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Predictive Modelling of Contagious Deforestation in the Brazilian Amazon

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  • Isabel M D Rosa
  • Drew Purves
  • Carlos Souza Jr
  • Robert M Ewers

Abstract

Tropical forests are diminishing in extent due primarily to the rapid expansion of agriculture, but the future magnitude and geographical distribution of future tropical deforestation is uncertain. Here, we introduce a dynamic and spatially-explicit model of deforestation that predicts the potential magnitude and spatial pattern of Amazon deforestation. Our model differs from previous models in three ways: (1) it is probabilistic and quantifies uncertainty around predictions and parameters; (2) the overall deforestation rate emerges “bottom up”, as the sum of local-scale deforestation driven by local processes; and (3) deforestation is contagious, such that local deforestation rate increases through time if adjacent locations are deforested. For the scenarios evaluated–pre- and post-PPCDAM (“Plano de Ação para Proteção e Controle do Desmatamento na Amazônia”)–the parameter estimates confirmed that forests near roads and already deforested areas are significantly more likely to be deforested in the near future and less likely in protected areas. Validation tests showed that our model correctly predicted the magnitude and spatial pattern of deforestation that accumulates over time, but that there is very high uncertainty surrounding the exact sequence in which pixels are deforested. The model predicts that under pre-PPCDAM (assuming no change in parameter values due to, for example, changes in government policy), annual deforestation rates would halve between 2050 compared to 2002, although this partly reflects reliance on a static map of the road network. Consistent with other models, under the pre-PPCDAM scenario, states in the south and east of the Brazilian Amazon have a high predicted probability of losing nearly all forest outside of protected areas by 2050. This pattern is less strong in the post-PPCDAM scenario. Contagious spread along roads and through areas lacking formal protection could allow deforestation to reach the core, which is currently experiencing low deforestation rates due to its isolation.

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  • Isabel M D Rosa & Drew Purves & Carlos Souza Jr & Robert M Ewers, 2013. "Predictive Modelling of Contagious Deforestation in the Brazilian Amazon," PLOS ONE, Public Library of Science, vol. 8(10), pages 1-14, October.
    • Handle: RePEc:plo:pone00:0077231
    DOI: 10.1371/journal.pone.0077231
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    2. Stefanes, Mauricio & Roque, Fabio de Oliveira & Lourival, Reinaldo & Melo, Isabel & Renaud, Pierre Cyril & Quintero, Jose Manuel Ochoa, 2018. "Property size drives differences in forest code compliance in the Brazilian Cerrado," Land Use Policy, Elsevier, vol. 75(C), pages 43-49.
    3. Brandão, Frederico & Befani, Barbara & Soares-Filho, Jaílson & Rajão, Raoni & Garcia, Edenise, 2023. "How to halt deforestation in the Amazon? A Bayesian process-tracing approach," Land Use Policy, Elsevier, vol. 133(C).
    4. Guerra, Angélica & Roque, Fabio de Oliveira & Garcia, Letícia Couto & Ochoa-Quintero, José Manuel & Oliveira, Paulo Tarso Sanches de & Guariento, Rafael Dettogni & Rosa, Isabel M.D., 2020. "Drivers and projections of vegetation loss in the Pantanal and surrounding ecosystems," Land Use Policy, Elsevier, vol. 91(C).
    5. Shimada, Hideki, 2020. "Do monetary rewards for spatial coordination enhance participation in a forest incentive program?," Ecological Economics, Elsevier, vol. 177(C).
    6. Evan B Brooks & John W Coulston & Kurt H Riitters & David N Wear, 2020. "Using a hybrid demand-allocation algorithm to enable distributional analysis of land use change patterns," PLOS ONE, Public Library of Science, vol. 15(10), pages 1-21, October.
    7. Pereira, Alexia Saleme Aona de Paula & dos Santos, Vitor Juste & Alves, Sabrina do Carmo & Amaral e Silva, Arthur & da Silva, Charles Gomes & Calijuri, Maria Lúcia, 2022. "Contribution of rural settlements to the deforestation dynamics in the Legal Amazon," Land Use Policy, Elsevier, vol. 115(C).
    8. Katrina Mullan & Erin Sills & Subhrendu K. Pattanayak & Jill Caviglia-Harris, 2018. "Converting Forests to Farms: The Economic Benefits of Clearing Forests in Agricultural Settlements in the Amazon," Environmental & Resource Economics, Springer;European Association of Environmental and Resource Economists, vol. 71(2), pages 427-455, October.
    9. Zhang, Yajuan & Zhang, Lijin & Wang, Huan & Wang, Yueyao & Ding, Jiaqi & Shen, Jiashu & Wang, Zheng & Liu, Yinglu & Liang, Chenyu & Li, Shuangcheng, 2022. "Reconstructing deforestation patterns in China from 2000 to 2019," Ecological Modelling, Elsevier, vol. 465(C).
    10. Aquilué, Núria & De Cáceres, Miquel & Fortin, Marie-Josée & Fall, Andrew & Brotons, Lluís, 2017. "A spatial allocation procedure to model land-use/land-cover changes: Accounting for occurrence and spread processes," Ecological Modelling, Elsevier, vol. 344(C), pages 73-86.
    11. Peter Richards, 2018. "It’s not just where you farm; it’s whether your neighbor does too. How agglomeration economies are shaping new agricultural landscapes," Journal of Economic Geography, Oxford University Press, vol. 18(1), pages 87-110.
    12. Alves, Maria Tereza Ribeiro & Piontekowski, Valderli Jorge & Buscardo, Erika & Pedlowski, Marcos Antonio & Sano, Edson Eyji & Matricardi, Eraldo Aparecido Trondoli, 2021. "Effects of settlement designs on deforestation and fragmentation in the Brazilian Amazon," Land Use Policy, Elsevier, vol. 109(C).

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