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Tree cover and its heterogeneity in natural ecosystems is linked to large herbivore biomass globally

Wang, Lanhui LU ; Cromsigt, Joris P.G.M. ; Buitenwerf, Robert ; Lundgren, Erick J. ; Li, Wang ; Bakker, Elisabeth S. and Svenning, Jens Christian (2023) In One Earth 6(12). p.1759-1770
Abstract

Addressing intertwined crises of climate change and biodiversity loss is a pressing global challenge, with trees playing pivotal roles in promoting carbon sequestration and habitat diversity. However, there is a distinct knowledge gap concerning the global drivers shaping tree cover and its heterogeneity, particularly the roles and relative importance of large herbivores and fire compared to climatic and topo-edaphic conditions. Here, we deploy satellite observations of strictly protected areas worldwide to reveal that in regions where vegetation may be in disequilibrium with climate, high biomass of large herbivores, especially browsers, is inversely related to tree cover but positively associated with its spatial heterogeneity.... (More)

Addressing intertwined crises of climate change and biodiversity loss is a pressing global challenge, with trees playing pivotal roles in promoting carbon sequestration and habitat diversity. However, there is a distinct knowledge gap concerning the global drivers shaping tree cover and its heterogeneity, particularly the roles and relative importance of large herbivores and fire compared to climatic and topo-edaphic conditions. Here, we deploy satellite observations of strictly protected areas worldwide to reveal that in regions where vegetation may be in disequilibrium with climate, high biomass of large herbivores, especially browsers, is inversely related to tree cover but positively associated with its spatial heterogeneity. Conversely, fire reduces both tree cover and heterogeneity. These results suggest that top-down megafauna effects on landscape-scale vegetation openness and heterogeneity manifest worldwide. Our finding supports the need to consider megafauna, particularly large herbivores, in ecosystem effects on climate change mitigation and conservation and restoration efforts through trophic rewilding.

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author
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organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
alternative biome states, fire, landscape heterogeneity, large herbivores, megafauna, rewilding, top-down control, tree cover heterogeneity, trophic cascade, vegetation openness
in
One Earth
volume
6
issue
12
pages
12 pages
publisher
Cell Press
external identifiers
  • scopus:85177068072
ISSN
2590-3330
DOI
10.1016/j.oneear.2023.10.007
language
English
LU publication?
yes
id
9e0c1efc-d569-4638-95ab-189007bf29f0
date added to LUP
2024-01-09 11:13:17
date last changed
2024-01-09 11:14:05
@article{9e0c1efc-d569-4638-95ab-189007bf29f0,
  abstract     = {{<p>Addressing intertwined crises of climate change and biodiversity loss is a pressing global challenge, with trees playing pivotal roles in promoting carbon sequestration and habitat diversity. However, there is a distinct knowledge gap concerning the global drivers shaping tree cover and its heterogeneity, particularly the roles and relative importance of large herbivores and fire compared to climatic and topo-edaphic conditions. Here, we deploy satellite observations of strictly protected areas worldwide to reveal that in regions where vegetation may be in disequilibrium with climate, high biomass of large herbivores, especially browsers, is inversely related to tree cover but positively associated with its spatial heterogeneity. Conversely, fire reduces both tree cover and heterogeneity. These results suggest that top-down megafauna effects on landscape-scale vegetation openness and heterogeneity manifest worldwide. Our finding supports the need to consider megafauna, particularly large herbivores, in ecosystem effects on climate change mitigation and conservation and restoration efforts through trophic rewilding.</p>}},
  author       = {{Wang, Lanhui and Cromsigt, Joris P.G.M. and Buitenwerf, Robert and Lundgren, Erick J. and Li, Wang and Bakker, Elisabeth S. and Svenning, Jens Christian}},
  issn         = {{2590-3330}},
  keywords     = {{alternative biome states; fire; landscape heterogeneity; large herbivores; megafauna; rewilding; top-down control; tree cover heterogeneity; trophic cascade; vegetation openness}},
  language     = {{eng}},
  month        = {{12}},
  number       = {{12}},
  pages        = {{1759--1770}},
  publisher    = {{Cell Press}},
  series       = {{One Earth}},
  title        = {{Tree cover and its heterogeneity in natural ecosystems is linked to large herbivore biomass globally}},
  url          = {{http://dx.doi.org/10.1016/j.oneear.2023.10.007}},
  doi          = {{10.1016/j.oneear.2023.10.007}},
  volume       = {{6}},
  year         = {{2023}},
}