Long-distance pollen dispersal during recent colonization favors a rapid but partial recovery of genetic diversity in Picea sitchensis

Tree species in the northern hemisphere are currently subject to rapid anthropogenic climate change and are shifting their ranges in response. This prompts questions about the mechanisms allowing tree populations to respond quickly to selection pressures when establishing into new areas. Focusing on...

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Bibliographic Details
Published in:The New phytologist 2019-04, Vol.222 (2), p.1088-1100
Main Authors: Elleouet, Joane S., Aitken, Sally N.
Format: Article
Language:English
Subjects:
Alaska
allele accumulation
Alleles
Anthropogenic factors
Archipelagoes
Climate change
Colonization
Coniferous trees
Conifers
Dispersal
Dispersion
Distance
Evolution
Gene flow
Genetic diversity
Genetic structure
Genetic Variation
Genotyping
Geography
Heterozygote
Northern Hemisphere
Picea - genetics
Picea - growth & development
Picea - physiology
Picea sitchensis
Plant diversity
Plant species
Pollen
Pollen - physiology
Polymorphism, Single Nucleotide - genetics
Population dynamics
Population growth
population history
population structure
range expansion
Recovery
Recruitment
Time Factors
tree ring
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Summary:Tree species in the northern hemisphere are currently subject to rapid anthropogenic climate change and are shifting their ranges in response. This prompts questions about the mechanisms allowing tree populations to respond quickly to selection pressures when establishing into new areas. Focusing on the northern expanding range edge of Picea sitchensis, a widespread conifer of western North America, we ask how genetic structure and diversity develop during colonization, and assess the role of demographic history in shaping the evolutionary trajectory of an establishing population. We combined 500 yr of tree-ring and genotyping-by-sequencing data in 639 trees at the expansion front on the Kodiak Archipelago. We show that alleles accumulated rapidly during an increase in recruitment rate in the early 1700s. A shift from foreign to local pollen flow subsequently homogenized genetic structure at the expansion front. Taking advantage of the exceptional longevity of conifers, we highlight the major role of long-distance pollen dispersal in the rapid but incomplete recovery of genetic diversity during the initial stages of colonization. We also warn that slow initial population growth as well as long-lasting dominance of local gene flow by early founders could increase evolutionary load under a rapidly changing climate.
ISSN:0028-646X
1469-8137
DOI:10.1111/nph.15615