Using ancient DNA and coalescent-based methods to infer extinction.

DNA sequences extracted from preserved remains can add considerable resolution to inference of past population dynamics. For example, coalescent-based methods have been used to correlate declines in some arctic megafauna populations with habitat fragmentation during the last ice age. These methods,...

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Bibliographic Details
Main Authors: Chang, Dan, Shapiro, Beth
Format: Article in Journal/Newspaper
Language:unknown
Published: eScholarship, University of California 2016
Subjects:
Animals
Vertebrates
Invertebrates
Plants
DNA
Conservation of Natural Resources
Population Dynamics
Genome
Fossils
Extinction
Biological
ancient DNA
coalescent
demography
megafauna
Human Genome
Genetics
Generic health relevance
Life on Land
Biological Sciences
Evolutionary Biology
Arctic
Online Access:https://escholarship.org/uc/item/8zr128qq
Description
Summary:DNA sequences extracted from preserved remains can add considerable resolution to inference of past population dynamics. For example, coalescent-based methods have been used to correlate declines in some arctic megafauna populations with habitat fragmentation during the last ice age. These methods, however, often fail to detect population declines preceding extinction, most likely owing to a combination of sparse sampling, uninformative genetic markers, and models that cannot account for the increasingly structured nature of populations as habitats decline. As ancient DNA research expands to include full-genome analyses, these data will provide greater resolution of the genomic consequences of environmental change and the genetic signatures of extinction.

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