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1 UNIVERSIDADE DE SÃO PAULO Departamento de Geofísica - Curso de Graduação Disciplina: AGG0313 (Sondagens Eletromagnéticas) 2o semestre de 2013 Responsável: Prof. Dr. Jorge Luís Porsani RReeffeerrêênncciiaass BBiibblliiooggrrááffiiccaass CAGNIARD, L., 1953, Basic theory of the magnetotelluric method of geophysics prospecting. Geophysics, v.18, p.605-635. DANIELSEN, J.E., AUKENA, E., JØRGENSEN, F., SØNDERGAARD, V., SØRENSEN, K.I., 2003. The application of the transient electromagnetic method in hydrogeophysical surveys. Journal of Applied Geophysics 53, p.181– 198. DAVIS, J.L. & ANNAN, A.P., 1989. Ground penetrating radar for high resolution mapping of soil and rock stratigraphy. Geophysical Prospecting, v.37, p.531-551. FITTERMAN, D.V.; MARK, M.T., 1986, Transient electromagnetic sounding for groundwater. Geophysics, v.51, n.4, p.955-1005. FRISCHKECHT, F.C., 1987, Electromagnetic physics scale modeling. Investigations in Geophysics, no 3. Electromagnetic Methods in Applied Geophysics. 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Electromagnetic Methods in Applied Geophysics. Society of Exploration Geophysicists, Ed. Misac N. Nabighian, v.2, Application, Parts A and B, chapter 6, p.427-520. NABIGHIAN, M.N., 1991, Electromagnetic methods in applied geophysics – Investigations in geophysics, no. 3, vol. 2 – SEG. ORANGE, ARNOLD S., 1989. Magnetotelluric Exploration for Hydrocarbons. IEEE. OLDENBURG, D.W., 1990, Inversion of electromagnetic data: An overview of new techniques. Geophysics, v.11, p.231-270. PARK, S.K. & LIVELYBROOKS, D.W., 1989, Quantitative interpretation of rotationally invariant parameters in magnetotellurics. Geophysics, v.54, p.1483-1490. PORSANI, J.L., 1991. Estudo da Estrutura Geoelétrica da Região do Juruá-AM, pelo Método Magnetotelúrico. Dissertação de Mestrado, Núcleo de Pesquisas em Geofísica do Petróleo, UFPA, 104p. PORSANI, J.L., 1999. Ground Penetrating Radar (GPR): Proposta Metodológica de Emprego em Estudos Geológico – Goetécnicos nas regiões de Rio Claro e Descalvado – SP. Tese de Doutorado, Instituto de Geociências e Ciências Exatas, UNESP, Câmpus de Rio Claro – SP, 145p. PORSANI, J.L., 2009. Contribuição do GPR em Geociências, Planejamento Urbano e Arqueologia. Tese de livre-docência, IAG-USP, 2009. PORSANI, J.L., BORGES, W.R., ELIS, V.R., DIOGO, L.A., HIODO, F.Y., MARRANO, A., BIRELLI, C.A., 2004. Investigações Geofísicas de Superfície e de Poço no Sítio Controlado de Geofísica rasa do IAG/USP. Revista Brasileira de Geofísica, v.22, p.245 - 258. PORSANI, J.L., MENDONÇA, C.A., BETTENCOURT, J.S., HIODO, F.Y., VIAN, J.A.J., SILVA, J.E., 2004. Investigações GPR nos Distritos Mineiros de Santa Bárbara e Bom Futuro: Província Estanífera de Rondônia.. Revista Brasileira de Geofísica, v.22, p.57 - 68. PORSANI, J.L., MALAGUTTI FILHO, W., ELIS, V.R., FISSEHA, S., DOURADO, J.C., MOURA, H.P., 2004. The Use of GPR and VES in Delineating a Contamination Plume in a Landfill site: a Case Study in SE Brazil. Journal of Applied Geophysics, v.55, p.199 - 209. PORSANI, J.L., ASSINE, M.L., MOUTINHO, L., 2005. Application of GPR in the Study of a 3 Modern Alluvial Megafan: the Case of the Taquari River in Pantanal Wetland, West-Central Brazil.. Subsurface Sensing Technologies And Applications, v.6, p.219 - 233. PORSANI, J.L., ELIS, V.R., HIODO, F.Y., 2005. Geophysical Investigations for the Characterization of Fractured Rock Aquifers in Itu, SE Brazil.. Journal of Applied Geophysics, v.57, p.119 - 128. PORSANI, J.L.; BORGES, W.R.; RODRIGUES, S.I.; HIODO, F.Y., 2006. O Sítio Controlado de Geofísica Rasa do IAG/USP: Instalação e Resultados GPR 2D-3D. Revista Brasileira de Geofísica 24, 49-61. PORSANI, J.L., SAUCK, W.A, SOUZA JÚNIOR, A.O., 2006. GPR for Mapping Fractures and as a Guide for the Extraction of Ornamental Granite from a Quarry: a Case Study from Southern Brazil.. Journal of Applied Geophysics, v.58, p.177 - 187. PORSANI, J.L., BORGES, W.R., RODRIGUES, S.I., HIODO, F.Y., 2006. O Sítio Controlado de Geofísica Rasa do IAG/USP: Instalação e Resultados GPR 2D-3D.. Revista Brasileira de Geofísica, v.24, p.49 - 61. PORSANI, J.L., SAUCK, William A., 2007. GPR profiles over multiple steel tanks: artifact removal through effective data processing. Geophysics, v.72, n.6, p. J77-J83. PORSANI, J.L.; SLOB, E.; LIMA, R.S.; LEITE, D.N., 2010. Comparing detection and location performance of perpendicular and parallel broadside GPR antenna orientations. Journal of Applied Geophysics 70, 1-8. PORSANI, J.L.; JANGELME, G.M.; KIPNIS, R., 2010. GPR survey at Lapa do Santo archaeological site, Lagoa Santa karstic region, Minas Gerais state, Brazil. Journal of Archaeological Science 37, 1141-1148. PORSANI, J.L., BORTOLOZO, C.A., ALMEIDA, E.R., SANTOS SOBRINHO, E.N., SANTOS, T.G., 2012. TDEM survey in urban environmental for hydrogeological study at USP campus in São Paulo city, Brazil. Journal of Applied Geophysics 76, 102-108. PORSANI, J.L., RUY, Y.B., RAMOS,F.P., YAMANOUTH, G.R.B., 2012. GPR applied to mapping utilities along the route of the Line 4 (yellow) subway tunnel construction in São Paulo City, Brazil. Journal of Applied Geophysics. , v.80, p.25 - 31. PORSANI, J.L., ALMEIDA, E.R., BORTOLOZO, C.A., MONTEIRO SANTOS, F.A., 2012. TDEM survey in an area of seismicity induced by water wells in Paraná sedimentary basin, Northern São Paulo State, Brazil. Journal of Applied Geophysics. , v.80, p.1 - 9. OLIVEIRA, M.A.T., PORSANI, J.L., LIMA, G.L., JESKE PIERUSCHKA, V., BEHLING, H., 2012. Upper Pleistocene to Holocene peatland evolution in Southern Brazilian highlands as depicted by radar stratigraphy, sedimentology and palynology. Quaternary Research (Print). , v.77, p.397 - 407. PORSANI, J.L., JANGELME, G.M., KIPNIS, R., 2012. Use of ground-penetrating radar to map subsurface features at the Lapa do Santo archaeological site (Brazil). Near Surface Geophysics (Online). , v.10, p.141 - 144. RODRIGUES, S.I., PORSANI, J.L., 2006. Utilização do GPR para Caracterizar Tambores Plásticos enterrados no Sítio Controlado de Geofísica Rasa do IAG/USP. Revista Brasileira de Geofísica, v.24, p.157 - 168. RODRIGUES, S.I., PORSANI, J.L., GIANNINI, P.C.F., BLASIS, P., 2006. GPR Investigations in Coastal Sambaqui Archaeological Site in Santa Catarina, South Brazil: Preliminary Results. In: 12th European Meeting of Environmental and Engineering Geophysics, Helsinki, Finlândia. RODRIGUES, S.I.; PORSANI, J.L., 2006. Utilização do GPR para Caracterizar Tambores Plásticos enterrados no Sítio Controlado de Geofísica Rasa do IAG/USP. Revista Brasileira de Geofísica 4 24, 157-168. RODRIGUES, S.I.; PORSANI, J.L. ; SANTOS, V.R.N.; BLASIS, P.; GIANNINI, P.C.F., 2009. GPR and Inductive Electromagnetic Surveys Applied in Three Coastal Sambaqui (Shell Mounds) Archaeological Sites in Santa Catarina State, South Brazil.. Journal of Archaeological Science, v. 36, p. 2081-2088. SANTOS, V.R.N., PORSANI, J.L., 2011. Comparing performance of instrumental drift correction by linear and quadratic adjusting in inductive electromagnetic data. Journal of Applied Geophysics. , v.73, p.1 - 7. SANTOS, V.R.N.; PORSANI, J.L. ; MENDONÇA, C.A.;RODRIGUES, S.I.; BLASIS, P., 2009. Reduction of topography effect in inductive electromagnetic profiles: application on coastal sambaqui (shell mound) archaeological site in Santa Catarina State, Brazil. Journal of Archaeological Science, v.36, p. 2089-2095. SCHIMMEL, P.B., PORSANI, J.L., FIGUTI, L., BLASIS, P., 2003. Aplicação de Métodos Geofísicos em Arqueologia: Primeiros Resultados Obtidos no Sambaqui Fluvial Capelinha, Cajati-SP, Brasil.. Revista do Museu de Arqueologia e Etnologia da USP, n.2, p.43 - 54. SØRENSEN, K.I.; AUKEN E.; CHRISTENSEN N.B.; PELLERIN L., 2003. An Integrated Approach for Hydrogeophysical Investigations: New Technologies and a Case History, publication in SEG NSG Vol II: Applications and Case Histories, 63p. VOZOFF, K., 1991, The Magnetotelluric Method. Investigations in Geophysics, no 3. Electromagnetic Methods in Applied Geophysics. Society of Exploration Geophysicists, Ed. Misac N. Nabighian, v.2, Application, Parts A and B, Chapter 8, p.641-712. WARD, S.H.; HOHMANN, G.W., 1987, Electromagnetic theory for geophysical applications. Investigations in Geophysics, no 3. Electromagnetic Methods in Applied Geophysics. Society of Exploration Geophysicists, Ed. Misac N. Nabighian, v.1, p.131-311 ZHDANOV, M.S. & KELLER, G.V., 1994, The geoelectrical methods in geophysical exploration – Methods in geochemistry and Geophysics, no. 31. Elsevier. TELFORD, W. M.; GELDART, L. P.; SHERIFF, R. E., 1990. Applied Geophysics. Cambridge: Cambridge University Press. SSiitteess nnaa IInntteerrnneett http://www.geometrics.com/ GEOMETRICS http://www.metronix.de/ METRONIX http://www.dias.ie/mtnet/main/ MTNET http://www.geonics.com/ GEONICS, Canadense http://spaceweather.com/ http://www.dge.inpe.br/geoma/ INPE http://solarscience.msfc.nasa.gov/whysolar.shtml NASA http://www.utdallas.edu/~zeng/gpr.html GPR Bookmarks http://www.g-p-r.com/ GPR - Gary R. Olhoef http://www.sensoft.ca/ SENSORS & SOFTWARE, Canadense http://www.geophysical.com GSSI, Americana http://www.malags.se/ RAMAC/MALA, Sueca
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