The South American monsoon approaches a critical transition in response to deforestation
Permanent link
https://hdl.handle.net/10037/31582Date
2023-10-04Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
The Amazon rainforest is threatened by land-use change and increasing drought and fire frequency. Studies
suggest an abrupt dieback of large parts of the rainforest after partial forest loss, but the critical threshold, underlying mechanisms, and possible impacts of forest degradation on the monsoon circulation remain uncertain.
Here, we use a nonlinear dynamical model of the moisture transport and recycling across the Amazon to identify
several precursor signals for a critical transition in the coupled atmosphere-vegetation dynamics. Guided by our
simulations, we reveal both statistical and physical precursor signals of an approaching critical transition in reanalysis and observational data. In accordance with our model results, we attribute these characteristic precursor signals to the nearing of a critical transition of the coupled Amazon atmosphere-vegetation system induced
by forest loss due to deforestation, droughts, and fires. The transition would lead to substantially drier conditions, under which the rainforest could likely not be maintained.
Is part of
Bochow, N. (2024). Modelling the Earth System - From Tipping Elements to Reconstructions. (Doctoral thesis). https://hdl.handle.net/10037/33717.Publisher
American Association for the Advancement of ScienceCitation
Bochow, Boers. The South American monsoon approaches a critical transition in response to deforestation. Science Advances. 2023Metadata
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