Genomic analysis of the process leading up to the extinction of the woolly mammoth

Species worldwide are subject to contractions in both abundance and geographical range, and their persistence in a changing environment may thus depend on the ability to survive in small and fragmented populations. Despite the urgent need to understand how extinction works, our knowledge of pre-exti...

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Bibliographic Details
Main Author: Pečnerová, Patrícia
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Stockholms universitet, Zoologiska institutionen 2018
Subjects:
woolly mammoth
Mammuthus primigenius
extinction
Wrangel Island
ancient DNA
palaeogenetics
population genetics
genomics
genomic erosion
genetic drift
inbreeding
population size
Evolutionary Biology
Evolutionsbiologi
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-149655
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Summary:Species worldwide are subject to contractions in both abundance and geographical range, and their persistence in a changing environment may thus depend on the ability to survive in small and fragmented populations. Despite the urgent need to understand how extinction works, our knowledge of pre-extinction genetic processes is limited because techniques allowing population and conservation genomics to be studied in wild threatened populations have become available only recently. In this thesis, I used the last surviving population of the woolly mammoth (Mammuthus primigenius) as a model for studying pre-extinction population dynamics. I used ancient DNA as a tool to study microevolutionary processes in real time, analysing genetic changes in response to environmental shifts at the end of the last Ice Age and exploring impacts of genetic drift and inbreeding as woolly mammoths became isolated on Wrangel Island and survived for 6000 years at small population size. Using mitochondrial genomes, I found evidence of a founder effect that decreased the maternal diversity to a single lineage at the time when mammoths became trapped on Wrangel Island (~10,500 years ago). Moreover, a two- to three-fold higher mitochondrial mutation rate in Holocene and a fixed, potentially detrimental mutation in the ATP6 gene encoding for one of the key enzymes of the oxidative phosphorylation pathway, is consistent with the hypothesis that selection is less effective in removing deleterious mutations in small populations. A loss of diversity was also observed in an immunity gene that belongs to the major histocompatibility complex (MHC), even though the MHC is considered to be under balancing selection. Low-coverage genomic data was analysed in order to estimate endogenous DNA content and molecular sex of the mammoth samples. The observation of a male bias (69%) in the sex ratio led to the conclusion that male mammoths were more likely to die in a way that ensured good preservation. Another potential way of getting information about life ...

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