Biblioteca
Recursos Selecionados para Aprofundamento
Acesse um repositório curado de documentos, PDFs e leituras que apoiam análises, aprendizado e cooperação na região amazônica.
Deep Learning for Satellite-Based Forest Disturbance Monitoring: Recent Advances and Challenges
Carolina Natel, Christoph Molnar, Ricardo Dalagnol, Peer Nowack
This article examines how deep learning is improving the detection and monitoring of forest disturbances worldwide. It highlights advances, challenges and future priorities for global forest monitoring
Forest recovery pathways after fire, drought, and windstorms in southeastern Amazonia
Leandro Maracahipes, Paulo M.brando, Divino V. Silvério, Leonardo Maracahipes-Santos, Antônio C. Silveiro, Larissa Verona, Marcia N. Macedo, Susan Trumbore, Eddie Lenza, Bela Starinchak, Nathalia Potter, David Herrera-Ramírez, Fernanda de V. Barros, Maria del Rosario Uribe, Lachlan Byrnes, André F. A. Andrade, Elisangela X. Rocha, Ludmila Rattis, TayñaF. Nunes, Rafael S. Oliveira.
In the Amazon–Cerrado transition, degraded forests showed the capacity to recover after fires. However, recovering communities remained vulnerable to renewed droughts, fires and other disturbances.
Historical deforestation drives strong rainfall decline across the southern Amazon basin
Jiangpeng Cui (崔江鹏), Shilong Piao (朴世龙), Chris Huntingford, Tao Wang (汪涛) & Dominick V. Spracklen
Using satellites and moisture tracking (1980–2019), the study links southern Amazon deforestation to 8–11% rainfall decline, driving most precipitation loss and suggesting climate models underestimate deforestation impacts.
How climate variability modes influenced the fires in South America during the extreme droughts of 2023–2024
Renato Trevisan Signori, Leonardo Mamani, Wallace Cevalho, Itamara Parente de Souza, Mary Toshie Kayano, Maria Betânia Leal de Oliveira, Wilmar L. Céron , Rita Valéria Andreoli, Rodrigo Augusto F. de Souza.
This article examines how ocean temperature anomalies influenced droughts and wildfire activity in the Amazon and the Cerrado during the 2023–2024 period. The interaction between climate modes intensified drought conditions and altered wildfire patterns.
Incorporating river morphodynamics in the characterization of key ecological system units for conservation in the western Amazon
L. Dominguez-Ruben, T. V. Rojas, P. Petry, R. Loayza-Muro, E. Toledo-Ruiz, A. Cardenas & J. D. Abad
The study proposes a conservation blueprint for western Amazon basins, using new indices (MOR, SSI) to assess river integrity, biodiversity and human pressure, prioritizing high-integrity areas for targeted conservation planning.
Satellite-based land surface temperature and soil moisture observed during the 2023–2024 drought–heatwave events in the Amazon Basin
Vitor F V V Miranda, Ronaldo Albuquerque, João Geirinhas, Leonardo F Peres, Renata Libonati, Juan Carlos Jimenez & Isabel F Trigo
This paper examines the Brazilian Cattle Agreement, a major effort to curb Amazon deforestation from pasture expansion, highlighting both the potential and limits of value chain approaches to reducing tropical forest loss.
Understanding fire occurrence drivers and their evolution in distinct fire regimes: a comparative analysis of Bolivia, Canada, and Spain over two decades
Fátima Arrogantes-Funes, Adrián G. Bruzón, Patricia Arrogante-Funes, Adriana Álvares-Ripado, Magi Franquesa & Inmaculada Aguado.
This article compares the factors contributing to wildfires in Bolivia, Canada, and Galicia between 2000 and 2020. The results show that climate, vegetation, and human influences affect wildfire occurrence differently across contrasting fire regimes.
Amazon dieback beyond the 21st century under high-emission scenarios by Earth System models
Irina Melnikova, Tomohiro Hajima, Hideo Shiogama, Michiya Hayashi, Akihiko Ito, Kazuya Nishina, Kaoru Tachiiri & Tokuta Yokohata
Using Earth System Models, the study finds most project Amazon dieback this century under high emissions, triggered by high heat and low rainfall, worsened by land-use change, and linked to atmospheric circulation shifts.
AMOC weakening modulates global warming impacts on precipitation over Brazil
I. Vilela, P. De Luca, S. Koseki, T. Silva, D. Veleda & N. Keenlyside
This paper guides the climate finance community on forests’ value, the risks they face under climate change, and how traditional and innovative finance tools can protect forest-related assets.
