@Article{MataveliPeSáOlJoFrAr:2023:UpLaUs,
               author = "Mataveli, Guilherme Augusto Verola and Pereira, Gabriel and 
                         S{\'a}nchez Ipia, Alber Hamersson and Oliveira, Gabriel de and 
                         Jones, Matthew W. and Freitas, Saulo Ribeiro de and Arag{\~a}o, 
                         Luiz Eduardo Oliveira e Cruz de",
          affiliation = "{Instituto Nacional de Pesquisas Espaciais (INPE)} and 
                         {Universidade Federal de S{\~a}o Jo{\~a}o del-Rei (UFSJ)} and 
                         {Instituto Nacional de Pesquisas Espaciais (INPE)} and {University 
                         of South Alabama} and {University of East Anglia} and {Instituto 
                         Nacional de Pesquisas Espaciais (INPE)} and {Instituto Nacional de 
                         Pesquisas Espaciais (INPE)}",
                title = "Updated Land Use and Land Cover Information Improves Biomass 
                         Burning Emission Estimates",
              journal = "Fire-Switzerland",
                 year = "2023",
               volume = "6",
               number = "11",
                pages = "426",
             keywords = "biomass burning, land use and land cover, remote sensing, 
                         modelling, Amazon, Cerrado.",
             abstract = "Biomass burning (BB) emissions negatively impact the biosphere and 
                         human lives. Orbital remote sensing and modelling are used to 
                         estimate BB emissions on regional to global scales, but these 
                         estimates are subject to errors related to the parameters, data, 
                         and methods available. For example, emission factors (mass emitted 
                         by species during BB per mass of dry matter burned) are based on 
                         land use and land cover (LULC) classifications that vary 
                         considerably across products. In this work, we evaluate how BB 
                         emissions vary in the PREP-CHEM-SRC emission estimator tool 
                         (version 1.8.3) when it is run with original LULC data from 
                         MDC12Q1 (collection 5.1) and newer LULC data from MapBiomas 
                         (collection 6.0). We compare the results using both datasets in 
                         the Brazilian Amazon and Cerrado biomes during the 20022020 time 
                         series. A major reallocation of emissions occurs within Brazil 
                         when using the MapBiomas product, with emissions decreasing by 788 
                         Gg (\−1.91% year\−1 ) in the Amazon and emissions 
                         increasing by 371 Gg (2.44% year\−1 ) in the Cerrado. The 
                         differences identified are mostly associated with the better 
                         capture of the deforestation process in the Amazon and forest 
                         formations in Northern Cerrado with the MapBiomas product, as 
                         emissions in forest-related LULCs decreased by 5260 Gg in the 
                         Amazon biome and increased by 1676 Gg in the Cerrado biome. This 
                         is an important improvement to PREP-CHEM-SRC, which could be 
                         considered the tool to build South Americas official BB emission 
                         inventory and to provide a basis for setting emission reduction 
                         targets and assessing the effectiveness of mitigation 
                         strategies.",
                  doi = "10.3390/fire6110426",
                  url = "http://dx.doi.org/10.3390/fire6110426",
                 issn = "2571-6255",
                label = "lattes: 5174466549126882 7 MataveliPeSaOlJoFrAr:2023:UpLaUs",
             language = "en",
           targetfile = "fire-06-00426-v2.pdf",
        urlaccessdate = "13 maio 2024"
}