Distributional shifts in species ranges provide critical evidence of ecological responses to climate change. Assessments of climate-driven changes typically focus on broad-scale range shifts (e.g. poleward or upward), with ecological consequences at regional and local scales commonly overlooked. While these changes are informative for species presenting continuous geographic ranges, many species have discontinuous distributions-both natural (e.g. mountain or coastal species) or human-induced (e.g. species inhabiting fragmented landscapes)-where within-range changes can be significant. Here, we use an ecosystem engineer species (Sabellaria alveolata) with a naturally fragmented distribution as a case study to assess climate-driven changes in...
International audienceGlobal biodiversity declines, largely driven by climate and land‐use changes, ...
Over the past decade, species distribution models (SDMs) have become an indispensable item in the ec...
Global change is expected to accelerate extinction rates substantially. Accurately predicting specie...
Distributional shifts in species ranges provide critical evidence of ecological responses to climate...
Recent studies suggest that species distribution models (SDMs) based on fine-scale climate data may ...
Assessing the impact of climate change on range dynamics is difficult in the absence of large-extent...
<div><p>Conservation planners often wish to predict how species distributions will change in respons...
Projected responses of species' to climate change have so far included few of the factors that are i...
Conservation planners often wish to predict how species distributions will change in response to env...
Climate change is transforming the structure of biological communities through the geographic extens...
Climate change and habitat fragmentation are considered key pressures on biodiversity. In this paper...
Species distribution models (SDMs) frequently project substantial declines in the spatial extent of ...
Aim: Niche-based models often ignore spatial variation in the climatic niche of a species across its...
Understanding the limits to species ranges and distributions remains a difficult and long-standing p...
Conservation planners often wish to predict how species distributions will change in response to env...
International audienceGlobal biodiversity declines, largely driven by climate and land‐use changes, ...
Over the past decade, species distribution models (SDMs) have become an indispensable item in the ec...
Global change is expected to accelerate extinction rates substantially. Accurately predicting specie...
Distributional shifts in species ranges provide critical evidence of ecological responses to climate...
Recent studies suggest that species distribution models (SDMs) based on fine-scale climate data may ...
Assessing the impact of climate change on range dynamics is difficult in the absence of large-extent...
<div><p>Conservation planners often wish to predict how species distributions will change in respons...
Projected responses of species' to climate change have so far included few of the factors that are i...
Conservation planners often wish to predict how species distributions will change in response to env...
Climate change is transforming the structure of biological communities through the geographic extens...
Climate change and habitat fragmentation are considered key pressures on biodiversity. In this paper...
Species distribution models (SDMs) frequently project substantial declines in the spatial extent of ...
Aim: Niche-based models often ignore spatial variation in the climatic niche of a species across its...
Understanding the limits to species ranges and distributions remains a difficult and long-standing p...
Conservation planners often wish to predict how species distributions will change in response to env...
International audienceGlobal biodiversity declines, largely driven by climate and land‐use changes, ...
Over the past decade, species distribution models (SDMs) have become an indispensable item in the ec...
Global change is expected to accelerate extinction rates substantially. Accurately predicting specie...