Genetic structuring in three closely related circumpolar plant species: AFLP versus microsatellite markers and high-arctic versus arctic-alpine distributions

Genetic structuring in three closely related circumpolar plant species: AFLP versus microsatellite markers and high-arctic versus arctic-alpine distributions

Genetic structuring in response to the glacial cycles has been investigated for many plant species, but exclusively high-arctic ones have not been studied. Such extremely cold-adapted species have probably experienced range reductions under the present climate. Here we compare three predominantly se...

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Bibliographic Details
Published in:Heredity Vol. 102; no. 3; pp. 293 - 302
Main Authors: Skrede, I, Borgen, L, Brochmann, C
Format: Journal Article
Language:English
Published: England Springer Nature B.V 01-03-2009
Subjects:
alleles
amplified fragment length polymorphism
Amplified Fragment Length Polymorphism Analysis
Arctic Regions
Biodiversity
Brassicaceae - classification
Brassicaceae - genetics
Climate change
Dispersal
Draba
Draba fladnizensis
Draba nivalis
Draba subcapitata
Extreme Cold
genes
Genetic diversity
Genetic markers
Genetic Variation
Genomics
geographical variation
habitats
Heredity
loci
Microsatellite Repeats
Mutation
North America
Phylogeny
phytogeography
plant genetics
Plant populations
Plant species
Refugia
Asia
North America
Europe
Arctic Regions
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Summary:Genetic structuring in response to the glacial cycles has been investigated for many plant species, but exclusively high-arctic ones have not been studied. Such extremely cold-adapted species have probably experienced range reductions under the present climate. Here we compare three predominantly selfing species of Draba with different distributions and hardiness (D. subcapitata, high-arctic; D. nivalis, arctic to arctic-alpine; D. fladnizensis, arctic-alpine) for genetic structuring on the basis of two different types of molecular markers (10 microsatellite loci and 160 amplified fragment length polymorphisms (AFLPs)). The degree of genetic structuring within these species is of particular interest because it has been shown that they contain many cryptic biological species. The high-arctic D. subcapitata had less phylogeographic structure, less diversity and fewer private alleles than the other two species, suggesting that long-distance dispersal may occur more frequently in the high arctic, that hardy plants may have higher probability for establishment after dispersal under high-arctic conditions and that high-arctic species may have experienced a bottleneck during the present interglacial. In contrast, D. fladnizensis and D. nivalis showed distinct phylogeographic structure and more diversity, suggesting separate long-term refugia in Eurasia and North America/Beringia. The AFLP markers revealed more phylogeographic structuring than the microsatellites, possibly because of the higher number of loci surveyed and/or because structure at very large geographic scales is blurred by high mutation rate leading to homoplasy at microsatellite loci. The number of genetic groups detected was in any case insignificant compared with the numerous cryptic biological species known within these species, supporting rapid development of sterility barriers.
Bibliography:http://dx.doi.org/10.1038/hdy.2008.120
ObjectType-Article-1
SourceType-Scholarly Journals-1
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content type line 23
ISSN:0018-067X
1365-2540
DOI:10.1038/hdy.2008.120