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  Resilience Indicators for Tropical Rainforests in a Dynamic Vegetation Model

Bathiany, S., Nian, D., Drüke, M., Boers, N. (2024): Resilience Indicators for Tropical Rainforests in a Dynamic Vegetation Model. - Global Change Biology, 30, 12, e17613.
https://doi.org/10.1111/gcb.17613

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Global Change Biology - 2024 - Bathiany - Resilience Indicators for Tropical Rainforests in a Dynamic Vegetation Model.pdf (Publisher version), 3MB
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Global Change Biology - 2024 - Bathiany - Resilience Indicators for Tropical Rainforests in a Dynamic Vegetation Model.pdf
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https://zenodo.org/records/14188139 (Supplementary material)
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 Creators:
Bathiany, Sebastian1, Author              
Nian, Da1, Author              
Drüke, Markus1, Author              
Boers, Niklas1, Author              
Affiliations:
1Potsdam Institute for Climate Impact Research, ou_persistent13              

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 Abstract: Tropical forests and particularly the Amazon rainforest have been identified as potential tipping elements in the Earth system. According to a dynamical systems theory, a decline in forest resilience preceding a potential shift to a savanna-like biome could manifest as increasing autocorrelation of biomass time series. Recent satellite records indeed exhibit such a trend and also show larger autocorrelation, indicative of reduced resilience, in drier forest regions. However, it is unclear which processes underlie these observational findings and on which scales they operate. Here, we investigate which processes determine tropical forest resilience in the stand-alone, state-of-the-art dynamic global vegetation model LPJmL. We find that autocorrelation is higher in dry climates than wet climates (approx. 0.75 vs. 0.2, for a lag of 10 years), which qualitatively agrees with observations. By constructing a reduced version of LPJmL and by disabling and enabling certain processes in the model, we show that (i) this pattern is associated with population dynamics operating on different time scales in different climates and (ii) that the pattern is sensitive to the allocation of carbon to different pools, especially in years of stress. Both processes are highly uncertain, oversimplified or even lacking in most Earth system models. Our results indicate that the observed spatial variations and trends in vegetation resilience indicators may be explained by local physiological and ecological mechanisms alone, without climate–vegetation feedbacks. In principle, this is consistent with the view that the Amazon rainforest is responding to climate change locally and does not necessarily need to approach one large-scale tipping point, although the latter cannot be ruled out based on our findings.

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Language(s): eng - English
 Dates: 2024-11-182024-12-062024-12-06
 Publication Status: Finally published
 Pages: 17
 Publishing info: -
 Table of Contents: -
 Rev. Type: Peer
 Identifiers: DOI: 10.1111/gcb.17613
PIKDOMAIN: RD4 - Complexity Science
Organisational keyword: RD4 - Complexity Science
Organisational keyword: FutureLab - Artificial Intelligence in the Anthropocene
Model / method: Nonlinear Data Analysis
Research topic keyword: Tipping Elements
MDB-ID: No MDB - stored outside PIK (see locators/paper)
OATYPE: Hybrid Open Access
 Degree: -

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Project name : ClimTip
Grant ID : 101137601
Funding program : Horizon Europe (HE)
Funding organization : European Commission (EC)

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Title: Global Change Biology
Source Genre: Journal, SCI, Scopus, p3
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Publ. Info: -
Pages: - Volume / Issue: 30 (12) Sequence Number: e17613 Start / End Page: - Identifier: CoNE: https://publications.pik-potsdam.de/cone/journals/resource/journals192
Publisher: Wiley