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Citações 2022 – 2021 – 2020

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*** Até 03/11/2025: 1.739 artigos em 560 periódicos ***

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2022 *

  1. ALENCAR, A. A. C. et al. Long-Term Landsat-Based Monthly Burned Area Dataset for the Brazilian Biomes Using Deep Learning. Remote Sensing, v. 14, n. 11, p. 2510, 24 maio 2022.
  2. ALMEIDA-MAUÉS, P. C. R. et al. Assessing assemblage-wide mammal responses to different types of habitat modification in Amazonian forests. Scientific Reports, v. 12, n. 1, p. 1797, dez. 2022.
  3. ANDELA, N. et al. Tracking and classifying Amazon fire events in near real time. Science Advances, v. 8, n. 30, p. eabd2713, 29 jul. 2022.
  4. ANDRADE, F. W. C. et al. The Legal Roundwood Market in the Amazon and Its Impact on Deforestation in the Region between 2009–2015. Forests, v. 13, n. 4, p. 558, 31 mar. 2022.
  5. ARAGÃO, R. B. DE A. et al. To clear or not to clear: Unpacking soy farmers’ decision-making on deforestation in Brazil’s Cerrado. Frontiers in Sustainable Food Systems, v. 6, p. 942207, 24 out. 2022.
  6. ASSIS, T. O. et al. Projections of future forest degradation and CO 2 emissions for the Brazilian Amazon. Science Advances, v. 8, n. 24, p. eabj3309, 17 jun. 2022.
  7. BARBOZA ARIAS, L. M.; MOURÃO SALHEB DO AMARAL, A. J. Futuro possível: (contra) narrativas do desenvolvimento para pensar a América Latina no contexto da pandemia da Covid-19. ÁNFORA, v. 29, n. 52, p. 124–156, 23 mar. 2022.
  8. BENZEEV, R. et al. What’s governance got to do with it? Examining the relationship between governance and deforestation in the Brazilian Amazon. PLOS ONE, v. 17, n. 6, p. e0269729, 23 jun. 2022.
  9. BRAGANÇA, A.; DAHIS, R. Cutting special interests by the roots: Evidence from the Brazilian Amazon. Journal of Public Economics, v. 215, p. 104753, 2022.
  10. BRANDÃO, M. V. et al. A new species of Akodon Meyen, 1833 (Rodentia: Cricetidae) from dry forests of the Amazonia-Cerrado transition. Zootaxa, v. 5205, n. 5, p. 401–435, 10 nov. 2022.
  11. BUTT, E. W. et al. Achieving Brazil’s Deforestation Target Will Reduce Fire and Deliver Air Quality and Public Health Benefits. Earth’s Future, v. 10, n. 12, 2022.
  12. CARAVAGGIO, N. Economic growth and forest transition in Latin America. Forest Policy and Economics, v. 135, p. 102667, fev. 2022.
  13. CARRERO, G. C. et al. Land grabbing in the Brazilian Amazon: Stealing public land with government approval. Land Use Policy, p. 106133, maio 2022.
  14. CARVALHO, R. et al. Lack of transparency and social participation undermine the fight against deforestation in Brazil. Journal of the Geographical Society of Berlin, v. 153, n. 1, p. 65–69, 2022.
  15. CISNEROS, E. et al. Impacts of conservation incentives in protected areas: The case of Bolsa Floresta, Brazil. Journal of Environmental Economics and Management, v. 111, p. 102572, jan. 2022.
  16. COLMAN DE AZEVEDO JUNIOR, W.; RODRIGUES, M.; COSTA CORREIA SILVA, D. Does agricultural efficiency contribute to slowdown of deforestation in the Brazilian Legal Amazon? Journal for Nature Conservation, v. 65, p. 126092, fev. 2022.
  17. COSTA, I. D. et al. Mercury in muscle and liver of Plagioscion squamosissimus (Acanthuriformes: Sciaenidae) from the Machado River, Brazilian Amazon. Acta Amazonica, v. 52, n. 1, p. 60–68, jan. 2022.
  18. CRISTO, L. DE A.; SANTOS, M. A.; MATLABA, V. J. Socioeconomic and Environmental Vulnerability Index in the Brazilian Amazon: The Case of the Carajás Railroad. The Extractive Industries and Society, p. 101128, jul. 2022.
  19. DA CRUZ, D. C. et al. Priority areas for restoration in permanent preservation areas of rural properties in the Brazilian Amazon. Land Use Policy, v. 115, p. 106030, abr. 2022.
  20. DA SILVA, L. B. et al. How future climate change and deforestation can drastically affect the species of monkeys endemic to the eastern Amazon, and priorities for conservation. Biodiversity and Conservation, 26 fev. 2022.
  21. DAL MOLIN, R.; RIZZOLI, P. Potential of Convolutional Neural Networks for Forest Mapping Using Sentinel-1 Interferometric Short Time Series. Remote Sensing, v. 14, n. 6, p. 1381, 12 mar. 2022.
  22. DE SOUZA, J. P. et al. Silvicultural interventions and agroforestry systems increase the economic and ecological value of Bertholletia excelsa plantations in the Amazon. Agroforestry Systems, 23 dez. 2022.
  23. DELAROCHE, M.; LE TOURNEAU, F.-M.; DAUGEARD, M. How vegetation classification and mapping may influence conservation: The example of Brazil’s Native Vegetation Protection Law. Land Use Policy, v. 122, p. 106380, 2022.
  24. DITTMAR, H. Operação Arquimedes e a destruição da floresta amazônica brasielira com a anuência do estado. RECIMA21 – Revista Científica Multidisciplinar – ISSN 2675-6218, v. 3, n. 3, p. e331260, 16 mar. 2022.
  25. DO PRADO, J. R. et al. Small mammal diversity of a poorly known and threatened Amazon region, the Tapajós Area of Endemism. Biodiversity and Conservation, 9 jul. 2022.
  26. DOMINGUEZ, D. et al. Forecasting Amazon Rain-Forest Deforestation Using a Hybrid Machine Learning Model. Sustainability, v. 14, n. 2, p. 691, 9 jan. 2022.
  27. DOS REIS, D. S. T. et al. Cryptococcosis: Identification of Risk Areas in the Brazilian Amazon. Microorganisms, v. 10, n. 7, p. 1411, 13 jul. 2022.
  28. DOS SANTOS, A. M. et al. Influence of deforestation inside and outside indigenous lands in the Brazilian Amazon Biome. Regional Environmental Change, v. 22, n. 2, p. 77, jun. 2022.
  29. DOS SANTOS MASSOCA, Paulo Eduardo; BRONDÍZIO, Eduardo Sonnewend. National policies encounter municipal realities: A critical analysis of the outcomes of the List of Priority Municipalities in curbing deforestation in the Brazilian Amazon. World Development, v. 158, p. 106004, 2022.
  30. ELLWANGER, J. H. et al. Synthesizing the connections between environmental disturbances and zoonotic spillover. Anais da Academia Brasileira de Ciências, v. 94, n. suppl 3, p. e20211530, 2022.
  31. ESTRADA-PEÑA, A. et al. One Health Approach to Identify Research Needs on Rhipicephalus microplus Ticks in the Americas. Pathogens, v. 11, n. 10, p. 1180, 13 out. 2022.
  32. FAWCETT, D. et al. Declining Amazon biomass due to deforestation and subsequent degradation losses exceeding gains. Global Change Biology, p. gcb.16513, 23 nov. 2022.
  33. FEARNSIDE, P. M. Amazon environmental services: Why Brazil’s Highway BR-319 is so damaging. Ambio, p. s13280- 022- 01718- y, 8 mar. 2022.
  34. FERREIRA DE MORAES, L. A.; FLOREANO, I. X. LULC zoning in the “Madeira river” settlement, legal Amazon, Brazil, before and after implementation of the rural environmental registry (CAR) (2008-2018). Environmental Development, v. 43, p. 100725, set. 2022.
  35. FILHO, Helvécio de Oliveira; OLIVEIRA-JÚNIOR, José Francisco de; SILVA, Marcos Vinícius da; et al. Dynamics of Fire Foci in the Amazon Rainforest and Their Consequences on Environmental Degradation. Sustainability, v. 14, n. 15, p. 9419, 2022.
  36. FIORINI, A. C. O. et al. Sustainable aviation fuels must control induced land use change: an integrated assessment modelling exercise for Brazil. Environmental Research Letters, 28 dez. 2022.
  37. FREITAS, J. S. et al. Necessity of Productive Association with Technological Innovations for Sustainability of Extractive Reserves in the Amazon. Journal of Management and Sustainability, v. 12, n. 1, p. 83, 19 abr. 2022.
  38. GALBIATI, L. A. et al. Ruptures from the cattle policy: An analysis according to the Sustainable Development Goals. Ambiente & Sociedade, v. 25, 16 dez. 2022.
  39. GARCIA JUNIOR, M. D. N. et al. The Brazilian Legal Amazon Odonatofauna: a perspective of diversity and knowledge gaps. EntomoBrasilis, v. 15, p. e977, 14 fev. 2022.
  40. GUEDES PINTO, L. F. et al. Governance lessons from the Atlantic Forest to the conservation of the Amazon. Perspectives in Ecology and Conservation, p. S2530064422000724, 2022.
  41. HOUGHTON, R. A.; CASTANHO, A. Annual emissions of carbon from land use, land-use change, and forestry 1850–2020. [s.l.] Earth System Science Data, 27 out. 2022. Disponível em: https://essd.copernicus.org/preprints/essd-2022-351/. Acesso em: 1 nov. 2022.
  42. KRAMER, C. K.; LEITÃO, C. B.; VIANA, L. V. The impact of urbanisation on the cardiometabolic health of Indigenous Brazilian peoples: a systematic review and meta-analysis, and data from the Brazilian Health registry. The Lancet, v. 400, n. 10368, p. 2074–2083, 2022.
  43. LE ROUX, R. et al. How wildfires increase sensitivity of Amazon forests to droughts. Environmental Research Letters, v. 17, n. 4, p. 044031, 1 abr. 2022.
  44. LIMA, M. et al. The “New Transamazonian Highway”: BR-319 and Its Current Environmental Degradation. Sustainability, v. 14, n. 2, p. 823, 12 jan. 2022.
  45. MA, C. et al. Characterizing Spatial Patterns of Amazon Rainforest Wildfires and Driving Factors by Using Remote Sensing and GIS Geospatial Technologies. Geosciences, v. 12, n. 6, p. 237, 5 jun. 2022.
  46. MACHIDA, F.; ANDRADE, E. Modeling and Analysis of Deforestation Prevention by Uncrewed Aerial Vehicles-based monitoring systems. Environmental Modelling & Software, v. 158, p. 105540, 2022.
  47. MARTINS, A. C. M. et al. Environmental heterogeneity and water availability shape the structure of phyllostomid bat assemblages (Mammalia: Chiroptera) in the northeastern Amazon forest. Forest Ecology and Management, v. 504, p. 119863, jan. 2022
  48. MATAVELI, Guilherme; DE OLIVEIRA, Gabriel; CHAVES, Michel E. D.; et al. Science‐based planning can support law enforcement actions to curb deforestation in the Brazilian Amazon. Conservation Letters, 2022. Disponível em: https://onlinelibrary.wiley.com/doi/10.1111/conl.12908. Acesso em: 27 jun. 2022.
  49. MATAVELI, G.; DE OLIVEIRA, G. Protect the Amazon’s Indigenous lands. Science, v. 375, n. 6578, p. 275–276, 21 jan. 2022.
  50. MOZ-CHRISTOFOLETTI, M. A.; PEREDA, P. C.; CAMPANHARO, W. Does Decentralized and Voluntary Commitment Reduce Deforestation? The Effects of Programa Municípios Verdes. Environmental and Resource Economics, 15 mar. 2022.
  51. MU, Y.; JONES, C. An observational analysis of precipitation and deforestation age in the Brazilian Legal Amazon. Atmospheric Research, v. 271, p. 106122, jun. 2022.
  52. NASCIMENTO, J. N. S.; SOUSA, L. H. S. DE; CRUZ, S. L. F. DA. Reflections of the New Brazilian Forest Code: Amazon in Focus. International Journal of Advanced Engineering Research and Science, v. 9, n. 1, p. 134–151, 2022.
  53. NICKERSON, S. et al. Forest loss is significantly higher near clustered small dams than single large dams per megawatt of hydroelectricity installed in the Brazilian Amazon. Environmental Research Letters, 19 jul. 2022.
  54. NUNES, G.; GIGLIO, T. Effects of climate change in the thermal and energy performance of low-income housing in Brazil—assessing design variable sensitivity over the 21st century. Renewable and Sustainable Energy Reviews, v. 168, p. 112885, out. 2022.
  55. OLIVEIRA, M. C.; SIQUEIRA, L. Digitalization between environmental activism and counter-activism: The case of satellite data on deforestation in the Brazilian Amazon. Earth System Governance, v. 12, p. 100135, abr. 2022.
  56. OLIVEIRA, U. et al. Determinants of Fire Impact in the Brazilian Biomes. Frontiers in Forests and Global Change, v. 5, p. 735017, 28 mar. 2022.
  57. ORTEGA ADARME, M. X.; COSTA, G. A. O. P.; FEITOSA, R. Q. Multi-Attention Ghostnet for Deforestation Detection in the Amazon Rainforest. ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences, v. V-3–2022, p. 657–664, 2022.
  58. PAULA, D. S.; ESCADA, M. I. S.; ORTIZ, J. O. Multitemporal Analysis of Land Use and Land Cover in the Amazon: The Expansion of Large-Scale Agriculture in the Curuá-Una River Basin. Revista Brasileira de Cartografia, v. 74, n. 2, 2022.
  59. PEDRO HENRIQUE OLIVEIRA SIMÕES et al. Biological use coefficient of biomass of Tachigali vulgaris under phosphorus and potassium fertilization: Management technologies for sustainable production of bioenergy in tropical countries. Australian Journal of Crop Science, v. 16, n. 05, p. 637–648, 2022.
  60. PEREIRA, A. S. A. DE P. et al. Contribution of rural settlements to the deforestation dynamics in the Legal Amazon. Land Use Policy, v. 115, p. 106039, abr. 2022.
  61. PRETO, Mayra de Freitas; GARCIA, Andrea Santos; NAKAI, Érica Silva; et al. The role of environmental legislation and land use patterns on riparian deforestation dynamics in an Amazonian agricultural frontier (MT, Brazil). Land Use Policy, v. 118, p. 106132, 2022.
  62. RIBEIRO, Renata Maciel; AMARAL, Silvana; MONTEIRO, Antônio Miguel Vieira; et al. “Cities in the forest” and “cities of the forest”: an environmental Kuznets curve (EKC) spatial approach to analyzing the urbanization-deforestation relationship in a Brazilian Amazon state. Ecology and Society, v. 27, n. 2, p. art1, 2022.
  63. ROBSON JOSE CARRERA RAMOS; HERDJÂNIA VERAS DE LIMA. Land tenure regularization and state land grabbing in the municipality of Paragominas, Eastern Amazon. Australian Journal of Crop Science, v. 16, n. 05, p. 628–636, 2022.
  64. PINAGÉ, E. R et al. Forest structure and solar-induced fluorescence across intact and degraded forests in the Amazon. Remote Sensing of Environment, v. 274, jun. 2022.
  65. PINHEIRO, M. C. et al. Epidemiological and space analysis of cryptococcosis in children in the mesoregions of the state of Pará, Eastern Amazon, from 2000 to 2017. Research, Society and Development, v. 11, n. 10, p. e194111032566, 27 jul. 2022.
  66. PORRO, R.; PORRO, N. S. M. State-led social and environmental policy failure in a Brazilian forest frontier: Sustainable Development Project in Anapu, Pará. Land Use Policy, v. 114, p. 105935, mar. 2022.
  67. PRETO, Mayra de Freitas; GARCIA, Andrea Santos; NAKAI, Érica Silva; et al. The role of environmental legislation and land use patterns on riparian deforestation dynamics in an Amazonian agricultural frontier (MT, Brazil). Land Use Policy, v. 118, p. 106132, 2022.
  68. RIBAS, C. C.; FRITZ, S. C.; BAKER, P. A. The challenges and potential of geogenomics for biogeography and conservation in Amazonia. Journal of Biogeography, p. jbi.14452, 4 jul. 2022.
  69. RIBEIRO, Renata Maciel; AMARAL, Silvana; MONTEIRO, Antônio Miguel Vieira; et al. “Cities in the forest” and “cities of the forest”: an environmental Kuznets curve (EKC) spatial approach to analyzing the urbanization-deforestation relationship in a Brazilian Amazon state. Ecology and Society, v. 27, n. 2, p. art1, 2022.
  70. ROBSON JOSE CARRERA RAMOS; HERDJÂNIA VERAS DE LIMA. Land tenure regularization and state land grabbing in the municipality of Paragominas, Eastern Amazon. Australian Journal of Crop Science, v. 16, n. 05, p. 628–636, 2022.
  71. RORATO, A. C. et al. Environmental vulnerability assessment of Brazilian Amazon Indigenous Lands. Environmental Science & Policy, v. 129, p. 19–36, mar. 2022.
  72. ROSSI, Fernando Saragosa; DE ARAÚJO SANTOS, Gustavo André; DE SOUZA MARIA, Luciano; et al. Carbon dioxide spatial variability and dynamics for contrasting land uses in central Brazil agricultural frontier from remote sensing data. Journal of South American Earth Sciences, v. 116, p. 103809, 2022.
  73. RUV LEMES, M. et al. Impacts of atmospheric CO2 increase and Amazon deforestation on the regional climate: A water budget modelling study. International Journal of Climatology, p. joc.7929, 7 dez. 2022.
  74. SABINO, W. et al. Status and trends of pollination services in Amazon agroforestry systems. Agriculture, Ecosystems & Environment, v. 335, p. 108012, set. 2022.
  75. SANQUETTA, C. R. et al. Assessing the carbon stock of cultivated pastures in Rondônia, southwestern Brazilian Amazon. Anais da Academia Brasileira de Ciências,v. 94, n. 4, p. e2021026, out. 2022.
  76. SANTOS, E. et al. Hotspots and Season Related to Wildlife Roadkill in the Amazonia–Cerrado Transition. Diversity, v. 14, n. 8, p. 657, 14 ago. 2022.
  77. SANTOS ROCHA DA SILVA, Marcelo; CORREIA, Joel Edward. A political ecology of jurisdictional REDD+: investigating social-environmentalism, climate change mitigation, and environmental (in)justice in the Brazilian Amazon. Journal of Political Ecology, v. 29, n. 1, 2022. Disponível em: http://journals.librarypublishing.arizona.edu/jpe/article/id/4713/ – Acesso em: 25 abr. 2022.
  78. SKIDMORE, M. E. et al. Sustainable intensification in the Brazilian cattle industry: the role for reduced slaughter age. Environmental Research Letters, v. 17, n. 6, p. 064026, 1 jun. 2022.
  79. SILVA, C. A. et al. Near-real time deforestation detection in the Brazilian Amazon with Sentinel-1 and neural networks. European Journal of Remote Sensing, v. 55, n. 1, p. 129–149, 31 dez. 2022.
  80. SILVA, V. V. DA; RICARDO GILSON DA COSTA SILVA. Amazon, Frontier and Protected Areas: dialectic between economic expansion and nature conservation. Ambiente & Sociedade, n. 25, 2022.
  81. SILVA, Verissimo César Sousa da; VIEIRA, Ima Celia Guimaraes; GALBRAITH, David R.; et al. Marked non-compliance with deforestation embargoes in the Brazilian Amazon. Environmental Research Letters, 2022. Disponível em: https://iopscience.iop.org/article/10.1088/1748-9326/ac6398 – Acesso em: 25 abr. 2022.
  82. SORIA-DÍAZ, H. F.; GRAÇA, P. M. L. A.; SORIA, B. S. Análisis de la capacidad de carga de los atractivos turísticos en la Amazonía Central, Brasil. Investigaciones Geográficas, n. 108, 25 maio 2022.
  83. SOTO, Pedro J.; COSTA, Gilson A.; FEITOSA, Raul Q.; et al. Domain-Adversarial Neural Networks for Deforestation Detection in Tropical Forests. IEEE Geoscience and Remote Sensing Letters, v. 19, p. 1–5, 2022.
  84. TAVARES, P. A. et al. Exploring the Role of Deforestation and Cropland Expansion in Driving a Fire-Transition in the Brazilian Amazon. Land, v. 11, n. 12, p. 2274, 12 dez. 2022.
  85. TEIXEIRA, C. DE C. et al. Synergistic effects of climate and landscape change on the conservation of Amazonian lizards. PeerJ, v. 10, p. e13028, 29 mar. 2022.
  86. VALOIS, I. M., & CARTAXO, E. F. Amazon cities and climate change. International Journal for Innovation Education and Research , 10 (11), 189-209, 2022. Disponível em:https://doi.org/10.31686/ijier.vol10.iss11.3994
  87. VILLORIA, N. et al. Leakage does not fully offset soy supply-chain efforts to reduce deforestation in Brazil. Nature Communications, v. 13, n. 1, p. 5476, 17 set. 2022
  88. VITORINO, L. C. et al. The impact of COVID-19 on the indigenous peoples related to air and road networks and habitat loss. PLOS Global Public Health, v. 2, n. 3, p. e0000166, 7 mar. 2022.
  89. VOLPATO, M. et al. Fire foci and their spatiotemporal relations to weather variables and land uses in the state of Mato Grosso. Environment, Development and Sustainability, 22 jul. 2022.
  90. WANG, Y.; HUANG, P. Potential fire risks in South America under anthropogenic forcing hidden by the Atlantic Multidecadal Oscillation. Nature Communications, v. 13, n. 1, p. 2437, dez. 2022.
  91. WEST, T. A. P. et al. Protected areas still used to produce Brazil’s cattle. Conservation Letters, 17 out. 2022.
  92. WEST, Thales A.P.; CAVIGLIA-HARRIS, Jill L.; MARTINS, Flora S.R.V.; et al. Potential conservation gains from improved protected area management in the Brazilian Amazon. Biological Conservation, v. 269, p. 109526, 2022.
  93. WILTSHIRE, A. J. et al. Understanding the role of land‐use emissions in achieving the Brazilian Nationally Determined Contribution to mitigate climate change. Climate Resilience and Sustainability, v. 1, n. 1, fev. 2022.
  94. WINKLER, H. et al. Examples of shifting development pathways: lessons on how to enable broader, deeper, and faster climate action. Climate Action, v. 1, n. 1, p. 27, 15 dez. 2022.
  95. YANAI, A. M. et al. Brazil’s Amazonian deforestation: the role of landholdings in undesignated public lands. Regional Environmental Change, v. 22, n. 1, p. 30, mar. 2022
  96. YOH, N. et al. Edge effects and vertical stratification of aerial insectivorous bats across the interface of primary-secondary Amazonian rainforest. PLOS ONE, v. 17, n. 9, p. e0274637, 23 set. 2022.
  97. ZHANG, Y. et al. Reconstructing deforestation patterns in China from 2000 to 2019. Ecological Modelling, v. 465, p. 109874, mar. 2022.
  98. ZIOTI, F. et al. A platform for land use and land cover data integration and trajectory analysis. International Journal of Applied Earth Observation and Geoinformation, v. 106, p. 102655, fev. 2022.

2021 *

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  1. AKERMAN, A. et al. Impact of deforestation on soil iron chemistry and isotope signatures in Amazonia. Chemical Geology, p. 120048, jan. 2021.
  2. ALBIERO-JÚNIOR, A. et al. Amazon forest fragmentation and edge effects temporarily favored understory and midstory tree growth. Trees – Structure and Function, 8 jul. 2021.
  3. ALBUQUERQUE SANT’ANNA, A.; COSTA, L. Environmental regulation and bail outs under weak state capacity: Deforestation in the Brazilian Amazon. Ecological Economics, v. 186, p. 107071, ago. 2021.
  4. ALVES, L. C. et al. The association between a conditional cash transfer programme and malaria incidence: a longitudinal ecological study in the Brazilian Amazon between 2004 and 2015. BMC Public Health, v. 21, n. 1, p. 1253, dez. 2021.
  5. ALVES DE OLIVEIRA, B. F. et al. Deforestation and climate change are projected to increase heat stress risk in the Brazilian Amazon. Communications Earth & Environment, v. 2, n. 1, p. 207, dez. 2021.
  6. AMARAL, D. F. et al. Expansion of soybean farming into deforested areas in the amazon biome: the role and impact of the soy moratorium. Sustainability Science, 1 abr. 2021.
  7. AMITRANO, D. et al. Earth Environmental Monitoring Using Multi-Temporal Synthetic Aperture Radar: A Critical Review of Selected Applications. Remote Sensing, v. 13, n. 4, p. 604, 8 fev. 2021.
  8. ANTUNES, A.; SIMMONS, C. S.; VEIGA, J. P. Non-Timber Forest Products and the Cosmetic Industry: An Econometric Assessment of Contributions to Income in the Brazilian Amazon. Land, v. 10, n. 6, p. 588, 2 jun. 2021.
  9. ARVOR, D. et al. Towards user-adaptive remote sensing: Knowledge-driven automatic classification of Sentinel-2 time series. Remote Sensing of Environment, v. 264, p. 112615, out. 2021.
  10. BARNI, P. E. et al. Logging Amazon forest increased the severity and spread of fires during the 2015–2016 El Niño. Forest Ecology and Management, v. 500, p. 119652, nov. 2021.
  11. BARROS, F. DE C. et al. Bird diversity in ‘paricá’ ( Schizolobium amazonicum Huber ex Ducke) plantations and forest fragments in Eastern Amazon: taxonomic diversity, ecological guilds, and functional trait composition. Studies on Neotropical Fauna and Environment, p. 1–12, 4 ago. 2021.
  12. BARTHOLDSON, Ö.; PORRO, R.; PAIN, A. Seeking One’s Fortune Elsewhere: The Social Breakdown of a Smallholder Settlement in the Brazilian Eastern Amazon and the Consequences for Its Rainforest Reserve. Forum for Development Studies, p. 1–21, 26 nov. 2021.
  13. BASTOS, A. D. S. et al. Amazon plinthosols: carbon stocks and physical properties under different land uses. Ciência Florestal, v. 31, n. 2, p. 749–765, 1 jun. 2021.
  14. BONAUDO, T.; PIRAUX, M.; GAMEIRO, A. H. Analysing intensification, autonomy and efficiencies of livestock production through nitrogen flows: A case study of an emblematic Amazonian territory. Agricultural Systems, v. 190, p. 103072, maio 2021.
  15. BRAGAGNOLO, L.; DA SILVA, R. V.; GRZYBOWSKI, J. M. V. Amazon forest cover change mapping based on semantic segmentation by U-Nets. Ecological Informatics, v. 62, p. 101279, maio 2021.
  16. BRAGAGNOLO, L.; DA SILVA, R. V.; GRZYBOWSKI, J. M. V. Towards the automatic monitoring of deforestation in Brazilian rainforest. Ecological Informatics, v. 66, p. 101454, dez. 2021.
  17. BRANDÃO, F. et al. The challenge of reconciling conservation and development in the tropics: Lessons from Brazil’s oil palm governance model. World Development, v. 139, p. 105268, mar. 2021.
  18. BROCK, R. C. et al. Implementing Brazil’s Forest Code: a vital contribution to securing forests and conserving biodiversity. Biodiversity and Conservation, 3 abr. 2021.
  19. BRONDIZIO, E. S. et al. Making place-based sustainability initiatives visible in the Brazilian Amazon. Current Opinion in Environmental Sustainability, v. 49, p. 66–78, abr. 2021.
  20. CAPITANI, L. et al. Food web modeling indicates the potential impacts of increasing deforestation and fishing pressure in the Tapajós River, Brazilian Amazon. Regional Environmental Change, v. 21, n. 2, p. 42, jun. 2021.
  21. CARVALHO, R. et al. The Role of High-Volume Ranches as Cattle Suppliers: Supply Chain Connections and Cattle Production in Mato Grosso. Land, v. 10, n. 10, p. 1098, 16 out. 2021.
  22. CAVIGLIA-HARRIS, J. et al. The color of water: The contributions of green and blue water to agricultural productivity in the Western Brazilian Amazon. World Development, v. 146, p. 105607, out. 2021.
  23. CHEN, B. et al. Modeling illegal logging in Brazil. Research in the Mathematical Sciences, v. 8, n. 2, p. 29, jun. 2021.
  24. COELHO, A. et al. Rural landscapes and agrarian spaces under soybean expansion dynamics: a case study of the Santarém region, Brazilian Amazonia. Regional Environmental Change, v. 21, n. 4, p. 100, dez. 2021.
  25. CONCEIÇÃO, K. V. et al. Government policies endanger the indigenous peoples of the Brazilian Amazon. Land Use Policy, v. 108, p. 105663, set. 2021.
  26. CÔRTES, J. C.; SILVA JÚNIOR, R. D. DA. The Interface Between Deforestation and Urbanization in the Brazilian Amazon. Ambiente & Sociedade, v. 24, p. e01821, 2021.
  27. COSTA, A. DA S. et al. Deforestation forecasts in the Legal Amazon using intervention models. Research, Society and Development, v. 10, n. 4, p. e8710413787, 1 abr. 2021.
  28. DA SILVA, S. D. P. et al. Landscape analysis in a municipality in the arc of deforestation of the Brazilian Amazon rainforest. Ecological Engineering, v. 173, p. 106417, dez. 2021.
  29. DALLAQUA, F. B. J. R.; FAZENDA, Á. L.; FARIA, F. A. ForestEyes Project: Conception, enhancements, and challenges. Future Generation Computer Systems , v. 124, p. 422–435, nov. 2021.
  30. DAS NEVES, P. B. T. et al. Amazon rainforest deforestation influenced by clandestine and regular roadway network. Land Use Policy , v. 108, p. 105510, set. 2021.
  31. DE ANDRADE, R. A.; SACOMANO NETO, M.; CANDIDO, S. E. A. Implementing community-based forest management in the Brazilian Amazon Rainforest: a strategic action fields perspective. Environmental Politics , p. 1–23, 1 jun. 2021.
  32. DE JONG, P. et al. The Impact of Regional Climate Change on Hydroelectric Resources in South America. Renewable Energy, v. 173, p. 76–91, ago. 2021.
  33. DE OLIVEIRA SILVA, R.; BARIONI, L. G.; MORAN, D. Fire, deforestation, and livestock: When the smoke clears. Land Use Policy, v. 100, p. 104949, jan. 2021.
  34. DEVELEY, P. F. Bird Conservation in Brazil: Challenges and practical solutions for a key megadiverse country. Perspectives in Ecology and Conservation, p. S2530064421000201, mar. 2021.
  35. DO NASCIMENTO, E. L. et al. Influence of Iron on Physiological Parameters and Intracellular Microcystin in Microcystis Panniformis Strain Isolated from a Reservoir in the Amazon. Current Microbiology , v. 78, n. 6, p. 2345–2354, jun. 2021.
  36. DORIA, C. R. C. et al. Understanding impacts of dams on the small-scale fisheries of the Madeira River through the lens of the Fisheries Performance Indicators. Marine Policy, v. 125, p. 104261, mar. 2021.
  37. DOS REIS, J. C. et al. Integrated crop-livestock systems: A sustainable land-use alternative for food production in the Brazilian Cerrado and Amazon. Journal of Cleaner Production, v. 283, p. 124580, fev. 2021.
  38. DOS REIS, M. et al. Forest fires and deforestation in the central Amazon: Effects of landscape and climate on spatial and temporal dynamics. Journal of Environmental Management, v. 288, p. 112310, jun. 2021.
  39. DUARTE JÚNIOR, J. W. B. et al. Ocurrence of rotavirus and picobirnavirus in wild and exotic avian from amazon forest. PLOS Neglected Tropical Diseases, v. 15, n. 9, p. e0008792, 10 set. 2021.
  40. FERRANTE, L.; ANDRADE, M. B. T.; FEARNSIDE, P. M. Land grabbing on Brazil’s Highway BR-319 as a spearhead for Amazonian deforestation. Land Use Policy , v. 108, p. 105559, set. 2021.
  41. FERREIRA BARBOSA, M. L. et al. Recent trends in the fire dynamics in Brazilian Legal Amazon: Interaction between the ENSO phenomenon, climate and land use. Environmental Development , p. 100648, jun. 2021.
  42. FLOREANO, I. X.; DE MORAES, L. A. F. Land use/land cover (LULC) analysis (2009–2019) with Google Earth Engine and 2030 prediction using Markov-CA in the Rondônia State, Brazil. Environmental Monitoring and Assessment, v. 193, n. 4, p. 239, abr. 2021.
  43. FRANÇA, F. et al. Reassessing the role of cattle and pasture in Brazil’s deforestation: A response to “Fire, deforestation, and livestock: When the smoke clears”. Land Use Policy , v. 108, p. 105195, set. 2021.
  44. FOLLADOR, M. et al. Brazil’s sugarcane embitters the EU-Mercosur trade talks. Scientific Reports , v. 11, n. 1, p. 13768, dez. 2021.
  45. GATTI, L. V. et al. Amazonia as a carbon source linked to deforestation and climate change. Nature, v. 595, n. 7867, p. 388–393, 15 jul. 2021.
  46. GONÇALVES-SOUZA, D. et al. The role of protected areas in maintaining natural vegetation in Brazil. Science Advances, v. 7, n. 38, p. eabh2932, 17 set. 2021.
  47. GRABS, J. et al. Designing effective and equitable zero-deforestation supply chain policies. Global Environmental Change, v. 70, p. 102357, set. 2021.
  48. HEINRICH, V. H. A. et al. Large carbon sink potential of secondary forests in the Brazilian Amazon to mitigate climate change. Nature Communications, v. 12, n. 1, p. 1785, dez. 2021.
  49. HELENBROOK, W. D.; VALDEZ, J. W. Species distribution and conservation assessment of the black-headed night monkey (Aotus nigriceps): a species of Least Concern that faces widespread anthropogenic threats. Primates , 12 jun. 2021.
  50. JAFFÉ, R. et al. Forecasting deforestation in the Brazilian Amazon to prioritize conservation efforts. Environmental Research Letters, 2021.
  51. JULIÃO, G. R. et al. Rhodnius spp. infestation in palm trees and natural infection by Trypanosoma cruzi and Trypanosoma rangeli in periurban and rural areas of state of the Rondônia, in the Brazilian Amazon. Acta Tropica , v. 220, p. 105963, ago. 2021.
  52. KALBUS, A. et al. Exploring the influence of deforestation on dengue fever incidence in the Brazilian Amazonas state. PLOS ONE, v. 16, n. 1, p. e0242685, 7 jan. 2021.
  53. KLAUTAU DE ARAÚJO, T. L. et al. Brazilian Amazônia, deforestation and environmental degradation: Analyzing the process using game, deterrence and rational choice theories. Environmental Science & Policy, v. 117, p. 46–51, mar. 2021.
  54. KOSKIMÄKI, T. et al. Impact of individual protected areas on deforestation and carbon emissions in Acre, Brazil. Environmental Conservation , p. 1–8, 1 jul. 2021.
  55. LEIDENS, L. V.; NOSCHANG, P. G. Human Rights in Times of the Pandemic: A Dialogue on Migration and Indigenous Rights in Brazil before the Regional Inter-American System. The Age of Human Rights Journal, n. 17, p. 261–275, 17 dez. 2021.
  56. LEITE-FILHO, A. T. et al. Deforestation reduces rainfall and agricultural revenues in the Brazilian Amazon. Nature Communications , v. 12, n. 1, p. 2591, dez. 2021.
  57. LENSE, G. H. E. et al. Soil losses in the State of Rondônia, Brazil. Ciência Rural, v. 51, n. 5, p. e20200460, 2021.
  58. LIBONATI, R. et al. Twenty-first century droughts have not increasingly exacerbated fire season severity in the Brazilian Amazon. Scientific Reports, v. 11, n. 1, p. 4400, dez. 2021.
  59. LOPES, T. R. et al. Hydrological regime, water availability and land use/land cover change impact on the water balance in a large agriculture basin in the Southern Brazilian Amazon. Journal of South American Earth Sciences, v. 108, p. 103224, jun. 2021.
  60. LOURENÇONI, T. et al. Advance of soy commodity in the southern Amazonia with deforestation via PRODES and ImazonGeo: a moratorium-based approach. Scientific Reports, v. 11, n. 1, p. 21792, dez. 2021.
  61. MAEDA, E. E. et al. Large-scale commodity agriculture exacerbates the climatic impacts of Amazonian deforestation. Proceedings of the National Academy of Sciences, v. 118, n. 7, p. e2023787118, 16 fev. 2021.
  62. MATAVELI, G. A. V. et al. The emergence of a new deforestation hotspot in Amazonia. Perspectives in Ecology and Conservation, v. 19, n. 1, p. 33–36, jan. 2021.
  63. MENEZES, J. F. S. et al. Deforestation, fires, and lack of governance are displacing thousands of jaguars in Brazilian Amazon. Conservation Science and Practice , 25 jun. 2021.
  64. MIKOŁAJCZAK, K. et al. Who knows, who cares? Untangling ecological knowledge and nature connection among Amazonian colonist farmers. People and Nature, p. pan3.10183, 9 fev. 2021.
  65. MILIEN, E. J. et al. Roads, deforestation and the mitigating effect of the Chico Mendes extractive reserve in the southwestern Amazon. Trees, Forests and People, v. 3, p. 100056, mar. 2021.
  66. MULLAN, K.; CAVIGLIA-HARRIS, J. L.; SILLS, E. O. Sustainability of agricultural production following deforestation in the tropics: Evidence on the value of newly-deforested, long-deforested and forested land in the Brazilian Amazon. Land Use Policy, v. 108, p. 105660, set. 2021.
  67. NICOLAU, A. P. et al. Assessing SAR C-band data to effectively distinguish modified land uses in a heavily disturbed Amazon forest. International Journal of Applied Earth Observation and Geoinformation, v. 94, p. 102214, fev. 2021.
  68. OKIDA, D. T. S. et al. Relationship between Land Property Security and Brazilian Amazon Deforestation in the Mato Grosso State during the Period 2013–2018. Sustainability, v. 13, n. 4, p. 2085, 15 fev. 2021.
  69. OLIVEIRA, R. C. DE; DE SOUZA E SILVA, R. D. Increase of Agribusiness in the Brazilian Amazon: Development or Inequality? Earth, v. 2, n. 4, p. 1077–1100, 14 dez. 2021.
  70. PACHECO, R. et al. Will farmers seek environmental regularization in the Amazon and how? Insights from the Rural Environmental Registry (CAR) questionnaires. Journal of Environmental Management, v. 284, p. 112010, abr. 2021.
  71. PARAGUASSÚ-CHAVES, C. A. et al. Geostatistics Applied to the Study of Deforestation and Malaria in Rural Areas of Western Amazon. International Journal of Advanced Engineering Research and Science, v. 8, n. 7, p. 001–018, 2021.
  72. PELICICE, F. M.; CASTELLO, L. A political tsunami hits Amazon conservation. Aquatic Conservation: Marine and Freshwater Ecosystems, p. aqc.3565, 26 mar. 2021.
  73. PEREIRA, F. W.; GONÇALVES, R. B.; RAMOS, K. DOS S. Bee surveys in Brazil in the last six decades: a review and scientometrics. Apidologie, 15 out. 2021.
  74. PHAM, T. T. et al. REDD+ finance in Brazil, Indonesia and Vietnam: Stakeholder perspectives between 2009-2019. Global Environmental Change, v. 70, p. 102330, set. 2021.
  75. PINILLOS, D. et al. Landholders’ perceptions on legal reserves and agricultural intensification: Diversity and implications for forest conservation in the eastern Brazilian Amazon. Forest Policy and Economics , v. 129, p. 102504, ago. 2021.
  76. PONGRATZ, J. et al. Land Use Effects on Climate: Current State, Recent Progress, and Emerging Topics. Current Climate Change Reports, 27 dez. 2021.
  77. PORTILLO-QUINTERO, C. et al. The Road to Operationalization of Effective Tropical Forest Monitoring Systems. Remote Sensing, v. 13, n. 7, p. 1370, 2 abr. 2021.
  78. QIN, Y. et al. Carbon loss from forest degradation exceeds that from deforestation in the Brazilian Amazon. Nature Climate Change , v. 11, n. 5, p. 442–448, maio 2021.
  79. REIS, T. N. P. DOS et al. Trading deforestation—why the legality of forest-risk commodities is insufficient. Environmental Research Letters, v. 16, n. 12, p. 124025, 1 dez. 2021.
  80. RORATO, A. C. et al. Environmental Threats over Amazonian Indigenous Lands. Land, v. 10, n. 3, p. 267, 6 mar. 2021.
  81. SAAD-DINIZ; GIANECCHINI. Regulatory Rollbacks in the Amazon Rainforest: A Nuanced Look into the Effects of Environmental Victimization. State Crime Journal, v. 10, n. 2, p. 257, 2021.
  82. SANO, E. E. et al. Comparative Analysis of the Global Forest/Non-Forest Maps Derived from SAR and Optical Sensors. Case Studies from Brazilian Amazon and Cerrado Biomes. Remote Sensing, v. 13, n. 3, p. 367, 21 jan. 2021.
  83. SANTIN, R. et al. Matheuristics for Multi-UAV Routing and Recharge Station Location for Complete Area Coverage. Sensors, v. 21, n. 5, p. 1705, 2 mar. 2021.
  84. SANTOS, A. M. DOS et al. Deforestation drivers in the Brazilian Amazon: assessing new spatial predictors. Journal of Environmental Management , v. 294, p. 113020, set. 2021.
  85. SANTOS, J. C. et al. Ground-dwelling ant diversity in Amazonian secondary forests and neighboring pastures. Tropical Ecology, v. 62, n. 2, p. 279–287, jun. 2021.
  86. SCHIELEIN, J. et al. The role of accessibility for land use and land cover change in the Brazilian Amazon. Applied Geography , v. 132, p. 102419, jul. 2021.
  87. SCHNEIDER, M.; BIEDZICKI DE MARQUES, A. A.; PERES, C. A. Brazil’s Next Deforestation Frontiers. Tropical Conservation Science , v. 14, p. 194008292110204, jan. 2021.
  88. SCHWARTZMAN, S. et al. Environmental integrity of emissions reductions depends on scale and systemic changes, not sector of origin. Environmental Research Letters, 29 jul. 2021.
  89. SILVA, C. A. et al. Fire Occurrences and Greenhouse Gas Emissions from Deforestation in the Brazilian Amazon. Remote Sensing, v. 13, n. 3, p. 376, 22 jan. 2021a.
  90. SILVA, F. DE F. et al. The increasing opportunity cost of sequestering CO2 in the Brazilian Amazon forest. Empirical Economics, 10 mar. 2021b.
  91. SILVA, R. et al. Land use dynamics under the Bolsa Floresta Program: a case study of the Uatumã Sustainable Development Reserve (Amazonas, Brazil). Acta Amazonica, v. 51, n. 4, p. 370–381, dez. 2021.
  92. SILVA, S. S. DA et al. Increasing bamboo dominance in southwestern Amazon forests following intensification of drought-mediated fires. Forest Ecology and Management, v. 490, p. 119139, jun. 2021.
  93. SIQUEIRA-GAY, J.; SÁNCHEZ, L. E. The outbreak of illegal gold mining in the Brazilian Amazon boosts deforestation. Regional Environmental Change, v. 21, n. 2, p. 28, jun. 2021.
  94. SKIDMORE, M. E. et al. Cattle ranchers and deforestation in the Brazilian Amazon: Production, location, and policies. Global Environmental Change , v. 68, p. 102280, maio 2021.
  95. SONG, X.-P. et al. Massive soybean expansion in South America since 2000 and implications for conservation. Nature Sustainability , 7 jun. 2021.
  96. SOTO VEGA, P. J. et al. An unsupervised domain adaptation approach for change detection and its application to deforestation mapping in tropical biomes. ISPRS Journal of Photogrammetry and Remote Sensing, v. 181, p. 113–128, nov. 2021.
  97. SOUZA, F. F. C. et al. Influence of seasonality on the aerosol microbiome of the Amazon rainforest. Science of The Total Environment, v. 760, p. 144092, mar. 2021.
  98. SOUZA‐FILHO, P. W. M. et al. Land use intensity of official mineral extraction in the Amazon region: linking economic and spatial data. Land Degradation & Development, v. 32, n. 4, p. 1706–1717, 28 fev. 2021.
  99. TARAZONA, Y. Mapping deforestation using fractions indices and the non-seasonal PVts-β detection approach. IEEE Geoscience and Remote Sensing Letters, p. 1–1, 2021.
  100. TATEISHI, H. R.; BRAGAGNOLO, C.; ALMEIDA, A. N. DE. Forest, agriculture and land conversion: Environmental efficiency in Brazilian Amazon rainforest. Forest Policy and Economics, v. 133, p. 102615, dez. 2021.
  101. THAPA, SHYAM. A Comprehensive Review on COVID-19 Pandemic: Causes, Effects, and Concerns from Environmental Perspective. Environmental Science: An Indian Journal, v. 17, n. 6, 2021.
  102. TOLOI, M. N. V. et al. Development Indicators and Soybean Production in Brazil. Agriculture, v. 11, n. 11, p. 1164, 18 nov. 2021.
  103. TRANCOSO, R. Changing Amazon deforestation patterns: urgent need to restore command and control policies and market interventions. Environmental Research Letters, 12 mar. 2021.
  104. VANCUTSEM, C. et al. Long-term (1990–2019) monitoring of forest cover changes in the humid tropics. Science Advances, v. 7, n. 10, p. eabe1603, mar. 2021.
  105. VERGASTA, L. A. et al. Avaliação do Balanço de água na Bacia do Rio Madeira Simulado Pelo Modelo Regional Climático Eta e o Modelo Hidrológico de Grandes Bacias MGB. Revista Brasileira de Meteorologia, 12 mar. 2021.
  106. VITTOR, A. Y. et al. The COVID-19 crisis and Amazonia’s indigenous people: Implications for conservation and global health. World Development , v. 145, p. 105533, set. 2021.
  107. WEST, T. A. P.; FEARNSIDE, P. M. Brazil’s conservation reform and the reduction of deforestation in Amazonia. Land Use Policy, v. 100, p. 105072, jan. 2021.
  108. WIMBERLY, M. C. et al. Satellite Observations and Malaria: New Opportunities for Research and Applications. Trends in Parasitology, p. S1471492221000556, mar. 2021.
  109. XIMENES, A. C. et al. Mapping the terrestrial ecoregions of the Purus-Madeira interfluve in the Amazon Forest using machine learning techniques. Forest Ecology and Management, v. 488, p. 118960, maio 2021.
  110. ZALLES, VIVIANA et al. Rapid expansion of human impact on natural land in South America since 1985. Science Advances, v. 7, n. 14, 2021.

2020 *

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  1. AKABANE, T. K. et al. Modern pollen signatures of Amazonian rivers and new insights for environmental reconstructions. Palaeogeography, Palaeoclimatology, Palaeoecology, p. 109802, maio 2020.
  2. ALBUQUERQUE, R. W. et al. Remotely piloted aircraft imagery for automatic tree counting in forest restoration areas: a case study in the Amazon. Journal of Unmanned Vehicle Systems, p. 1–17, 30 abr. 2020.
  3. AMARAL E SILVA, A. et al. Anthropic activities and the Legal Amazon: Estimative of impacts on forest and regional climate for 2030. Remote Sensing Applications: Society and Environment, v. 18, p. 100304, abr. 2020.
  4. ASSIS, T. O. et al. CO2 emissions from forest degradation in Brazilian Amazonia. Environmental Research Letters, 15 jun. 2020.
  5. AZEVEDO-RAMOS, C. et al. Lawless land in no man’s land: The undesignated public forests in the Brazilian Amazon. Land Use Policy, v. 99, p. 104863, dez. 2020.,
  6. BARBIERI, A. F.; GUEDES, G. R.; ONOFRE DOS SANTOS, R. Land use systems and livelihoods in demographically heterogeneous frontier stages in the amazon. Environmental Development, p. 100587, nov. 2020.
  7. BEGOTTI, R. A.; PERES, C. A. Rapidly escalating threats to the biodiversity and ethnocultural capital of Brazilian Indigenous Lands. Land Use Policy, v. 96, p. 104694, jul. 2020.
  8. BERLINCK, C. N.; BATISTA, E. K. L. Good fire, bad fire: it depends on who burns. Flora, p. 151610, maio 2020.
  9. BODDEY, R. M. et al. Forage legumes in grass pastures in tropical Brazil and likely impacts on greenhouse gas emissions: A review. Grass and Forage. Science, p. gfs.12498, 11 ago. 2020.
  10. BRAGA JÚNIOR, M. M. et al. Technological properties of woods used in boat’s production in the Southeast of Pará, Brazil. Rodriguesia, v. 71, p. e03322018, 2020.
  11. BRANDÃO JR., A. et al. Estimating the Potential for Conservation and Farming in the Amazon and Cerrado under Four Policy Scenarios. Sustainability, v. 12, n. 3, p. 1277, 10 fev. 2020.
  12. BRANDES, A. F. DAS N. et al. Endangered species account for 10% of Brazil’s documented timber trade. Journal for Nature Conservation, v. 55, p. 125821, jun. 2020.
  13. BROVELLI, M. A.; SUN, Y.; YORDANOV, V. Monitoring Forest Change in the Amazon Using Multi-Temporal Remote Sensing Data and Machine Learning Classification on Google Earth Engine. ISPRS International Journal of Geo-Information, v. 9, n. 10, p. 580, 1 out. 2020.
  14. CAIONI, C. et al. Droughts Amplify Differences Between the Energy Balance Components of Amazon Forests and Croplands. Remote Sensing, v. 12, n. 3, p. 525, 6 fev. 2020.
  15. CAPELARI, M. G. M. et al. Governance and Deforestation: Understanding the Role of Formal Rule-Acknowledgement by Residents in Brazilian Extractive Reserves. International Journal of the Commons, v. 14, n. 1, p. 245–261, 4 mar. 2020.
  16. CARNEIRO, M. S. et al. Deforestation governance in the Amazon from a Strategic Action Fields perspective. Ambiente e Sociedade, v. 23, p. e02472, 2020.
  17. CARRERO, G. C. et al. Deforestation Trajectories on a Development Frontier in the Brazilian Amazon: 35 Years of Settlement Colonization, Policy and Economic Shifts, and Land Accumulation. Environmental Management, 16 set. 2020.
  18. CARVALHO, A. C.; CARVALHO, D. F.; AIRES, A. P. D. A. Forest deforestation in the Brazilian amazon states and its impacts on natural resources: construction of statistical-econometric panel model for 2000-2018. REUNIR Revista de Administração Contabilidade e Sustentabilidade, v. 10, n. 2, p. 34–45, 18 abr. 2020.
  19. CARVALHO, R.; DE AGUIAR, A. P. D.; AMARAL, S. Diversity of cattle raising systems and its effects over forest regrowth in a core region of cattle production in the Brazilian Amazon. Regional Environmental Change, v. 20, n. 2, p. 44, jun. 2020.
  20. CARVALHO, S. et al. A changing Amazon rainforest: Historical trends and future projections under post-Paris climate scenarios. Global and Planetary Change, p. 103328, set. 2020.
  21. CASAGRANDE, E. et al. Water balance partitioning for ecosystem service assessment. A case study in the Amazon. Ecological Indicators, p. 107155, nov. 2020.
  22. CASSENOTE, S. et al. Taxonomic revision of Dichotomius (Selenocopris) nisus (Olivier, 1719) and Dichotomius (Selenocopris) superbus (Felsche, 1901). Revista Brasileira de Entomologia, v. 64, n. 3, p. e20200007, 2020.
  23. CASTRO, R. B. et al. Identification of priority areas for landscape connectivity maintenance in the Xingu Area of Endemism in Brazilian Amazonia. Acta Amazonica, v. 50, n. 1, p. 68–79, mar. 2020.
  24. CERBARO et al. Information from Earth Observation for the Management of Sustainable Land Use and Land Cover in Brazil: An Analysis of User Needs. Sustainability, v. 12, n. 2, p. 489, 8 jan. 2020.
  25. CHAZDON, R. L. et al. Fostering natural forest regeneration on former agricultural land through economic and policy interventions. Environmental Research Letters, v. 15, n. 4, p. 043002, 16 abr. 2020.
  26. CHOI, J.; WRIGHT, D. K.; LIMA, H. P. A new local scale prediction model of Amazonian landscape domestication sites. Journal of Archaeological Science, v. 123, p. 105240, nov. 2020.
  27. CORREA, J. et al. Evaluating REDD+ at subnational level: Amazon fund impacts in Alta Floresta, Brazil. Forest Policy and Economics, v. 116, p. 102178, jul. 2020.
  28. COSTA, C. G. F. Multi-stakeholder partnerships in agricultural commodity supply chains and deforestation-free commitments in the Amazon: a delicate balance. PRACS: Revista Eletrônica de Humanidades do Curso de Ciências Sociais da UNIFAP, v. 13, n. 2, p. 31, 11 out. 2020.
  29. DA CRUZ, D. C. et al. An overview of forest loss and restoration in the Brazilian Amazon. New Forests, 3 fev. 2020.
  30. DA SILVA JUNIOR, C. A. et al. Persistent fire foci in all biomes undermine the Paris Agreement in Brazil. Scientific Reports, v. 10, n. 1, p. 16246, dez. 2020.
  31. DALLAQUA, F. B. J. R.; FARIA, F. A.; FAZENDA, A. L. Building Data Sets for Rainforest Deforestation Detection Through a Citizen Science Project. IEEE Geoscience and Remote Sensing Letters, p. 1–5, 2020.
  32. DAMIANI, S. et al. “All That’s Left is Bare Land and Sky”: Palm Oil Culture and Socioenvironmental Impacts on a Tembé Indigenous Territory in the Brazilian Amazon. Ambiente & Sociedade, v. 23, p. e00492, 2020.
  33. DE ARAUJO, R. A. et al. Assessment of vegetation recomposition methods in a tropical forest using satellite images. Clean Technologies and Environmental Policy, 24 ago. 2020.
  34. DE BEM, P. P. et al. Change Detection of Deforestation in the Brazilian Amazon Using Landsat Data and Convolutional Neural Networks. Remote Sensing, v. 12, n. 6, p. 901, 11 mar. 2020.
  35. DE CARVALHO, D. L. et al. An updated documented inventory and new records of bird species for the Brazilian state of Maranhão. Ornithology Research, 21 jul. 2020.
  36. DE CARVALHO, S.; GOYES, D. R.; VEGH WEIS, V. Politics and Indigenous Victimization: The Case of Brazil. The British Journal of Criminology, p. azaa060, 24 ago. 2020.
  37. DE OLIVEIRA, G. et al. Rapid Recent Deforestation Incursion in a Vulnerable Indigenous Land in the Brazilian Amazon and Fire-Driven Emissions of Fine Particulate Aerosol Pollutants. Forests, v. 11, n. 8, p. 829, 30 jul. 2020.
  38. DE OLIVEIRA, J. P.; COSTA, M. G. F.; FILHO, C. F. F. C. Methodology of Data Fusion Using Deep Learning for Semantic Segmentation of Land Types in the Amazon. IEEE Access, v. 8, p. 187864–187875, 2020.
  39. DE OLIVEIRA, J. V. et al. Urban climate and environmental perception about climate change in Belém, Pará, Brazil. Urban Climate, v. 31, p. 100579, mar. 2020.
  40. DE MORAES, K. F. et al. Climate change and bird extinctions in the Amazon. PLOS ONE, v. 15, n. 7, p. e0236103, 17 jul. 2020.
  41. DE SALES, F. et al. Impacts of Protected Area Deforestation on Dry‐Season Regional Climate in the Brazilian Amazon. Journal of Geophysical Research: Atmospheres, v. 125, n. 16, 27 ago. 2020.
  42. DIELE-VIEGAS, L. M.; PEREIRA, E. J. DE A. L.; ROCHA, C. F. D. The new Brazilian gold rush: Is Amazonia at risk? Forest Policy and Economics, v. 119, p. 102270, out. 2020.
  43. DINIZ, J. M. F. DE S.; GAMA, F. F.; ADAMI, M. Evaluation of polarimetry and interferometry of Sentinel-1A SAR data for land use and land cover of the Brazilian Amazon region. Geocarto International, p. 1–17, 25 maio 2020.
  44. DO NASCIMENTO, E. L. et al. Dynamics of mercury in the plankton of a hydroelectric reservoir, Western Amazon. Environmental Monitoring and Assessment, v. 192, n. 10, p. 647, out. 2020.
  45. DORIA, C. R. C. et al. Challenges for the Governance of Small-Scale Fisheries on the Brazil-Bolivia Transboundary Region. Society & Natural Resources, v. 33, n. 10, p. 1213–1231, 2 out. 2020.
  46. DOU, Y. et al. Land-Use Changes in Distant Places: Implementation of a Telecoupled Agent-Based Model. Journal of Artificial Societies and Social Simulation, v. 23, n. 1, p. 11, 2020.
  47. DUTRA, A. C. et al. Assessment of Spatial and Temporal Distribution of Clouds in Northeast Brazil (2000 -2019) using MODIS Data. Revista Brasileira de Cartografia, v. 72, n. 4, p. 681–696, 14 nov. 2020.
  48. ELLWANGER, J. H. et al. Beyond diversity loss and climate change: Impacts of Amazon deforestation on infectious diseases and public health. Anais da Academia Brasileira de Ciências, v. 92, n. 1, p. e20191375, 2020.
  49. FERREIRA, M. D. P.; FÉRES, J. G. Farm size and Land use efficiency in the Brazilian Amazon. Land Use Policy, v. 99, p. 104901, dez. 2020.
  50. FONSECA MORELLO, T. et al. Predicting fires for policy making: Improving accuracy of fire brigade allocation in the Brazilian Amazon. Ecological Economics, v. 169, p. 106501, mar. 2020.
  51. FULLER, C. et al. Protected-area planning in the Brazilian Amazon should prioritize additionality and permanence, not leakage mitigation. Biological Conservation, v. 248, p. 108673, ago. 2020.
  52. GOMES, M. F. C. et al. Measuring the contribution of human mobility to malaria persistence. Malaria Journal, v. 19, n. 1, p. 404, dez. 2020a.
  53. GOMES, W. DE B. et al. Avaliação dos Impactos das Mudanças na Cobertura da Terra e Cenário de Emissões (RCP 8.5) no Balanço de água na Bacia do Rio Madeira. Revista Brasileira de Meteorologia, 13 nov. 2020b.
  54. GOMES, W. et al. Water budget changes in the Amazon basin under RCP 8.5 and deforestation scenarios. Climate Research, v. 80, n. 2, p. 105–120, 14 maio 2020.
  55. GORI MAIA, A.; SCHONS, S. Z. The effect of environmental change on out-migration in the Brazilian Amazon rainforest. Population and Environment, 1 set. 2020.
  56. GUERRA, A. et al. Drivers and projections of vegetation loss in the Pantanal and surrounding ecosystems. Land Use Policy, v. 91, p. 104388, fev. 2020.
  57. GUERRERO, J. V. R. et al. Assessing Land Use and Land Cover Changes in the Direct Influence Zone of the Braço Norte Hydropower Complex, Brazilian Amazonia. Forests, v. 11, n. 9, p. 988, 15 set. 2020.
  58. HAGHTALAB, N. et al. Evaluating spatial patterns in precipitation trends across the Amazon basin driven by land cover and global scale forcings. Theoretical and Applied Climatology, v. 140, n. 1–2, p. 411–427, abr. 2020.
  59. HAMPF, A. C. et al. Future yields of double-cropping systems in the Southern Amazon, Brazil, under climate change and technological development. Agricultural Systems, v. 177, p. 102707, jan. 2020.
  60. HARGITA; GIESSEN; GÜNTER. Similarities and Differences between International REDD+ and Transnational Deforestation-Free Supply Chain Initiatives—A Review. Sustainability, v. 12, n. 3, p. 896, 25 jan. 2020.
  61. HEILMAYR, R. et al. Brazil’s Amazon Soy Moratorium reduced deforestation. Nature Food, v. 1, n. 12, p. 801–810, dez. 2020.
  62. JACKSON, C.; ADAM, E. Remote sensing of selective logging in tropical forests: current state and future directions. iForest – Biogeosciences and Forestry, v. 13, n. 4, p. 286–300, 31 ago. 2020.
  63. JAKIMOW, B. et al. Visualizing and labeling dense multi-sensor earth observation time series: The EO Time Series Viewer. Environmental Modelling & Software, v. 125, p. 104631, mar. 2020.
  64. JESUS, S. C. DE; CATOJO, A. M. Z. Deforestation in Conservation Units of the Brazilian Amazon: the case of the Terra do Meio Mosaic. Ciência e Natura, v. 42, p. e42, 3 set. 2020.
  65. JOHANSEN, I. C.; RODRIGUES, P. T.; FERREIRA, M. U. Human mobility and urban malaria risk in the main transmission hotspot of Amazonian Brazil. PLOS ONE, v. 15, n. 11, p. e0242357, 25 nov. 2020.
  66. JÚLIO CÉSAR, DOS R. et al. Integrated crop-livestock systems: A sustainable land-use alternative for food production in the Brazilian Cerrado and Amazon. Journal of Cleaner Production, p. 124580, out. 2020.
  67. KALACSKA, M. et al. Deciphering the many maps of the Xingu River Basin – an assessment of land cover classifications at multiple scales. Proceedings of the Academy of Natural Sciences of Philadelphia, v. 166, n. 1, 24 nov. 2020.
  68. KAUANO, É. E. et al. Do protected areas hamper economic development of the Amazon region? An analysis of the relationship between protected areas and the economic growth of Brazilian Amazon municipalities. Land Use Policy, v. 92, p. 104473, mar. 2020.
  69. KELES, D. et al. What Drives the Erasure of Protected Areas? Evidence from across the Brazilian Amazon. Ecological Economics, v. 176, p. 106733, out. 2020.
  70. KULEVICZ, R. A. et al. Analysis of Forest’s Genetic Vulnerability and Arguments to Reduce Deforestation. Ambiente e Sociedade, v. 23, p. e02222, 2020.
  71. LEAL, F. A.; MIGUEL, E. P.; MATRICARDI, E. A. T. Estimates of Deforestation Rates in Rural Properties in the Legal Amazon. Floresta e Ambiente, v. 27, n. 2, p. e20170283, 2020.
  72. LIMA, T. A. et al. Spatial patterns of logging-related disturbance events: a multi-scale analysis on forest management units located in the Brazilian Amazon. Landscape Ecology, 7 ago. 2020.
  73. MAMMADOVA, A.; BEHAGEL, J.; MASIERO, M. Making deforestation risk visible. Discourses on bovine leather supply chain in Brazil. Geoforum, p. S0016718520300737, abr. 2020.
  74. MARETTO, R. V. et al. Spatio-Temporal Deep Learning Approach to Map Deforestation in Amazon Rainforest. IEEE Geoscience and Remote Sensing Letters, p. 1–5, 2020.
  75. MATRICARDI, E. A. T. et al. Long-term forest degradation surpasses deforestation in the Brazilian Amazon. Science, v. 369, n. 6509, p. 1378–1382, 11 set. 2020.
  76. MENEZES, T. C. C. Environmental Governance and Regularization of Land Ownership: development and multiple territorial dynamics in the Amazon. Vibrant: Virtual Brazilian Anthropology, v. 17, p. e17452, 2020.
  77. MONTIBELLER, B. et al. Increasing fragmentation of forest cover in Brazil’s Legal Amazon from 2001 to 2017. Scientific Reports, v. 10, n. 1, p. 5803, dez. 2020.
  78. MORELLO, T.; FALCÃO, L. The Fire Management Dilemma in the Brazilian Amazon: Synthesizing Pathways of Causality across Five Case Studies in the State of Pará. Human Ecology, 31 jul. 2020.
  79. MORETTI, M. S. et al. Dinâmica espaço-temporal da extração seletiva de madeiras no estado de Mato Grosso entre 1992 e 2016. Ciência Florestal, v. 30, n. 3, p. 796–808, 1 set. 2020.
  80. MOURA, Y. M. DE et al. Carbon Dynamics in a Human-Modified Tropical Forest: A Case Study Using Multi-Temporal LiDAR Data. Remote Sensing, v. 12, n. 3, p. 430, 29 jan. 2020.
  81. NEATE-CLEGG, M. H. C.; ŞEKERCIOĞLU, Ç. H. Agricultural land in the Amazon basin supports low bird diversity and is a poor replacement for primary forest. The Condor, p. duaa020, 6 abr. 2020.
  82. NEEFF, T. et al. How forest data catalysed change in four successful case studies. Journal of Environmental Management, v. 271, p. 110736, out. 2020.
  83. NEVES, A. K. et al. Assessment of TerraClass and MapBiomas data on legend and map agreement for the Brazilian Amazon biome. Acta Amazonica, 18 maio 2020.
  84. NUNES, S. et al. Challenges and opportunities for large-scale reforestation in the Eastern Amazon using native species. Forest Ecology and Management, v. 466, p. 118120, jun. 2020.
  85. NUNES, S. et al. Unmasking secondary vegetation dynamics in the Brazilian Amazon. Environmental Research Letters, 17 fev. 2020.
  86. OLIVEIRA, A. L. DE et al. Forest Replacement in Brazil: A Fundamental Policy for Forestry. Floresta e Ambiente, v. 27, n. 4, p. e20180021, 2020.
  87. ORTEGA ADARME, M. et al. Evaluation of Deep Learning Techniques for Deforestation Detection in the Brazilian Amazon and Cerrado Biomes From Remote Sensing Imagery. Remote Sensing, v. 12, n. 6, p. 910, 12 mar. 2020.
  88. PEREIRA, E. J. DE A. L. et al. Brazilian policy and agribusiness damage the Amazon rainforest. Land Use Policy, v. 92, p. 104491, mar. 2020.
  89. PEREIRA, J. C.; VIOLA, E. Close to a Tipping Point? The Amazon and the Challenge of Sustainable Development under Growing Climate Pressures. Journal of Latin American Studies, p. 1–28, 22 maio 2020.
  90. PICOLI, M. C. A. et al. Impacts of Public and Private Sector Policies on Soybean and Pasture Expansion in Mato Grosso—Brazil from 2001 to 2017. Land, v. 9, n. 1, p. 20, 13 jan. 2020.
  91. PINILLOS, D. et al. Understanding Landscape Multifunctionality in a Post-forest Frontier: Supply and Demand of Ecosystem Services in Eastern Amazonia. Frontiers in Environmental Science, v. 7, p. 206, 21 jan. 2020.
  92. PRESTES, N. C. C. DOS S. et al. Fire Effects on Understory Forest Regeneration in Southern Amazonia. Frontiers in Forests and Global Change, v. 3, p. 10, 28 fev. 2020.
  93. PROBST, B. et al. Impacts of a large-scale titling initiative on deforestation in the Brazilian Amazon. Nature Sustainability, 18 maio 2020.
  94. PULELLA, A.; SICA, F.; RIZZOLI, P. Monthly Deforestation Monitoring with Sentinel-1 Multi-temporal Signatures and InSAR Coherences. Revista de Teledetección, n. 56, p. 1, 27 nov. 2020.
  95. REYDON, B. P.; FERNANDES, V. B.; TELLES, T. S. Land governance as a precondition for decreasing deforestation in the Brazilian Amazon. Land Use Policy, v. 94, p. 104313, maio 2020.
  96. RIBEIRO, J. R.; AZEVEDO-RAMOS, C.; NASCIMENTO DOS SANTOS, R. B. Impact of Forest Concessions on local jobs in Central Amazon. Trees, Forests and People, p. 100021, ago. 2020.
  97. ROCHA, D. G. et al. Wild dogs at stake: deforestation threatens the only Amazon endemic canid, the short-eared dog (Atelocynus microtis ). Royal Society Open Science, v. 7, n. 4, p. 190717, abr. 2020.
  98. RUIZ AGUDELO, C. A. et al. Land use planning in the Amazon basin: challenges from resilience thinking. Ecology and Society, v. 25, n. 1, p. art8, 2020.
  99. SARAIVA, M. et al. Forest regeneration in the Brazilian Amazon: Public policies and economic conditions. Journal of Cleaner Production, p. 122424, maio 2020.
  100. SCHMIDT, F. A. et al. Ant diversity studies in Acre: what we know and what we could do to know more? Boletim do Museu Paraense Emílio Goeldi – Ciências Naturais, v. 15, n. 1, p. 113–134, 28 maio 2020.
  101. SILVA et al. Effects of Forest Fragmentation on the Vertical Stratification of Neotropical Bats. Diversity, v. 12, n. 2, p. 67, 7 fev. 2020.
  102. SILVA, A. C. O. et al. A spatio-temporal Bayesian Network approach for deforestation prediction in an Amazon rainforest expansion frontier. Spatial Statistics, v. 35, p. 100393, mar. 2020.
  103. SILVA, C. V. J. et al. Estimating the multi-decadal carbon deficit of burned Amazonian forests. Environmental Research Letters, v. 15, n. 11, p. 114023, 26 out. 2020a.
  104. SILVA, L. G. DA et al. Effect of Land Cover Change on Atlantic Forest Fragmentation in Rio Largo, Al, Brazil. Journal of Experimental Agriculture International, p. 102–114, 22 jun. 2020b.
  105. SILVA, S. M. et al. Effects of landscape heterogeneity on population genetic structure and demography of Amazonian phyllostomid bats. Mammal Research, 13 nov. 2020.
  106. SILVA JUNIOR, C. H. L. et al. Amazon forest on the edge of collapse in the Maranhão State, Brazil. Land Use Policy, v. 97, p. 104806, set. 2020.
  107. SILVA JUNIOR, C. H. L. et al. Benchmark maps of 33 years of secondary forest age for Brazil. Scientific Data, v. 7, n. 1, p. 269, dez. 2020.
  108. SILVA JUNIOR, C. H. L. et al. Persistent collapse of biomass in Amazonian forest edges following deforestation leads to unaccounted carbon losses. Science Advances, v. 6, n. 40, p. eaaz8360, set. 2020.
  109. SILVESTRE, B. S.; VIANA, F. L. E.; SOUSA MONTEIRO, M. DE. Supply chain corruption practices circumventing sustainability standards: wolves in sheep’s clothing. International Journal of Operations & Production Management, v. 40, n. 12, p. 1873–1907, 9 set. 2020.
  110. SIQUEIRA-GAY, J. et al. Proposed Legislation to Mine Brazil’s Indigenous Lands Will Threaten Amazon Forests and Their Valuable Ecosystem Services. One Earth, v. 3, n. 3, p. 356–362, set. 2020.
  111. SPERA, S. A.; WINTER, J. M.; PARTRIDGE, T. F. Brazilian maize yields negatively affected by climate after land clearing. Nature Sustainability, 29 jun. 2020.
  112. STROPP, J. et al. The ghosts of forests past and future: deforestation and botanical sampling in the Brazilian Amazon. Ecography, v. 43, n. 7, p. 979–989, jul. 2020.
  113. TANURE, T. M. DO P. et al. The Impacts of Climate Change on Agricultural Production, Land Use and Economy of the Legal Amazon Region Between 2030 and 2049. Economia, p. S1517758020300291, maio 2020.
  114. TAYLOR, R. et al. The rise of big data and supporting technologies in keeping watch on the world’s forests. International Forestry Review, v. 22, n. 1, p. 129–141, 1 jun. 2020.
  115. TEIXEIRA-SANTOS, J. et al. Environmental factors influencing the abundance of four species of threatened mammals in degraded habitats in the eastern Brazilian Amazon. PLOS ONE, v. 15, n. 2, p. e0229459, 26 fev. 2020.
  116. TEJADA, G. et al. Mapping data gaps to estimate biomass across Brazilian Amazon forests. Forest Ecosystems, v. 7, n. 1, p. 25, dez. 2020.
  117. TORRES DE JESUS, G. et al. Innovation path and contingencies in the China-Brazil earth resources satellite program. Acta Astronautica, p. S0094576520305580, set. 2020.
  118. TURNES, J. N. et al. Atrous cGAN for SAR to Optical Image Translation. IEEE Geoscience and Remote Sensing Letters, p. 1–5, 2020.
  119. UBIALI, D. G. et al. Palicourea marcgravii (Rubiaceae) poisoning in cattle grazing in Brazil. Tropical Animal Health and Production, v. 52, n. 6, p. 3527–3535, nov. 2020.
  120. URZEDO, D. I. et al. A global production network for ecosystem services: The emergent governance of landscape restoration in the Brazilian Amazon. Global Environmental Change, v. 61, p. 102059, mar. 2020.
  121. VELASTEGUI-MONTOYA, A.; LIMA, A. DE; ADAMI, M. Multitemporal Analysis of Deforestation in Response to the Construction of the Tucuruí Dam. ISPRS International Journal of Geo-Information, v. 9, n. 10, p. 583, 3 out. 2020.
  122. VON RANDOW, R. DE C. S. et al. Evapotranspiration and gross primary productivity of secondary vegetation in Amazonia inferred by eddy covariance. Agricultural and Forest Meteorology, v. 294, p. 108141, nov. 2020.
  123. WANG, Y. et al. Upturn in secondary forest clearing buffers primary forest loss in the Brazilian Amazon. Nature Sustainability, 27 jan. 2020.
  124. WEST, T. A. P. et al. Overstated carbon emission reductions from voluntary REDD+ projects in the Brazilian Amazon. Proceedings of the National Academy of Sciences, p. 202004334, 14 set. 2020.
  125. YANG, Y. et al. Interannual Variability of Carbon Uptake of Secondary Forests in the Brazilian Amazon (2004‐2014). Global Biogeochemical Cycles, v. 34, n. 6, jun. 2020.
  126. ZU ERMGASSEN, E. K. H. J. et al. The origin, supply chain, and deforestation risk of Brazil’s beef exports. Proceedings of the National Academy of Sciences, v. 117, n. 50, p. 31770–31779, 15 dez. 2020.

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