AttentionFire_v1.0: interpretable machine learning fire model for burned-area predictions over tropics

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Abstract African and South American (ASA) wildfires account for more than 70 % of global burned areas and have strong connection to local climate for sub-seasonal to seasonal wildfire dynamics. However, representation of the wildfire–climate relationship remains challenging due to spatiotemporally heterogenous responses of wildfires to climate variability and human influences. Here, we developed an interpretable machine learning (ML) fire model (AttentionFire_v1.0) to resolve the complex controls of climate and human activities on burned areas and to better predict burned areas over ASA regions. Our ML fire model substantially improved predictability of burned areas for both spatial and temporal dynamics compared with five commonly used machine learning models. More importantly, the model revealed strong time-lagged control from climate wetness on the burned areas. The model also predicted that, under a high-emission future climate scenario, the recently observed declines in burned area will reverse in South America in the near future due to climate changes. Our study provides a reliable and interpretable fire model and highlights the importance of lagged wildfire–climate relationships in historical and future predictions.

Location: Deutsche Nationalbibliothek Frankfurt am Main

Extent: Online-Ressource

Language: Englisch

Bibliographic citation: AttentionFire_v1.0: interpretable machine learning fire model for burned-area predictions over tropics ; volume:16 ; number:3 ; year:2023 ; pages:869-884 ; extent:16
Geoscientific model development ; 16, Heft 3 (2023), 869-884 (gesamt 16)

Creator: Li, Fa
Zhu, Qing
Riley, William J.
Zhao, Lei
Xu, Li
Yuan, Kunxiaojia
Chen, Min
Wu, Huayi
Gui, Zhipeng
Gong, Jianya
Randerson, James T.

DOI: 10.5194/gmd-16-869-2023

URN: urn:nbn:de:101:1-2023033007390067273667

Rights: Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.

Last update: 14.08.2025, 10:45 AM CEST

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Li, Fa
Zhu, Qing
Riley, William J.
Zhao, Lei
Xu, Li
Yuan, Kunxiaojia
Chen, Min
Wu, Huayi
Gui, Zhipeng
Gong, Jianya
Randerson, James T.

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