2010
DOI: 10.1111/j.1365-294x.2010.04546.x
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Genomic diversity, population structure, and migration following rapid range expansion in the Balsam Poplar,Populus balsamifera

Abstract: Rapid range expansions can cause pervasive changes in the genetic diversity and structure of populations. The postglacial history of the Balsam Poplar, Populus balsamifera, involved the colonization of most of northern North America, an area largely covered by continental ice sheets during the last glacial maximum. To characterize how this expansion shaped genomic diversity within and among populations, we developed 412 SNP markers that we assayed for a range-wide sample of 474 individuals sampled from 34 popu… Show more

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Cited by 110 publications
(177 citation statements)
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“…Assuming a 15-year generation time (Ingvarsson 2008), this corresponds to 10,000 years ago, when a large proportion of the glaciated area of P. balsamifera's current range started to become ice free and available for colonization. For three reasons our demographic model should produce conservative estimates of differentiation for testing local adaptation: there was no migration between subpopulations (allowing that migration narrowed the confidence intervals on p T-S ; results not shown), unaccounted-for population substructure will elevate p S , thereby lowering the empirical estimates of p T-S , and finally the northern subgroup we used for our empirical data contained individuals from all three regional genetic clusters (Keller et al 2010), which should increase empirical estimates of p S and lower p T-S over expectations from a simple north-south demographic split. We simulated 50,000 replicates of the coalescent with Hudson's MS, conditioned on the total number of segregating sites for each phenology gene, and compared the observed p T-S to the 95% confidence interval under neutrality.…”
Section: Discussionmentioning
confidence: 99%
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“…Assuming a 15-year generation time (Ingvarsson 2008), this corresponds to 10,000 years ago, when a large proportion of the glaciated area of P. balsamifera's current range started to become ice free and available for colonization. For three reasons our demographic model should produce conservative estimates of differentiation for testing local adaptation: there was no migration between subpopulations (allowing that migration narrowed the confidence intervals on p T-S ; results not shown), unaccounted-for population substructure will elevate p S , thereby lowering the empirical estimates of p T-S , and finally the northern subgroup we used for our empirical data contained individuals from all three regional genetic clusters (Keller et al 2010), which should increase empirical estimates of p S and lower p T-S over expectations from a simple north-south demographic split. We simulated 50,000 replicates of the coalescent with Hudson's MS, conditioned on the total number of segregating sites for each phenology gene, and compared the observed p T-S to the 95% confidence interval under neutrality.…”
Section: Discussionmentioning
confidence: 99%
“…We refrained from testing more complicated models that include population subdivision and migration among regional groups (e.g., Keller et al 2010) because our initial simple models captured the major features of diversity found in the range-wide sample of 15 individuals (see Results). In other words, these ABC models should not be viewed as accurate descriptors of the demographic history as much as simplified models that capture the patterns of nucleotide diversity found in the reference loci from a widespread sample of a limited number of individuals.…”
Section: Discussionmentioning
confidence: 99%
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“…Furthermore, repeated Quaternary glacial cycles have had a pronounced effect, seen in both the past and current distribution of species, even in areas that were free of ice during the last glacial maximum (LGM, ca 18 000 years ago; Frenzel et al, 1992;Jackson and Weng, 1999;Hu et al, 2009). These climatic shifts impacted population size, subdivision and migration, leaving genetic signatures in genome-wide patterns of polymorphism and influencing patterns of natural selection (Ingvarsson, 2008;Keller et al, 2010Keller et al, , 2011Ma et al, 2010;Levsen et al, 2012;Cushman et al, 2014;Evans et al, 2014;Zhou et al, 2014).…”
Section: Introductionmentioning
confidence: 99%