Paleorecords Reveal Biological Mechanisms Crucial for Reliable Species Range Shift Projections Amid Rapid Climate Change
Copyright policy )Paleorecords Reveal Biological Mechanisms Crucial for Reliable Species Range Shift Projections Amid Rapid Climate Change
ABSTRACTThe recent acceleration of global climate warming has created an urgent need for reliable projections of species distributions, widely used by natural resource managers. Such projections have been mainly produced by species distribution models with little information on their performances in novel climates. Here, we hindcast the range shifts of forest tree species across Europe over the last 12,000 years to compare the reliability of three different types of models. We show that in the most climatically dissimilar conditions, process‐explicit models (PEMs) tend to outperform correlative species distribution models (CSDMs), and that PEM projections are likely to be more reliable than those made with CSDMs by the end of the 21st century. These results demonstrate for the first time the often promoted albeit so far untested idea that explicit description of mechanisms confers model robustness, and highlight a new avenue to increase model projection reliability in the future.
- University of Lille France
- University of Helsinki Finland
- University of Technology Sydney Australia
- James Cook University Australia
- Département Sciences sociales, agriculture et alimentation, espace et environnement France
[SDE] Environmental Sciences, 570, Letter, Plant Dispersal, Climate Change, species range shift, Model transferability, model transferability, Forests, Models, Biological, Trees, Europe, climate change,ecological modelling,hindcasting,model transferability,species range shift, climate change, [SDV.EE.BIO] Life Sciences [q-bio]/Ecology, environment/Bioclimatology, Ecology, evolutionary biology, [SDE]Environmental Sciences, hindcasting, Climate change, ecological modelling, Hindcasting, Species range shift, Ecological modelling
[SDE] Environmental Sciences, 570, Letter, Plant Dispersal, Climate Change, species range shift, Model transferability, model transferability, Forests, Models, Biological, Trees, Europe, climate change,ecological modelling,hindcasting,model transferability,species range shift, climate change, [SDV.EE.BIO] Life Sciences [q-bio]/Ecology, environment/Bioclimatology, Ecology, evolutionary biology, [SDE]Environmental Sciences, hindcasting, Climate change, ecological modelling, Hindcasting, Species range shift, Ecological modelling
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