thereof. Finally, I assessed fine-scale population genetic structure, barriers to gene flow and local adaptation using landscape genomics techniques. I discovered that Sable Island horses' homozygosity is on par with the most inbred domestic breeds, with ROH length indicating more recent inbreeding. Nine ROH islands were identified in Sable Island horses, suggesting signatures of selection related to immune function and metabolism. Inbreeding depression was seen for body condition (BC), fecal egg count (FEC) and age at first reproduction (AFR), but varied depending on horse age, reproductive status and island location. Population structure revealed two genetic groups with significant admixture between them. Access to freshwater via ponds versus wells appeared to act as a barrier to gene flow, and signatures of selection were associated with differences in water source and location. Taken together, this suggests adaptive genetic variation exists within the population and has the potential to persist into the future. However, the population is vulnerable to the negative effects of small population size and low genetic diversity; as the population remains isolated, the severity of inbreeding depression is likely to increase. If the landscape becomes more or less heterogeneous over time, population structure may become more distinct or gene flow across the island may increase, respectively. Overall, this research indicates the necessity that management strategies address all geographic locations and life history stages of the population of interest, whether it be livestock or wildlife.
Description
Keywords
inbreeding, inbreeding depression, signatures of selection, feral horses, landscape genomics, conservation genomics
Citation
Degree
Doctor of Philosophy (Ph.D.)
Department
Biology
Program
Biology