AI Article Synopsis
- Scientists and resource managers prioritize predicting species' range shifts due to climate change, traditionally expecting poleward movements but often observing unexpected patterns.
- Understanding species distribution mechanisms is crucial to clarify these range shifts and their relationship to climate factors.
- Our study on temperature metrics along the European Atlantic coast reveals geographic variability, suggesting that using the wrong metrics can misinterpret range shifts, potentially leading to inaccurate conclusions about climate change impacts.
Article Abstract
Predicting the extent and direction of species' range shifts is a major priority for scientists and resource managers. Seminal studies have fostered the notion that biological systems responding to climate change-impacted variables (e.g., temperature, precipitation) should exhibit poleward range shifts but shifts contrary to that expectation have been frequently reported. Understanding whether those shifts are indeed contrary to climate change predictions involves understanding the most basic mechanisms determining the distribution of species. We assessed the patterns of ecologically relevant temperature metrics (e.g., daily range, min, max) along the European Atlantic coast. Temperature metrics have contrasting geographical patterns and latitude or the grand mean are poor predictors for many of them. Our data suggest that unless the appropriate metrics are analysed, the impact of climate change in even a single metric of a single stressor may lead to range shifts in directions that would otherwise be classified as "contrary to prediction".
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4526865 | PMC |
| http://dx.doi.org/10.1038/srep12930 | DOI Listing |
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