13 Pág.Phenotypic plasticity and local adaptation are the two main processes underlying trait variability. Under rapid environmental change, phenotypic plasticity, if adaptive, could increase the odds for organisms to persist. However, little is known on how environmental variation has shaped plasticity across species ranges over time. Here, we assess whether the portion of phenotypic variation of tree populations linked to the environment is related to the inter-annual climate variability of the last century and how it varies among populations across species ranges and age. To this aim, we used 372,647 individual tree height measurements of three pine species found in low elevation forests in Europe: Pinus nigra Arnold, P. pinaster Aiton a...
Predicting species distribution changes in global warming requires an understanding of how climatic ...
Background: Genetic differentiation in phenotypic traits is often observed among forest tree populat...
Population response functions based on climatic and phenotypic data from common gardens have long be...
13 Pág.Phenotypic plasticity and local adaptation are the two main processes underlying trait variab...
Aim: To test whether adaptive and plastic trait responses to climate across species distribution ran...
Aim To test whether intraspecific trait responses to climate among populations across species distri...
Aim: To test whether adaptive and plastic trait responses to climate across species distribution ran...
Tree height-diameter allometry, the link between tree height and trunk diameter, reflects the evolut...
International audienceConcerns are rising about the capacity of species to adapt quickly enough to c...
How populations of long-living species respond to climate change depends on phenotypic plasticity an...
Plant species aboveground allometry can be viewed as a functional trait that reflects the evolutiona...
Most populations of Scots pine in Spain are locally adapted to drought, with only a few populations ...
The natural distribution, habitat, growth and evolutionary history of tree species are strongly depe...
Forests provide important ecosystem services and renewable materials. Yet, under a future climate, o...
Predicting species distribution changes in global warming requires an understanding of how climatic ...
Background: Genetic differentiation in phenotypic traits is often observed among forest tree populat...
Population response functions based on climatic and phenotypic data from common gardens have long be...
13 Pág.Phenotypic plasticity and local adaptation are the two main processes underlying trait variab...
Aim: To test whether adaptive and plastic trait responses to climate across species distribution ran...
Aim To test whether intraspecific trait responses to climate among populations across species distri...
Aim: To test whether adaptive and plastic trait responses to climate across species distribution ran...
Tree height-diameter allometry, the link between tree height and trunk diameter, reflects the evolut...
International audienceConcerns are rising about the capacity of species to adapt quickly enough to c...
How populations of long-living species respond to climate change depends on phenotypic plasticity an...
Plant species aboveground allometry can be viewed as a functional trait that reflects the evolutiona...
Most populations of Scots pine in Spain are locally adapted to drought, with only a few populations ...
The natural distribution, habitat, growth and evolutionary history of tree species are strongly depe...
Forests provide important ecosystem services and renewable materials. Yet, under a future climate, o...
Predicting species distribution changes in global warming requires an understanding of how climatic ...
Background: Genetic differentiation in phenotypic traits is often observed among forest tree populat...
Population response functions based on climatic and phenotypic data from common gardens have long be...