Changes in climate are affecting the distribution and status of species on a global scale, through alteration of factors including their phenology, growth and ecological interactions. These alterations are often most apparent at species range edges, where changes to conditions previously limiting the species distribution can result in range shifts. In this paper, we review the rapid recent increase in our understanding of the factors limiting the distribution of a species to explore how the interaction of biotic and abiotic factors is likely to significantly alter its range edge behaviour beyond our current predictive capacity. We focus on Scots pine (Pinus sylvestris L.), one of the most abundant tree species on the globe. Glacial refugia ...
Forests provide important ecosystem services and renewable materials. Yet, under a future climate, o...
Most populations of Scots pine in Spain are locally adapted to drought, with only a few populations ...
Current predictions on species responses to climate change strongly rely on projecting altered envir...
Changes in climate are affecting the distribution and status of species on a global scale, through a...
Ongoing changes in global climate are having a significant impact on the distribution of plant speci...
Ongoing changes in global climate are altering ecological conditions for many species. The consequen...
Background and Aims Although extreme climatic events such as drought are known to modify forest dyna...
Global change triggers shifts in forest composition, with warming and aridification being particular...
Global change triggers shifts in forest composition, with warming and aridification being particular...
Tree growth and survival were assessed in 283 populations of Scots pine (Pinus sylvestris L.) origin...
<div><p>Global change triggers shifts in forest composition, with warming and aridification being pa...
International audienceIt is agreed that climate (precipitation and temperature) influences the distr...
Global change triggers shifts in forest composition, with warming and aridification being particular...
Comunicación oral presentada en the XIV MEDECOS & XIII AEET meeting, Seville, Spain, 31st January - ...
1. Abiotic factors, biotic interactions and dispersal ability determine the spatial distribution of ...
Forests provide important ecosystem services and renewable materials. Yet, under a future climate, o...
Most populations of Scots pine in Spain are locally adapted to drought, with only a few populations ...
Current predictions on species responses to climate change strongly rely on projecting altered envir...
Changes in climate are affecting the distribution and status of species on a global scale, through a...
Ongoing changes in global climate are having a significant impact on the distribution of plant speci...
Ongoing changes in global climate are altering ecological conditions for many species. The consequen...
Background and Aims Although extreme climatic events such as drought are known to modify forest dyna...
Global change triggers shifts in forest composition, with warming and aridification being particular...
Global change triggers shifts in forest composition, with warming and aridification being particular...
Tree growth and survival were assessed in 283 populations of Scots pine (Pinus sylvestris L.) origin...
<div><p>Global change triggers shifts in forest composition, with warming and aridification being pa...
International audienceIt is agreed that climate (precipitation and temperature) influences the distr...
Global change triggers shifts in forest composition, with warming and aridification being particular...
Comunicación oral presentada en the XIV MEDECOS & XIII AEET meeting, Seville, Spain, 31st January - ...
1. Abiotic factors, biotic interactions and dispersal ability determine the spatial distribution of ...
Forests provide important ecosystem services and renewable materials. Yet, under a future climate, o...
Most populations of Scots pine in Spain are locally adapted to drought, with only a few populations ...
Current predictions on species responses to climate change strongly rely on projecting altered envir...