We evaluate genomic data, relative to phenotypic and climatic data, as a basis for assisted gene flow and genetic conservation. Using a common garden trial of 281 lodgepole pine (Pinus contorta) provenances from across western Canada, we compare genomic data to phenotypic and climatic data to assess their effectiveness in characterizing the climatic drivers and spatial scale of local adaptation in this species. We find that phenotype-associated loci are equivalent or slightly superior to climate data for describing local adaptation in seedling traits, but that climate data is superior to bulk genomic data that have not been selected for phenotypic associations. We also find agreement between the climate variables associated with genomic var...
Geographic variation in trees has been investigated since the mid-18th century. Similar patterns of ...
Hybrid zones contain extensive standing genetic variation that facilitates rapid responses to select...
Local adaptation to climate is common in plant species and has been studied in a range of contexts, ...
We evaluate genomic data, relative to phenotypic and climatic data, as a basis for assisted gene flo...
Climate change is disrupting local adaptation in temperate and boreal tree species. As climates shif...
Population response functions based on climatic and phenotypic data from common gardens have long be...
Locally adapted temperate tree populations exhibit genetic trade-offs among climate-related traits t...
International audiencePopulation response functions based on climatic and phenotypic data from commo...
Population genomic analysis can be an important tool in understanding local adaptation. Identificati...
Climate change is motivating a reassessment of how seeds are selected for reforestation, as rapid en...
Understanding adaptive genetic responses to climate change is a main challenge for preserving biolog...
When confronted with an adaptive challenge, such as extreme temperature, closely related species fre...
Local adaptation is a common feature of plant and animal populations. Adaptive phenotypic traits are...
Geographic variation in trees has been investigated since the mid-18th century. Similar patterns of ...
Hybrid zones contain extensive standing genetic variation that facilitates rapid responses to select...
Local adaptation to climate is common in plant species and has been studied in a range of contexts, ...
We evaluate genomic data, relative to phenotypic and climatic data, as a basis for assisted gene flo...
Climate change is disrupting local adaptation in temperate and boreal tree species. As climates shif...
Population response functions based on climatic and phenotypic data from common gardens have long be...
Locally adapted temperate tree populations exhibit genetic trade-offs among climate-related traits t...
International audiencePopulation response functions based on climatic and phenotypic data from commo...
Population genomic analysis can be an important tool in understanding local adaptation. Identificati...
Climate change is motivating a reassessment of how seeds are selected for reforestation, as rapid en...
Understanding adaptive genetic responses to climate change is a main challenge for preserving biolog...
When confronted with an adaptive challenge, such as extreme temperature, closely related species fre...
Local adaptation is a common feature of plant and animal populations. Adaptive phenotypic traits are...
Geographic variation in trees has been investigated since the mid-18th century. Similar patterns of ...
Hybrid zones contain extensive standing genetic variation that facilitates rapid responses to select...
Local adaptation to climate is common in plant species and has been studied in a range of contexts, ...