Global patterns and climatic controls of forest structural complexity

The complexity of forest structures plays a crucial role in regulating forest ecosystem functions and strongly influences biodiversity. Yet, knowledge of the global patterns and determinants of forest structural complexity remains scarce. Using a stand structural complexity index based on terrestria...

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Bibliographic Details
Published in:Nature communications 2021-01, Vol.12 (1), p.519-12, Article 519
Main Authors: Ehbrecht, Martin, Seidel, Dominik, Annighöfer, Peter, Kreft, Holger, Köhler, Michael, Zemp, Delphine Clara, Puettmann, Klaus, Nilus, Reuben, Babweteera, Fred, Willim, Katharina, Stiers, Melissa, Soto, Daniel, Boehmer, Hans Juergen, Fisichelli, Nicholas, Burnett, Michael, Juday, Glenn, Stephens, Scott L., Ammer, Christian
Format: Article
Language:English
Subjects:
704/158/1145
704/158/2165
704/158/2445
704/158/852
Annual precipitation
Biodiversity
Climate
Climate Change
Community composition
Complexity
Conservation of Natural Resources - methods
Ecosystem
Environmental changes
Forest ecosystems
Forestry - methods
Forests
Geography
Humanities and Social Sciences
Lidar
Models, Theoretical
multidisciplinary
Plant diversity
Precipitation
Rain
Science
Science (multidisciplinary)
Seasonal variations
Seasons
Terrestrial ecosystems
Terrestrial environments
Trees - classification
Trees - growth & development
Tropical forests
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Summary:The complexity of forest structures plays a crucial role in regulating forest ecosystem functions and strongly influences biodiversity. Yet, knowledge of the global patterns and determinants of forest structural complexity remains scarce. Using a stand structural complexity index based on terrestrial laser scanning, we quantify the structural complexity of boreal, temperate, subtropical and tropical primary forests. We find that the global variation of forest structural complexity is largely explained by annual precipitation and precipitation seasonality (R² = 0.89). Using the structural complexity of primary forests as benchmark, we model the potential structural complexity across biomes and present a global map of the potential structural complexity of the earth´s forest ecoregions. Our analyses reveal distinct latitudinal patterns of forest structure and show that hotspots of high structural complexity coincide with hotspots of plant diversity. Considering the mechanistic underpinnings of forest structural complexity, our results suggest spatially contrasting changes of forest structure with climate change within and across biomes. Forest structure depends both on extrinsic factors such as climate and on intrinsic properties such as community composition and diversity. Here, the authors use a dataset of stand structural complexity based on LiDAR measurements to build a global map of structural complexity for primary forests, and find that precipitation variables best explain global patterns of forest structural complexity.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-020-20767-z