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Registro Completo |
Biblioteca(s): |
Embrapa Territorial. |
Data corrente: |
30/09/2011 |
Data da última atualização: |
03/05/2019 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Autoria: |
VICENTE, L. E.; SOUZA FILHO, C. R. de. |
Afiliação: |
LUIZ EDUARDO VICENTE, CNPM; CARLOS ROBERTO DE SOUZA FILHO, UNICAMP. |
Título: |
Identification of mineral components in tropical soils using reflectance spectroscopy and advanced spaceborne thermal emission and reflection radiometer (ASTER) data. |
Ano de publicação: |
2011 |
Fonte/Imprenta: |
Remote Sensing of Environment, v. 115, p. 1824-1836, 2011. |
ISSN: |
0034-4257 |
DOI: |
doi:10.1016/j.rse.2011.02.023 |
Idioma: |
Inglês |
Conteúdo: |
Soil characteristics provide important support for understanding transformations that occur in environmental systems. Physical characteristics and chemical compositions of soils controlled by pedogenetic processes, climatic changes and land use imply different types of environmental transformations. Reflectance spectroscopy is an alternative soil mapping technique that uses spectral absorption features between visible (VIS) and short-wave infrared (SWIR) wavelengths (0.3?2.5 μm) for determining soil mineralogy. Soil analysis by means of reflectance spectroscopy and orbital optical sensors have provided favorable results in mapping transformation processes in environmental systems, particularly in arid and semiarid climates in extra-tropical terrains. In the case of inter-tropical environments, these methods cannot be readily applied due to local factors such as lack of exposed regolith, high amounts of soil moisture and the presence of dense vegetation. This study uses Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) and reflectance spectroscopy data to map mineral components of soils covering a part of the state of São Paulo, Brazil, which could be linked to key aspects of environmental transformations in this tropical area (e.g., climate change, shifts in agriculture fronts, ph, and soil characteristics). We collected forty-two (42) soil samples at a depth of 0?20 cm, considering that this superficial layer corresponds to the highest correlation with soil properties detected by the ASTER sensor. These samples were measured using a FieldSpec FR spectrometer, and the derived spectra were interpreted for mineral composition. Interpretation was supported by X-ray diffraction analysis on the same samples. The spectral signatures were re-sampled to ASTER VNIR (AST1-4: 0.52?0.86 μm) and SWIR (AST5-9: 1.60?2.43 μm) spectral bandwidths and validated by comparing reflectance spectra of field samples with those extracted from atmospherically corrected and calibrated ASTER pixels. The agreement between spectral signatures measured from soil samples and those derived from ASTER imagery pixels proved plausible, with R2 correlation values ranging from 0.6493 to 0.7886. This signifies that diagnostic spectral features of key minerals in tropical soils can be mapped at the spectral resolution of 9-band ASTER VNIR through SWIR reflectance. We used these spectral signatures as end-members in hyperspectral routine classifications adapted for use with ASTER data. Results proved possible the identification and remote mapping of minerals such as kaolinite, montmorillonite and gibbsite, as well as the distinction between iron-rich and iron-poor soils. MenosSoil characteristics provide important support for understanding transformations that occur in environmental systems. Physical characteristics and chemical compositions of soils controlled by pedogenetic processes, climatic changes and land use imply different types of environmental transformations. Reflectance spectroscopy is an alternative soil mapping technique that uses spectral absorption features between visible (VIS) and short-wave infrared (SWIR) wavelengths (0.3?2.5 μm) for determining soil mineralogy. Soil analysis by means of reflectance spectroscopy and orbital optical sensors have provided favorable results in mapping transformation processes in environmental systems, particularly in arid and semiarid climates in extra-tropical terrains. In the case of inter-tropical environments, these methods cannot be readily applied due to local factors such as lack of exposed regolith, high amounts of soil moisture and the presence of dense vegetation. This study uses Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) and reflectance spectroscopy data to map mineral components of soils covering a part of the state of São Paulo, Brazil, which could be linked to key aspects of environmental transformations in this tropical area (e.g., climate change, shifts in agriculture fronts, ph, and soil characteristics). We collected forty-two (42) soil samples at a depth of 0?20 cm, considering that this superficial layer corresponds to the highest correlation ... Mostrar Tudo |
Palavras-Chave: |
ASTER; Hyperspectral; Tropical terrains. |
Thesaurus Nal: |
reflectance spectroscopy; soil minerals. |
Categoria do assunto: |
-- |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/42687/1/identification-vicente.pdf
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Marc: |
LEADER 03436naa a2200217 a 4500 001 1901889 005 2019-05-03 008 2011 bl uuuu u00u1 u #d 022 $a0034-4257 024 7 $adoi:10.1016/j.rse.2011.02.023$2DOI 100 1 $aVICENTE, L. E. 245 $aIdentification of mineral components in tropical soils using reflectance spectroscopy and advanced spaceborne thermal emission and reflection radiometer (ASTER) data. 260 $c2011 520 $aSoil characteristics provide important support for understanding transformations that occur in environmental systems. Physical characteristics and chemical compositions of soils controlled by pedogenetic processes, climatic changes and land use imply different types of environmental transformations. Reflectance spectroscopy is an alternative soil mapping technique that uses spectral absorption features between visible (VIS) and short-wave infrared (SWIR) wavelengths (0.3?2.5 μm) for determining soil mineralogy. Soil analysis by means of reflectance spectroscopy and orbital optical sensors have provided favorable results in mapping transformation processes in environmental systems, particularly in arid and semiarid climates in extra-tropical terrains. In the case of inter-tropical environments, these methods cannot be readily applied due to local factors such as lack of exposed regolith, high amounts of soil moisture and the presence of dense vegetation. This study uses Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) and reflectance spectroscopy data to map mineral components of soils covering a part of the state of São Paulo, Brazil, which could be linked to key aspects of environmental transformations in this tropical area (e.g., climate change, shifts in agriculture fronts, ph, and soil characteristics). We collected forty-two (42) soil samples at a depth of 0?20 cm, considering that this superficial layer corresponds to the highest correlation with soil properties detected by the ASTER sensor. These samples were measured using a FieldSpec FR spectrometer, and the derived spectra were interpreted for mineral composition. Interpretation was supported by X-ray diffraction analysis on the same samples. The spectral signatures were re-sampled to ASTER VNIR (AST1-4: 0.52?0.86 μm) and SWIR (AST5-9: 1.60?2.43 μm) spectral bandwidths and validated by comparing reflectance spectra of field samples with those extracted from atmospherically corrected and calibrated ASTER pixels. The agreement between spectral signatures measured from soil samples and those derived from ASTER imagery pixels proved plausible, with R2 correlation values ranging from 0.6493 to 0.7886. This signifies that diagnostic spectral features of key minerals in tropical soils can be mapped at the spectral resolution of 9-band ASTER VNIR through SWIR reflectance. We used these spectral signatures as end-members in hyperspectral routine classifications adapted for use with ASTER data. Results proved possible the identification and remote mapping of minerals such as kaolinite, montmorillonite and gibbsite, as well as the distinction between iron-rich and iron-poor soils. 650 $areflectance spectroscopy 650 $asoil minerals 653 $aASTER 653 $aHyperspectral 653 $aTropical terrains 700 1 $aSOUZA FILHO, C. R. de 773 $tRemote Sensing of Environment$gv. 115, p. 1824-1836, 2011.
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Embrapa Territorial (CNPM) |
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Biblioteca(s): |
Embrapa Amapá; Embrapa Meio Ambiente; Embrapa Rondônia. |
Data corrente: |
28/07/2023 |
Data da última atualização: |
08/08/2023 |
Tipo da produção científica: |
Capítulo em Livro Técnico-Científico |
Autoria: |
FIRMINO, A, V.; WADT, L. H. de O.; MÓDENA, E. de S.; COSTA, P. da; ARAÚJO, U. C. de; GUEDES, M. C. |
Afiliação: |
ANDERSON VASCONCELOS FIRMINO, UNIVERSIDADE FEDERAL DO AMAPÁ; LUCIA HELENA DE OLIVEIRA WADT, CPAF-RO; ÉRICA DE SOUZA MÓDENA, GAIA EDIÇÕES; PATRICIA DA COSTA, CNPMA; UILIAN COSTA DE ARAÚJO, AD ENGENHARIA E CONSULTORIA AMBIENTAL; MARCELINO CARNEIRO GUEDES, CPAF-AP. |
Título: |
Dinâmica populacional e demografia de castanheiras nativas. |
Ano de publicação: |
2023 |
Fonte/Imprenta: |
In: WADT, L. H. de O.; MAROCCOLO, J. F.; GUEDES, M. C.; SILVA, K. E. da (ed.). Castanha-da-amazônia: estudos sobre a espécie e sua cadeia de valor. Brasília, DF: Embrapa, 2023. |
Páginas: |
cap. 2, p. 51-78. |
ISBN: |
978-65-89957-97-3 v. 3 |
Idioma: |
Português |
Notas: |
V. 3: Ecologia e manejo de castanhais nativos. ODS 2, ODS 3, ODS 8, ODS 11, ODS 12, ODS 13, ODS 17. |
Conteúdo: |
Este capítulo visa discutir aspectos demográficos da castanheira, de modo a considerar a variação geográfica regional e com foco na comparação entre castanhais nativos antigos na região amazônica e aqueles em formação nas áreas da agricultura itinerante. |
Palavras-Chave: |
Castanha da amazônia; Produto florestal não madeireiro (PFNM); Selo ODS 11; Selo ODS 12; Selo ODS 13; Selo ODS 17; Selo ODS 2; Selo ODS 3; Selo ODS 8. |
Thesagro: |
Agricultura Familiar; Agricultura Sustentável; Bertholletia Excelsa; Cadeia Produtiva; Castanha do Para; Demografia; Dinâmica Populacional; Ecologia. |
Thesaurus NAL: |
Amazonia; Brazil nuts; Demography; Ecology; Family farms; Nontimber forest products; Population dynamics; Supply chain; Sustainable forestry. |
Categoria do assunto: |
K Ciência Florestal e Produtos de Origem Vegetal |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/doc/1155425/1/cpafro-18975.pdf
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Marc: |
LEADER 01901naa a2200517 a 4500 001 2155425 005 2023-08-08 008 2023 bl uuuu u00u1 u #d 100 1 $aFIRMINO, A, V. 245 $aDinâmica populacional e demografia de castanheiras nativas.$h[electronic resource] 260 $c2023 300 $acap. 2, p. 51-78. 500 $aV. 3: Ecologia e manejo de castanhais nativos. ODS 2, ODS 3, ODS 8, ODS 11, ODS 12, ODS 13, ODS 17. 520 $aEste capítulo visa discutir aspectos demográficos da castanheira, de modo a considerar a variação geográfica regional e com foco na comparação entre castanhais nativos antigos na região amazônica e aqueles em formação nas áreas da agricultura itinerante. 650 $aAmazonia 650 $aBrazil nuts 650 $aDemography 650 $aEcology 650 $aFamily farms 650 $aNontimber forest products 650 $aPopulation dynamics 650 $aSupply chain 650 $aSustainable forestry 650 $aAgricultura Familiar 650 $aAgricultura Sustentável 650 $aBertholletia Excelsa 650 $aCadeia Produtiva 650 $aCastanha do Para 650 $aDemografia 650 $aDinâmica Populacional 650 $aEcologia 653 $aCastanha da amazônia 653 $aProduto florestal não madeireiro (PFNM) 653 $aSelo ODS 11 653 $aSelo ODS 12 653 $aSelo ODS 13 653 $aSelo ODS 17 653 $aSelo ODS 2 653 $aSelo ODS 3 653 $aSelo ODS 8 700 1 $aWADT, L. H. de O. 700 1 $aMÓDENA, E. de S. 700 1 $aCOSTA, P. da 700 1 $aARAÚJO, U. C. de 700 1 $aGUEDES, M. C. 773 $tIn: WADT, L. H. de O.; MAROCCOLO, J. F.; GUEDES, M. C.; SILVA, K. E. da (ed.). Castanha-da-amazônia: estudos sobre a espécie e sua cadeia de valor. Brasília, DF: Embrapa, 2023.
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Embrapa Rondônia (CPAF-RO) |
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