Loss of genetic diversity, recovery and allele surfing in a colonizing parasite, Geomydoecus aurei

Loss of genetic diversity, recovery and allele surfing in a colonizing parasite, Geomydoecus aurei

Understanding the genetic consequences of changes in species distributions has wide‐ranging implications for predicting future outcomes of climate change, for protecting threatened or endangered populations and for understanding the history that has led to current genetic patterns within species. He...

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Bibliographic Details
Published in:Molecular ecology Vol. 28; no. 4; pp. 703 - 720
Main Authors: Demastes, James W., Hafner, David J., Hafner, Mark S., Light, Jessica E., Spradling, Theresa A.
Format: Journal Article
Language:English
Published: England Blackwell Publishing Ltd 01-02-2019
Subjects:
allele surfing
Alleles
Climate change
Colonization
diversity
Endangered populations
expanding population
Expansion
Gene flow
Genetic diversity
Genetic markers
Genetic structure
Genetics
Geomydoecus aurei
Immigration
Lice
Microsatellites
parasite
Population
population bottleneck
Population genetics
Population growth
Range extension
Recovery time
Sampling
diversity
parasite
expanding population
allele surfing
population bottleneck
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Summary:Understanding the genetic consequences of changes in species distributions has wide‐ranging implications for predicting future outcomes of climate change, for protecting threatened or endangered populations and for understanding the history that has led to current genetic patterns within species. Herein, we examine the genetic consequences of range expansion over a 25‐year period in a parasite (Geomydoecus aurei) that is in the process of expanding its geographic range via invasion of a novel host. By sampling the genetics of 1,935 G. aurei lice taken from 64 host individuals collected over this time period using 12 microsatellite markers, we test hypotheses concerning linear spatial expansion, genetic recovery time and allele surfing. We find evidence of decreasing allelic richness (AR) with increasing distance from the source population, supporting a linear, stepping stone model of spatial expansion that emphasizes the effects of repeated bottleneck events during colonization. We provide evidence of post‐bottleneck genetic recovery, with average AR of infrapopulations increasing about 30% over the 225‐generation span of time observed directly in this study. Our estimates of recovery rate suggest, however, that recovery has plateaued and that this population may not reach genetic diversity levels of the source population without further immigration from the source population. Finally, we employ a grid‐based sampling scheme in the region of ongoing population expansion and provide empirical evidence for the power of allele surfing to impart genetic structure on a population, even under conditions of selective neutrality and in a place that lacks strong barriers to gene flow.
Bibliography:Funding information
This work was funded by National Science Foundation Grant/Award DEB 1445708.
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ISSN:0962-1083
1365-294X
DOI:10.1111/mec.14997