Improving our understanding of species ranges under rapid climate change requires application of our knowledge of the tolerance and adaptive capacity of populations to changing environmental conditions. Here, we describe an emerging modelling approach, ΔTraitSDM, which attempts to achieve this by explaining species distribution ranges based on phenotypic plasticity and local adaptation of fitness‐related traits measured across large geographical gradients. The collection of intraspecific trait data measured in common gardens spanning broad environmental clines has promoted the development of these new models – first in trees but now rapidly expanding to other organisms. We review, explain and harmonize the main findings from this new genera...
Aim: To test whether adaptive and plastic trait responses to climate across species distribution ran...
Aim Niche‐based models often ignore spatial variation in the climatic niche of a species across its ...
How populations of long-living species respond to climate change depends on phenotypic plasticity an...
Improving our understanding of species ranges under rapid climate change requires application of our...
Improving our understanding of species ranges under rapid climate change requires application of our...
International audienceSpecies are the unit of analysis in many global change and conservation biolog...
ABSTRACT Aim To assess the effect of local adaptation and phenotypic plasticity on the potential dis...
Species are the unit of analysis in many global change and conservation biology studies; however, sp...
Aim To better understand and more realistically predict future species distribution ranges, it is cr...
International audienceDespite the numerous studies which have been conducted during the past decade ...
Aim To better understand and more realistically predict future species distribution ranges, it is cr...
International audienceConcerns are rising about the capacity of species to adapt quickly enough to c...
Aim: To test whether adaptive and plastic trait responses to climate across species distribution ran...
Aim: To test whether adaptive and plastic trait responses to climate across species distribution ran...
Aim Niche‐based models often ignore spatial variation in the climatic niche of a species across its ...
How populations of long-living species respond to climate change depends on phenotypic plasticity an...
Improving our understanding of species ranges under rapid climate change requires application of our...
Improving our understanding of species ranges under rapid climate change requires application of our...
International audienceSpecies are the unit of analysis in many global change and conservation biolog...
ABSTRACT Aim To assess the effect of local adaptation and phenotypic plasticity on the potential dis...
Species are the unit of analysis in many global change and conservation biology studies; however, sp...
Aim To better understand and more realistically predict future species distribution ranges, it is cr...
International audienceDespite the numerous studies which have been conducted during the past decade ...
Aim To better understand and more realistically predict future species distribution ranges, it is cr...
International audienceConcerns are rising about the capacity of species to adapt quickly enough to c...
Aim: To test whether adaptive and plastic trait responses to climate across species distribution ran...
Aim: To test whether adaptive and plastic trait responses to climate across species distribution ran...
Aim Niche‐based models often ignore spatial variation in the climatic niche of a species across its ...
How populations of long-living species respond to climate change depends on phenotypic plasticity an...