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Water availability predicts forest canopy height at the global scale
Author(s) -
Klein Tamir,
Randin Christophe,
Körner Christian
Publication year - 2015
Publication title -
ecology letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 6.852
H-Index - 265
eISSN - 1461-0248
pISSN - 1461-023X
DOI - 10.1111/ele.12525
Subject(s) - evapotranspiration , canopy , environmental science , taiga , precipitation , atmospheric sciences , tree canopy , physical geography , ecology , forest ecology , forest dynamics , ecosystem , geography , biology , geology , meteorology
The tendency of trees to grow taller with increasing water availability is common knowledge. Yet a robust, universal relationship between the spatial distribution of water availability and forest canopy height (H) is lacking. Here, we created a global water availability map by calculating an annual budget as the difference between precipitation (P) and potential evapotranspiration ( PET ) at a 1‐km spatial resolution, and in turn correlated it with a global H map of the same resolution. Across forested areas over the globe, H mean increased with P‐ PET , roughly: H mean (m) = 19.3 + 0.077*(P‐ PET ). Maximum forest canopy height also increased gradually from ~ 5 to ~ 50 m, saturating at ~ 45 m for P‐ PET > 500 mm. Forests were far from their maximum height potential in cold, boreal regions and in disturbed areas. The strong association between forest height and P‐ PET provides a useful tool when studying future forest dynamics under climate change, and in quantifying anthropogenic forest disturbance.

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