Artículos de revistas
Detection Of Quartz And Clay For Monitoring Of Degradation Land Data From Thermal Infrared Sensor Aster [detecção De Quartzo E Argilominerais Para O Monitoramento De Degradação De Terras A Partir De Dados Do Infravermelho Termal Do Sensor Aster]
Registro en:
Revista Brasileira De Geofisica. , v. 28, n. 2, p. 229 - 247, 2010.
0102261X
2-s2.0-78149386721
Autor
Vicente L.E.
Filho C.R.S.
Institución
Resumen
In thiswork, ASTER(Advanced Spaceborne Thermal Emission and Reflection Radiometer)Thermal Infrareddata(TIR-10to14bands-8.125-10.95μ) were used to map quartz and clay minerals in land degradation areas, in the southwestern portion of Rio Grande do Sul State, Brazil. This study area presents a specific land degradation process named arenização, which is related to erosion of arenitic rocks and formation of structured sandy soils. Such processes introduce several environmental damages such as increased erosion, reduction in soil fertility and decline of agricultural land use. Using ASTER/TIR data it was possible to replicate important diagnostic spectral features related to the SiO reststrahlen band from clay minerals and quartz. Mineral abundance maps were produced using spectral index and band ratio methods. The results show that ASTER/TIR data were able to map these minerals in the soil and to reveal the degree of mixtures among quartz, clay minerals and others land cover features. Areas simultaneously mapped as quartz-rich and with lower proportion of clay minerals indicate a wealth of sandy soils, scarce vegetation cover and excessive drainage, which leads to large nutrient losses. This approach allows a more precise and quantitative mapping of land degradation characteristics, with important implications to the study of its dynamics in tropical environments. © 2010 Sociedade Brasileira de Geofísica. 28 2 229 247 Abrams, M., Hook, S., Ramachandran, B., (2002) ASTER User Hand- Book (version 2), p. 135. , NASA Jet Propulsion Laboratory (JPL) Azevedo, A.C., Kaminski, J., Considerações sobre os solos dos campos de areia no Rio Grande do Sul (1995) Ciência E Ambiente, 11, pp. 65-79 Brady, N.C., (1989) Natureza E Propriedades Dos Solos, p. 878. , Rio de Janeiro: Freitas Bastos Cudahy, T.J., Okada, K., Yamato, Y., Huntington, J.F., Hackwell, J.A., Mapping skarn alteration mineralogy at Yerington, Nevada, using airborne hyperspectral TIR SEBASS imaging data (2000) In: ERIM Proceedings Brazilian Journal of Geophysics, 28 (2), pp. 70-79. , 2010 of the 14th International Conference on Applied Geologic Remote Sensing (2005), p. 2005. , http://www.syd.dem.csiro.au/research/MMTG/Exploration/ASTER/ASTER.htm, CSIRO. Commonwealth Scientific and Industrial Research Organization, Disponível em, Acesso em: 25 setDemattê, J.L.I., Holowaychuck, N., Solos da região de São Pedro, Estado de São Paulo: II mineralogia (1977) Revista Brasileira De Ciência Do Solo, 1, pp. 99-103 Demattê, J.A.M., Toledo, A.M.A., Simões, M.S., Metodologia para reconhecimentodetrêssolosporsensores: Laboratorialeorbital (2004) Revista Brasileira De Ciência Do Solo, 28 (5), pp. 877-889 Formaggio, A.R., Epiphanio, J.C.N., Valeriano, M.M., Oliveira, J.B., Comportamento espectral (450-2450 nm) de solos tropicais de São Paulo (1996) Revista Brasileira De Ciência Do Solo, 20 (3), pp. 467-474 Galvão, L.S., Spectral discrimination of hydrothermally altered materials using ASTER short-wave infrared bands: Evaluation in a tropical savannah environment (2005) International Journal of Applied Earth Observation and Geoinformation, 7, pp. 107-114 Gillespie, A.R., Kahle, A.B., Palluconi, F.D., Mapping alluvial fans in Death Valley, California, using multichannel thermal infrared images (1984) Geophysical Research Letters, 11 (11), pp. 1153-1156 Gillespie, A.R., Rokugawa, S., Matsunaga, T., Cothern, J.S., Hook, S.J., (1999) Temperature/emissivity Separationalgorithm Theoretical Basis Document, Version 2.4, p. 64. , USA: National Aeronautics and Space Administration (NASA) Hales, K., Neelin, J.D., Zeng, N., Sensitivity of tropical land climate to leaf area index: Role of surface conductance versus albedo (2004) American Meteorological Society, 17, pp. 1459-1473 Hanan, N.P., Prevost, Y., Diouf, A., Diallo, O., Assessment of desertification around deep wells in the Sahel using satellite imagery (1991) Journal of Applied Ecology, 28 (1), pp. 173-186 Hewson, R.D., Cudahy, T.J., Mizuhiko, S., Ueda, K., Mauger, A.J., Seamless geological map generation using ASTER in the Broken Hill-Curnamona Province of Australia (2005) Remote Sensing of Environment, 99, pp. 159-172 Hook, S.J., Cudahy, T.J., Kahle, A.B., Whitbourn, L.B., Synergy of active and passive airborne thermal infrared systems for surface compositional mapping (1998) Journal of Geophysical Research, 103 (18), pp. 269-276 Hook, S.J., Abbott, E.A., Grove, C., Kahle, A.B., Palluconi, F.D., Use of multispectral thermal infrared data in geological studies (1999) Manual of Remote Sensing: Remote Sensing For the Earth Sciences, 3, pp. 59-110. , In: RENCZ AN (Ed.), 3rd ed, New York: John Wiley and sons Huete, A.R., Liu, H., Lira, G.R., Batchily, K., Escadafal, R., A soil color index to adjust for soil and litter noise and vegetation index imagery of arid regions (1994) IEEE, pp. 1042-1043 Hunt, G.R., Salisbury, J.W., Visible and near infrared spectra of minerals and rocks: II Carbonates (1971) Modern Geology, 2, pp. 23-30 (2003), IBGE. Instituto Brasileiro de Geografia e Estatística, Mapa Geológico 1:250 000 -folhas SH.21-X-D e SH.21-Z-B(2003), IBGE. Instituto Brasileiro de Geografia e Estatística, Mapa Geo-morfológico 1:250 000 -folhas SH.21-X-D e SH.21-Z-B(2003), IBGE. Instituto Brasileiro de Geografia e Estatística, Mapa Pedológico 1:250 000 -folhas SH.21-X-D e SH.21-Z-BGood practice guidance for land use, land-use change and forestry (2003) In: IPCC National Greenhouse Gas Inventories Programme, p. 295. , IPCC. Intergovernmental Panel on Climate Change, Hayama, Japan Kahle, A.B., Goetz, A.F.H., Mineralogic information from a new airborne thermal infrared multispectral scanner (1983) Science, 222, pp. 24-27 Kahle, A.B., Madura, D.P., Soha, J.M., Middle infrared multispec-tral aircraft scanner data: Analysis for geological applications (1980) Applied Optics, 19, pp. 2279-2290 Kahle, A.B., Palluconi, F.D., Cristensen, P.R., Thermal emission spectroscopy: Application to Earth and Mars (1993) Remote Geochemical Analysis: Elemental and Mineralogical Composition. Topics In Remote Sensing, 4, pp. 99-120. , In: PIETERS CM & ENGLERT PAJ (Eds.), Cambridge, UK: Cambridge University Press Kalinowski, A., Oliver, S., ASTER Mineral Index Processing Manual Remote Sensing Applications, p. 37. , Geoscience Australia Kassas, M., Desertification: A general review (1995) Journal of Arid Environments, 30, pp. 115-128 Kealy, S., Hook, S.J., Separating Temperature and Emissivity in Thermal Infrared Multispectral Scanner Data: Implications for Recovering Land Surface Temperatures (1993) IEEE Transactions On Geoscience and Remote Sensing, 31, p. 6 Korb, A.R., Dybwad, P., Wadsworth, W., Salisbury, J.W., (1996) Portable FTIR Spectrometer For Field Measurements of Radiance and Emissivity: Applied Optics, 35, pp. 1679-1692 Latz, K., Weismiller, R.A., van Scoyoc, G.E., Baumgardner, M.F., Characteristic variation in spectral reflectance of selected Alfisols (1984) Soil Science Society of American Journal, 48, pp. 1130-1134 Lima, V.S., Assinaturas espectrais de gossans associados a mineralizações de Pb-Zn-Ba na Bacia de Irecê (BA): Um estudo baseado em dados dos sensores TM e ASTER (2003), p. 154. , Dissertação de mestrado (Geologia) -Instituto de Geociências, Universidade Estadual de Campinas, Campinas -SPMoreno, J.A., O clima do Rio Grande do Sul (1961) Boletim Geográfico Do Rio Grande Do Sul, 6 (11), p. 134. , Porto Alegre, ano Nanni, M.R., Demattê, J.A.M., Spectral Reflectance Methodology in Comparison to Traditional Soil Analysis (2006) Soil Science Society of American Journal, 70, pp. 393-407 Nimer, E., (1977) In: Geografia Do Brasil: Região Sul, pp. 35-79. , Clima, Rio de Janeiro: Instituto Brasileiro de Geografia e Estatística Ninomiya, Y., Fu, B., Cudahy, T.J., Detecting lithology with Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) multispectral thermal infrared "radiance-at-sensor" data (2005) Remote Sensing of Environment, 99, pp. 127-139 Ramsey, M.S., Christensen, P.R., Lancaster, N., Howard, D.A., Identification of sand sources and transport pathways at the Kelso Dunes, California, using thermal infrared Remote Sensing (1999) Geol. Soc. Amer. Bull, 111, pp. 646-662 Robinove, C.J., Chavez, P.S., Gehring, D., Holmgren, R., Arid land monitoring using Landsat albedo difference images (1981) Remote Sensing of Environment, 11, pp. 133-156 Rockwell, B.W., Hofstra, A.H., Identification of quartz and carbonate minerals across northern Nevada using ASTER thermal infrared emissivity data -Implications for geologic mapping and mineral resource investigations in well-studied and frontier areas (2008) Geosphere, 4 (1), pp. 218-246 Salisbury, J.W., Walter, L.S., Vergo, N., D'ARIA, D.M., (1991), p. 294. , Infrared (2.1-25 micrometers) Spectra of Minerals. USA: Johns Hopkins University PressSchmugge, T., French, A., Ritchie, J.C., Rango, A., Pelgrum, H., Temperature and emissivity separation from multispectral thermal infrared observations (2002) Remote Sensing of Environment, 79, pp. 189-198 Suertegaray, D.M.A., Guasselli, L.A., Verdum, R., (2001) Atlas Da Arenização: Sudoeste Do Rio Grande Do Sul, p. 84. , Porto Alegre: Rio Grande do Sul, Secretaria Estadual de Coordenação e Planejamento Vaughan, R.G., Hook, S.J., Calvin, W.M., Taranik, J.V., Surface mineral mapping at Steamboat Springs, Nevada, USA, multi-wavelength thermal infrared images (2005) Remote Sensing of Environment, 99, pp. 140-158 Verdum, R., Approche Géographique des "déserts" dans les communes de São Francisco de Assis et Manuel Viana, État du Rio Grande do Sul, Brésil. Tese de Doutorado (1997) Toulouse, p. 211. , Université de Toulouse Le Mirail Verstraete, M.M., Schwartz, S.A., Desertification and global change (1991) Vegetation, 91, pp. 3-13 Vicente, L.E., Souza Filho, C.R., Perez Filho, A., Mapeamen-to De Formações Arenosas Em Fragmentos De Cerrado Utilizando Dados E Produtos Do Sensor ASTER (2005) In: Simp. Bras. Sens. Rem, pp. 3419-3426. , http://www.ltid.inpe.br/sbsr2005, 12., Goiânia, INPE/SELASR, Disponível em, Acesso em: 25 jul. 2005 Vicente, L.E., Bolfe, E.L., Souza Filho, C.R., Nunes, G.M., Mapeamento De Corte Seletivo Na Floresta Amazônica Utilizando Dados Do Sensor ASTER E Análise De Correlação (2009) In: Simp. Bras. Sens. Rem, pp. 3135-3142. , http://www.ltid.inpe.br/sbsr2009, 14., Natal, INPE/SELASR, Disponível em, Acesso em: 30 nov. 2009 Vitousek, P.M., Mooney, H.A., Melillo, J.M., Human domination of Earth's ecosystems (1997) Science, 277, pp. 494-499 Wessman, C., Remote sensing of soil processes (1991) Agric. Ecosys. Envir, 34, pp. 479-493