Pre-harvest sugarcane burning emission inventories based on remote sensing data in the state of São Paulo, Brazil

[1]  J. Randerson,et al.  Global Fire Emissions Database, Version 3.1 , 2013 .

[2]  S. Freitas,et al.  Biomass Burning in Amazonia: Emissions, Long‐Range Transport of Smoke and Its Regional and Remote Impacts , 2013 .

[3]  Daniel Alves Aguiar,et al.  A Web Platform Development to Perform Thematic Accuracy Assessment of Sugarcane Mapping in South-Central Brazil , 2012, Remote. Sens..

[4]  Daniel Alves Aguiar,et al.  Remote Sensing Images in Support of Environmental Protocol: Monitoring the Sugarcane Harvest in São Paulo State, Brazil , 2011, Remote. Sens..

[5]  S. Freitas,et al.  Pre-Harvest Sugarcane Burning: Determination of Emission Factors through Laboratory Measurements , 2011 .

[6]  M. Razinger,et al.  Biomass burning emissions estimated with a global fire assimilation system based on observed fire radiative power , 2011 .

[7]  S. Freitas,et al.  PREP-CHEM-SRC – 1.0: a preprocessor of trace gas and aerosol emission fields for regional and global atmospheric chemistry models , 2011 .

[8]  S. K. Akagi,et al.  The Fire INventory from NCAR (FINN): a high resolution global model to estimate the emissions from open burning , 2010 .

[9]  J. Randerson,et al.  Global fire emissions and the contribution of deforestation, savanna, forest, agricultural, and peat fires (1997-2009) , 2010 .

[10]  Virginie Marécal,et al.  An urban emissions inventory for South America and its application in numerical modeling of atmospheric chemical composition at local and regional scales , 2010 .

[11]  G. Roberts,et al.  New GOES imager algorithms for cloud and active fire detection and fire radiative power assessment across North, South and Central America , 2010 .

[12]  Eduardo von Sperling,et al.  Greenhouse gas emissions in the life cycle of ethanol: estimation in agriculture and industrialization stages in Minas Gerais, Brazil , 2010 .

[13]  P. Saldiva,et al.  Impact of outdoor biomass air pollution on hypertension hospital admissions , 2010, Journal of Epidemiology & Community Health.

[14]  Daniel Alves Aguiar,et al.  Studies on the Rapid Expansion of Sugarcane for Ethanol Production in São Paulo State (Brazil) Using Landsat Data , 2010, Remote. Sens..

[15]  J. Randerson,et al.  Assessing variability and long-term trends in burned area by merging multiple satellite fire products , 2009 .

[16]  S. Freitas,et al.  Estimating trace gas and aerosol emissions over South America: Relationship between fire radiative energy released and aerosol optical depth observations , 2009 .

[17]  Charles B. Yackulic,et al.  Expansion of sugarcane production in São Paulo, Brazil: Implications for fire occurrence and respiratory health , 2009 .

[18]  Saulo R. Freitas,et al.  Modelagem numérica da composição química da atmosfera e seus impactos no tempo, clima e qualidade do ar , 2009 .

[19]  A. Guenther,et al.  The tropical forest and fire emissions experiment: laboratory fire measurements and synthesis of campaign data , 2008 .

[20]  J. Seabra,et al.  Green house gases emissions in the production and use of ethanol from sugarcane in Brazil: the 2005/2006 averages and a prediction for 2020. , 2008 .

[21]  Joel S. Levine,et al.  Biomass burning and global change , 2008 .

[22]  D. Morton,et al.  Validation of GOES and MODIS active fire detection products using ASTER and ETM+ data , 2008 .

[23]  Helena Ribeiro Queimadas de cana-de-açúcar no Brasil: efeitos à saúde respiratória , 2008 .

[24]  M. R. L. V. Leal,et al.  O biocombustível no Brasil , 2007 .

[25]  S. Freitas,et al.  The Coupled Aerosol and Tracer Transport model to the Brazilian developments on the Regional Atmospheric Modeling System (CATT-BRAMS) – Part 2: Model sensitivity to the biomass burning inventories , 2007 .

[26]  S. Freitas,et al.  The Coupled Aerosol and Tracer Transport model to the Brazilian developments on the Regional Atmospheric Modeling System (CATT-BRAMS) – Part 1: Model description and evaluation , 2007 .

[27]  P. Saldiva,et al.  Air pollution from biomass burning and asthma hospital admissions in a sugar cane plantation area in Brazil , 2007, Journal of Epidemiology and Community Health.

[28]  F. Lopes,et al.  Mapeamento de internações hospitalares por problemas respiratórios e possíveis associações à exposição humana aos produtos da queima da palha de cana-de-açúcar no estado de São Paulo , 2006 .

[29]  D. Stevenson,et al.  Global environmental impacts of the hydrogen economy , 2006 .

[30]  Antonella Zanobetti,et al.  The Impact of Sugar Cane–Burning Emissions on the Respiratory System of Children and the Elderly , 2006, Environmental health perspectives.

[31]  Luiz Antonio Martinelli,et al.  Properties of aerosols from sugar-cane burning emissions in Southeastern Brazil , 2005 .

[32]  Angela Maria Magosso Takayanagui,et al.  MEIO AMBIENTE E POLUIÇÃO ATMOSFÉRICA: O CASO DA CANA-DE-AÇÚCAR , 2004 .

[33]  Arnaldo Alves Cardoso,et al.  Influence of sugar cane burning on aerosol soluble ion composition in Southeastern Brazil , 2004 .

[34]  P. Saldiva,et al.  Queima de biomassa e efeitos sobre a saúde , 2004 .

[35]  Yoram J. Kaufman,et al.  An Enhanced Contextual Fire Detection Algorithm for MODIS , 2003 .

[36]  F. S. Recuero,et al.  Monitoring the transport of biomass burning emissions in South America , 2002 .

[37]  V. Ramanathan,et al.  Aerosols, Climate, and the Hydrological Cycle , 2001, Science.

[38]  M. Andreae,et al.  Emission of trace gases and aerosols from biomass burning , 2001 .

[39]  Kirk R. Smith,et al.  GREENHOUSE IMPLICATIONS OF HOUSEHOLD STOVES: An Analysis for India , 2000 .

[40]  E. Prins,et al.  An overview of GOES‐8 diurnal fire and smoke results for SCAR‐B and 1995 fire season in South America , 1998 .

[41]  Gilberto Câmara,et al.  Spring: integrating remote sensing and gis by object-oriented data modelling , 1996, Comput. Graph..

[42]  M. Pereira Amazonia Biomass Burnings in 1987 and an Estimate of Their Tropospheric Emissions , 2016 .

[43]  Gregory R. Carmichael,et al.  Increased estimates of air-pollution emissions from Brazilian sugar-cane ethanol , 2012 .

[44]  B. M. D. C. E. Tecnologia Inventário de emissões e remoções antrópicas de gases de efeito estufa não controlados pelo Protocolo de Montreal: comunicação inicial do Brasil , 2010 .

[45]  Yan Feng,et al.  Air Pollution, Greenhouse Gases and Climate Change: Global and Regional Perspectives , 2009 .

[46]  N. H. Ravindranath,et al.  2006 IPCC Guidelines for National Greenhouse Gas Inventories , 2006 .

[47]  Tomaz Caetano Cannavam Ripoli,et al.  Biomassa de cana-de-açúcar: colheita, energia e ambiente , 2004 .

[48]  A. Braga,et al.  A poluição atmosférica e sua relação com a saúde humana na região canavieira de Piracicaba - SP , 2003 .

[49]  K. Treanton,et al.  Revised 1996 IPCC guidelines for national greenhouse gas inventories. v. 1: Greenhouse gas inventory reporting instructions.- v. 2: Greenhouse gas inventory workbook.- v.3: Greenhouse gas inventory reference manual , 1997 .