Carbon storage and sequestration in a eucalyptus productive zone in the Brazilian Cerrado, using the Ca-Markov/Random Forest and InVEST models

Tropical ecosystems in Brazil, particularly Mato Grosso do Sul, possess substantial greenhouse gas (GHG) mitigation potential through carbon sequestration in tree forests. However, the expansion of agricultural activities poses a threat to this potential. Notably, eucalyptus forests could enhance ca...

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Published in:Journal of cleaner production 2024-03, Vol.444, p.141291, Article 141291
Main Authors: Bacani, Vitor Matheus, Machado da Silva, Bruno Henrique, Ayumi de Souza Amede Sato, Amanda, Souza Sampaio, Bruna Dienifer, Rodrigues da Cunha, Elias, Pereira Vick, Erivelton, Ribeiro de Oliveira, Víncler Fernandes, Decco, Hermiliano Felipe
Format: Article
Language:English
Subjects:
Ecosystem services
Forestry
LULC prediction
Trade-offs
Três lagoas
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Summary:Tropical ecosystems in Brazil, particularly Mato Grosso do Sul, possess substantial greenhouse gas (GHG) mitigation potential through carbon sequestration in tree forests. However, the expansion of agricultural activities poses a threat to this potential. Notably, eucalyptus forests could enhance carbon sequestration and reduce GHG emissions. This study focused on Três Lagoas, known as Brazil's cellulose capital, and aimed to evaluate carbon stock and sequestration for 2030 under business as usual (BAU) and protected forest (PF) scenarios. Combining Cellular Automata (CA) and Random Forest models implemented in Patch-Generating Land Use Simulation (PLUS) and the Integrated Valuation of Ecosystem Services and Tradeoffs (InVEST) model, we simulated land use scenarios and assessed ecosystem services generated by carbon sequestration. The results showed that the PF scenario indicated a higher total carbon stock than the BAU scenario, with a difference of 2.48 Tg. Carbon sequestration varied by period and scenario. Between 2010 and 2020, 3.88 Tg of carbon were sequestered. However, in the next period (2020–2030), the BAU scenario estimated 2.45 Tg in total carbon sequestration. In contrast, the PF scenario predicted 4.93 Tg of carbon sequestration for 2020–2030, surpassing the previous decade. Monetarily, carbon sequestration in 2010–2020 amounted to $92.48 million, decreasing to $58.49 million for 2020–2030 in the BAU scenario. In the PF scenario, sequestration for 2020–2030 increased to $ 117.43 million, nearly double that of the BAU scenario. In conclusion, combining the Ca-Markov/Random Forest and InVEST models revealed the spatiotemporal dynamics of carbon stock and sequestration in the municipality with the largest eucalyptus-planted area in Brazil. The results underscore the significant variability in carbon stocks and sequestration based on classes, periods, and scenarios analyzed. This study contributes valuable insights into the potential for carbon mitigation in this critical region. [Display omitted] •Carbon capture in Três Lagoas doubles when forests are protected.•Business-as-usual threatens carbon capture in Brazil's cellulose capital.•AI and remote sensing reveal spatio-temporal dynamics of carbon storage and capture.•Under protection scenarios, Forest/Savanna emerges as a leader in carbon capture.•Protecting Três Lagoas' forests is a sustainable choice for climate and economy.
ISSN:0959-6526
DOI:10.1016/j.jclepro.2024.141291