A geoquímica orgânica na Formação Irati, com ênfase na influência de intrusões de diabásio na geração de óleo e gás: Área de Forquilhinha (SC)

Santos, Rafael Oliveira Reis dos; rafaeloliveira_21@hotmail.com

A geoquímica orgânica na Formação Irati, com ênfase na influência de intrusões de diabásio na geração de óleo e gás: Área de Forquilhinha (SC)

Detalhes bibliográficos
Autor(a) principal:	Santos, Rafael Oliveira Reis dos
Data de Publicação:	2017
Outros Autores:	rafaeloliveira_21@hotmail.com
Tipo de documento:	Dissertação
Idioma:	por
Título da fonte:	Biblioteca Digital de Teses e Dissertações da UERJ
Texto Completo:	http://www.bdtd.uerj.br/handle/1/19862
Resumo:	The deposition of Irati Formation in the Paraná Basin occurred during the Eopermian and Neopermian, which is composed by shales and siltstones of Taquaral Member and by interbedded bituminous shales and carbonates of the Assistência Member. A detailed organic geochemical study of Irati Formation was made in samples collected in the PVD-359 well situated in the Forquilhinha city of the Santa Catarina State (SC), aiming a better comprehension of principal transformations occurred in organic matter during the increase of thermal maturity by two diabase sills. For this, six quimiostratigraphic units (A to F) initially were defined using the total organic carbon (%COT), total sulfur (%S) and insoluble residue (%RI), being subsequently analyzed by pyrolysis Rock-Eval and liquid and gas chromatography. All samples from all units exhibit high ratios homohopane C31 (S/(S+R), homohopane C32 (S/(S+R), sterane C29 (S/(S+R) and sterane C29 (ββ/(ββ+αα)), characterizing thermal evolution from the intrusions. Obviously, because of the higher proximities with the diabase sills the units B, C and F are the intervals more affected by the thermal halo. This effect is much more pronounced in samples located at depths up to 1,5 times the intrusion thickness, when occur drastic decreases mainly in total sulfur contents (%S) and in the values of S1, S2 and IH that reaches practically zero at the beginning of the gas generation phase. The increase of this effect also reflects in the liquid chromatography results, which the proportions of saturated and aromatic hydrocarbons considerably decreases in relation to the proportions of resins and asphaltenes (non-hydrocarbons). Biomarkers analyses show principally increases in the ratios of tricyclic/pentacyclic and methylphenanthrene index. The units C and F being siliciclastics and having low organic facies variations, also showed more notable rises in the ratios Ts/(Ts+Tm), C29Ts/(C29Ts+C29), diahopane C30/hopane, homohopane C32 (S/(S+R)), diasterane C27/sterane C27 due to the increase of thermal evolution. At depths about 1 time the thickness of the intrusive, the greater hopane destruction causes significant rises in the ratios tetracyclic C24/pentacyclic, hopane C29/hopane C30 and gammacerane/hopane, indicating greater thermal stabilities of this compounds in high temperatures. The total organic carbon is also affected by the heat of diabases, but in closer regions from the intrusive body (~0,5 times of the diabase thickness). In that regions, only the methylphenanthrene index continued to rise, indicating greater utility of aromatic hydrocarbons comparatively to the saturated in the evolution evaluation because their isomers stabilizes at higher temperatures.

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network_acronym_str	UERJ
network_name_str	Biblioteca Digital de Teses e Dissertações da UERJ
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spelling	Rodrigues, Renéhttp://lattes.cnpq.br/7539756220629540Bergamaschi, Sérgiohttp://lattes.cnpq.br/9573016285666019Ade, Marcus Vinicius Beraohttp://lattes.cnpq.br/1576855094189422http://lattes.cnpq.br/4345709752888598Santos, Rafael Oliveira Reis dosrafaeloliveira_21@hotmail.com2023-06-26T14:21:45Z2017-05-29Santos, Rafael Oliveira Reis dos. A geoquímica orgânica na Formação Irati, com ênfase na influência de intrusões de diabásio na geração de óleo e gás: Área de Forquilhinha (SC). 2017. 208 f. Dissertação (Programa de Pós-Graduação em Geociências) - Universidade do Estado do Rio de Janeiro, Rio de Janeiro, 2017.http://www.bdtd.uerj.br/handle/1/19862The deposition of Irati Formation in the Paraná Basin occurred during the Eopermian and Neopermian, which is composed by shales and siltstones of Taquaral Member and by interbedded bituminous shales and carbonates of the Assistência Member. A detailed organic geochemical study of Irati Formation was made in samples collected in the PVD-359 well situated in the Forquilhinha city of the Santa Catarina State (SC), aiming a better comprehension of principal transformations occurred in organic matter during the increase of thermal maturity by two diabase sills. For this, six quimiostratigraphic units (A to F) initially were defined using the total organic carbon (%COT), total sulfur (%S) and insoluble residue (%RI), being subsequently analyzed by pyrolysis Rock-Eval and liquid and gas chromatography. All samples from all units exhibit high ratios homohopane C31 (S/(S+R), homohopane C32 (S/(S+R), sterane C29 (S/(S+R) and sterane C29 (ββ/(ββ+αα)), characterizing thermal evolution from the intrusions. Obviously, because of the higher proximities with the diabase sills the units B, C and F are the intervals more affected by the thermal halo. This effect is much more pronounced in samples located at depths up to 1,5 times the intrusion thickness, when occur drastic decreases mainly in total sulfur contents (%S) and in the values of S1, S2 and IH that reaches practically zero at the beginning of the gas generation phase. The increase of this effect also reflects in the liquid chromatography results, which the proportions of saturated and aromatic hydrocarbons considerably decreases in relation to the proportions of resins and asphaltenes (non-hydrocarbons). Biomarkers analyses show principally increases in the ratios of tricyclic/pentacyclic and methylphenanthrene index. The units C and F being siliciclastics and having low organic facies variations, also showed more notable rises in the ratios Ts/(Ts+Tm), C29Ts/(C29Ts+C29), diahopane C30/hopane, homohopane C32 (S/(S+R)), diasterane C27/sterane C27 due to the increase of thermal evolution. At depths about 1 time the thickness of the intrusive, the greater hopane destruction causes significant rises in the ratios tetracyclic C24/pentacyclic, hopane C29/hopane C30 and gammacerane/hopane, indicating greater thermal stabilities of this compounds in high temperatures. The total organic carbon is also affected by the heat of diabases, but in closer regions from the intrusive body (~0,5 times of the diabase thickness). In that regions, only the methylphenanthrene index continued to rise, indicating greater utility of aromatic hydrocarbons comparatively to the saturated in the evolution evaluation because their isomers stabilizes at higher temperatures.Durante o Eopermiano e o Neopermiano depositou-se a Formação Irati na Bacia do Paraná, constituída por siltitos e folhelhos do Membro Taquaral e por intercalações entre folhelhos oleígenos e calcários do Membro Assistência. Um estudo geoquímico orgânico detalhado da Formação Irati foi realizado em amostras coletadas no poço PVD-359 localizado no município de Forquilhinha no Estado de Santa Catarina (SC), visando a melhor compreensão das principais transformações ocorridas na matéria orgânica durante o aumento da maturidade térmica através de duas soleiras de diabásio. Para isso, inicialmente foram definidas seis unidades quimioestratigráficas (A até F) utilizando os dados de carbono orgânico total, enxofre total e resíduo insolúvel, sendo posteriormente analisadas por pirólise Rock-Eval e cromatografias líquida e gasosa.Todas as unidades apresentaram amostras contendo altas razões homohopano C31 (S/(S+R), homohopano C32 (S/(S+R), esterano C29 (S/(S+R), esterano C29 (ββ/(ββ+α)), que caracterizam a evolução térmica devido as intrusivas. Obviamente, devido a maior proximidade com as soleiras de diabásio as unidades B, C e F são os intervalos mais afetados pelo halo térmico. Este efeito é bem mais acentuado em amostras localizadas em profundidades de até 1,5 vezes a espessura da intrusiva, quando ocorrem drásticas diminuições principalmente nos teores de enxofre total (%S) e nos valores de S1, S2, e IH que chegam a praticamente zero com o início da fase de geração de gás. Na análise dos biomarcadores, as distribuições mostram principalmente aumentos da razão tricíclico/pentacíclico (TRI/PENTA) e do índice de metilfenantrenos (MF). As unidades C e F por serem siliciclásticas e apresentarem baixa variação de fácies orgânicas, apresentaram aumentos mais notáveis também nas razões Ts/(Ts+Tm), C29Ts/(C29Ts+C29), diahopano C30/ hopano (DIA30/(DIA30+C30), homohopano C32 (S/(S+R), diaesteranoC27/esteranoC27 (DIA27βαS/EST27ββS) devido ao aumento da evolução térmica. Em profundidades em torno de 1 vez a espessura da intrusiva, com a maior destruição do hopano (C30) ocorrem aumentos significativos das razões tetracíclico C24/pentacíclico (TETRA24/PENTA), hopano C29/hopano C30 (C29/C30) e gamacerano/hopano (G/C30), indicando maior estabilidade térmica desses compostos em altas temperaturas. O efeito térmico do diabásio também afeta os teores de carbono orgânico total (%COT), porém em regiões bem próximas do corpo intrusivo (~0,5 vezes a espessura do diabásio). Nessas porções, apenas o índice de metilfenantrenos (MF) continuou aumentando, indicando a maior utilidade dos hidrocarbonetos aromáticos relativamente aos saturados na avaliação da evolução, pois seus isômeros se estabilizam sob maiores temperaturas.Submitted by Ingrid CTC/C (ingridoliveirapink@hotmail.com) on 2023-06-26T14:21:45Z No. of bitstreams: 1 Dissertação - Rafael Oliveira Reis dos Santos - 2017 - Completa.pdf: 6776327 bytes, checksum: a33254654a0493af617fa24e92aa77c0 (MD5)Made available in DSpace on 2023-06-26T14:21:45Z (GMT). No. of bitstreams: 1 Dissertação - Rafael Oliveira Reis dos Santos - 2017 - Completa.pdf: 6776327 bytes, checksum: a33254654a0493af617fa24e92aa77c0 (MD5) Previous issue date: 2017-05-29application/pdfporUniversidade do Estado do Rio de JaneiroPrograma de Pós-Graduação em GeociênciasUERJBrasilCentro de Tecnologia e Ciências::Faculdade de GeologiaALMEIDA, F. F. M; HAUI, Y. O pré-Cambriano do Brasil. São Paulo: Edgard Blücher. 378 p. ANDRADE, S. M.; SOARES, P. C. Geologia de semi-detalhe do centro-leste de São Paulo. Petrobras/Desul. 33p. (Relatório interno n. 400). ARAÚJO, L. M. Análise da expressão estratigráfica dos parâmetros de geoquímica orgânica e inorgânica nas seqüências deposionais Irati. 2001. Tese (Doutorado em Geociências)- Instituto de Geociências Universidade Federal do Rio Grande do Sul, Rio Grande do Sul, 2001. 2 v. Araújo L. M. et al. The atypical Permian petroleum system of the Paraná Basin, Brazil. In: Mello M. R.; Katz B. J. (eds.) Petroleum systems of South Atlantic margins. Tulsa: AAPG. Memoir 73. P. 377-402. ASTINI, R. A. Las fases diastróficas dei Paleozóico Médio en Ia Precordillera del oeste argentino -evidencias estratigráficas. In: CONGRESO GEOLÓGICO ARGENTINO Y CONGRESO DE EXPLORACIÓN DE HIDROCARBUROS, 13, 3., 1996, Buenos Aires. Actas... Buenos Aires: Asociación Geológica Argentina y Instituto Argentino del Petróleo y del Gás, 1996, v. 5, p. 509-526. ASTINI, R. A.; BENEDETTO, J. L.; VACCARI, N. E. The early Paleozoic evolution of the Argentine Precordillera as a Laurentian rifted, drifted, and collided terrane: a geodynamic model. Geological Society of America Bulletin, Colorado, v. 107, n. 3, p. 253-273, 1995. AZEVEDO, D. A. et al. Novel series of tricyclic aromatic terpanes characterized in Tasmanian tasmanite. Organic Geochemistry, n. 18, p. 9-16, 1992. AQUINO NETO, F. R. et al. (1983) Occurrence and formation of tricyclic and tetracyclic terpanes in sediments and petroleums. In: BJORØY, M. et al. Advances in Organic Geochemistry. New York: John Wiley & Sons, p. 659-676, 1981. BAHLBURG, H.; BREITKREUZ, C. Paleozoic evolution of active margin basins in the Southern Central Andes (Northwestern Argentina and Northern Chile). Journal of South American Earth Sciences, v. 4, n.3, p. 171-188, 1991. BARBOSA, O.; ALMEIDA, F. F. M. Nota sobre a Estratigrafia da série Tubarão no Estado de São Paulo. Anais da Academia Brasileira de Ciências. Rio de Janeiro, v. 21, n. 1, p. 65-68, 1948. BARBOSA, O.; GOMES, F. A. Pesquisa de petróleo na bacia do rio Corumbataí, Estado de São Paulo. Boletim da Divisão de Geologia e Mineralogia do DNPM, Rio de Janeiro, n. 71, p. 1-40, 1958. BAJOR, M.; ROQUEBERT, M. H.; VAN DER WEIDE, D. Transformation de la matière organique sédimentaire sous l'influence de témperature. Bull. Centre Rec. Pau-SNPA, v. 3, n. 1, p. 113-124, 1969. BARNES, M. A.; BARNES, W. C. (1983) Oxic and anoxic diagenesis of diterpenes in lacustrine sediments. In: BJORØY, M.et al. Advances in Organic Geochemistry. New York: John Wiley & Sons, p. 289-298. BLUMER, M.; THOMAS, D. W. "Zamene' isomeric C19 monoolefins from marine zooplankton. Fishes and mammals. Science, Washington, DC, v. 148, p. 370-371, 1965a. BLUMER. M.; THOMAS, D. W. Phytadienes in zooplankton. Science, Washington, DC, v. 149, p. 1148-1149, 1965b. BRASSELL, S. C. et al. Specific acyclic isoprenoids as biological markers of methanogenic bacteria in marine sediments. Nature, v. 290, 693–696, 1981. BERNER, R. A.; SCOTT, M. R.; THOMLINSON, C. Carbonate alkalinity in the pore waters of anoxic marine sediments. Limnology and Oceanography, v. 14, p. 544-549, 1970. BOON, J. J. et al. Organic geochemical studies of Solar Lake laminated cyanobacterial mats. In: BJORØY, M. et al. Advances in Organic Geochemistry, New York: John Wiley & Sons, p. 207–227, 1983. BRINCAT, D.; ABBOTT, G. Some aspects of the molecular biogeochemistry of laminated and massive rocks from the Naples Beach Section (Santa Barbara-Ventura Basin). In: ISAACS, C. M.; RULLK¨OTTER, J. (eds.). The Monterey Formation: From Rocks to Molecules. New York: Columbia University Press, p. 140–149, 2001. BROOKS, J. Organic maturation of sedimentary organic matter and petroleum exploration: a review. In: BROOKS, J. (ed.). Organic maturation studies and fossil fuel exploration, Massachusetts: Academic Press, 1981 p. 1-37. BROOKS, P. W. Unusual biological marker geochemistry of oils and possible source rocks, offshore Beaufort-Mackenzie Delta, Canada. In: LEYTHAEUSER D.; RULLKÖTTER, J. (eds.). Advances in Organic Geochemistry, Oxford: Pergamon Press, p. 401–406, 1986. BROCK, T. D.; MADIGAN, M. T. Biology of Microorganisms. New Jersey: Prentice-Hall, 1991. CAPLAN, M. L.; BUSTIN, R. M. Factors governing organic matter accumulation and preservation in a marine petroleum source rock from the Upper Devonian to Lower Carboniferous Exshaw Formation, Alberta. Bulletin of Canadian Petroleum Geology, Greensboro, v. 44, p. 474-794, 1996. CAPUTO, M. V.; CROWELL, J. C. Migration of glacial centers across Gondwana during Paleozoic Era. Geological Society of America Bulletin, Boulder, v. 96, p. 1020-1036, 1985. CAPUTO, M. V. et al. Late Devonian and Early Carboniferous glacial records of South America. In: FIELDING, C. R.; FRANK, T. D.; ISBELL, J. L. (eds.). Resolving the Late Paleozoic ice age in time and space. Boulder: Geological Society of America, Special Paper, 441, p. 161-173, 2008. CHRISTIANSEN, F. G. et al. Depositional environment and organic geochemistry of the Upper Permian Ravnefjeld Formation source rock in East Greenland. American Association of Petroleum Geologists Bulletin, Boulder, v. 77, p. 1519-1537, 1993. CLARK, J. P.; PHILP, R. P. Geochemical characterization of evaporite and carbonate depositional environments and correlation of associated crude oils in the Black Creek Basin, Alberta. Canadian Petroleum Geologists Bulletin, Greensboro, 37, 401–416, 1989. CLAYPOOL, G. E.; KAPLAN, I. R. The origin and distribution of methane in marine sediments. In: KAPLAN, I. R. (ed.). Natural Gases in Marine Sediments. New York: Plenum Press, p. 99–140, 1974. CLAYTON, J. L. et al. Geochemistry of oils from the Junggar Basin, northwest China. American Association of Petroleum Geologists Bulletin, Boulder, v. 81, p. 1926-1944, 1997. CONNAN, J., RESTLE, A.; ALBRECHT, P. Biodegradation of crude oil in the Aquitaine Basin. In: DOUGLAS, A. G.; MAXWELL. J. R. (eds.). Advances in Organic Geochemistry, Oxford: Pergamon Press, p. 1-17, 1980. 12 v. CONNAN, J.; DESSORT, D. Novel family of hexacyclic hopanoid alkanes (C32–C35) occurring in sediments and oils from anoxic paleoenvironments. Organic Geochemistry, Amsterdam, v. 11, p. 103-113, 1987. CONNAN, J. et al. The microbial input in carbonate-anhydrite facies of a sabkha palaeoenvironment from Guatemala: a molecular approach. Organic Geochemistry, Amsterdam, v. 10, p. 29-50, 1986. CONNER, R. L., et al. Ergosterol replacement of tetrahymanol in Tetrahymena membranes. Biochemical and Biophysical Research Communications, Amsterdam, v. 44, p. 995-1000, 1971. CONNER, R. L., LANDREY, J. R.; CZARKOWSKI, N. The effect of specific sterols on cell size and fatty acid composition of Tetrahymena pyriformis. Journal of Protozoology, New Jersey, v. 29, p. 105-109, 1982. COBBOLD, P.R. et al. Permo-Triassic intracontinental deformation in SW Gondwana. In: DE WIT, M. J.; RANSOMC, I. D. (eds.). Inversion tectonics of the Cape Fold Belt, Karoo and Cretaceous basins of Southern África, Balkema, p. 23-26, 1992. CORBETT, R. E.; SMITH, R. A. Lichens and fungi. Part VI. Dehydration rearrangements of 15-hydroxyhopanes. Journal of the Chemical Society (C), London, 44-47, 1969. CORDANI, U.G. et al. Estudo preliminar de integração do Pré-Cambriano com os eventos tectônicos das bacias sedimentares brasileiras. Rio de Janeiro: Petrobras, n. 15, 70 p, 1984. (Série Ciência-Técnica-Petróleo). CORNFORD, C. et al. Source rock and seep oil maturity in Dorset, southern England. Organic Geochemistry, Amsterdam, v. 13, p. 399-409, 1988. CORREIA, M. & MAURY, R.C. 1975. Effects thermiques, minéralogiques et chimiques de l'intrusions d'un dike basaltique dans le Toarcien des Causses. Bull. Centre Rech: Pau-SNPA, v. 9, n. 2, p. 245-259. DE WIT, M.J. et al. Geológical map of sectors of Gondwana, reconstructed to their disposition ~ 150 Ma. Tulsa: American Association of Petroleum Geologists, University of Witwatersrand. 1988. Escala 1:10 000 000. DEMAISON, G. J.; MOORE, G. T. Anoxic environments and oil source bed genesis. American Association of Petroleum Geologists Bulletin, Boulder, v. 64, p. 1179-1209, 1980. DOW, W.G. Kerogen studies and geological interpretations. Jour. Geochem. Explor, v. 7, p. 79-99, 1977. DURAND, B. Kerogen. insoluble organic matter from sedimentary rocks. Paris: Editions Technip, 1980. DU TOIT, A. L. A geological comparison of South America with South Africa. Washington: The Carnegie Institution, 1927. 157 p. ENSMINGER, A. et al. Evolution of polycyclic alkanes under the effect of burial (Early Toarcian shales, Paris Basin), 1977. In: CAMPOS, R.; GONI, J. (eds.). Advances in Organic Geochemistry, Madrid: ENADIMSA, p. 45–52, 1975. ESPITALIÉ, J. et al. Source rock characterization method for petroleum exploration. In: Proceedings of the Offshore Technology Conference, May 2–5, Houston: OTC, p. 439-444, 1977. ESPITALIÉ, J.; DEROO, G.; MARQUIS, F. La pyrolise rock-eval et ses aplications. Rev. Inst. Français Petrol., v. 40, n. 6, p. 755-784, 1985. FAN, P.; KING, J. D.; CLAYPOOL, G. E. Characteristics of biomarker compounds in Chinese crude oils. In: KUMAR, R. K. et al. (eds.). Petroleum Geochemistry and Exploration in the Afro-Asian Region, Rotterdam: Balkema, p. 197–202, 1987. FU, J. et al. Peculiarities of Salt Lake sediments as potential source rocks in China. Organic Geochemistry, v. 10, p. 119-126, 1986. FARRIMOND, P.; POYNTER, J.G.; AND EGLINTON, G. Molecular composition of sedimentary lipids off the Peru margin, Leg 112. In: SUESS, E. et al., Proc. ODP, Sci. Results, 112: College Station, TX (Ocean Drilling Program), p. 539–546, 1990. FRANCOIS, R. A study of sulphur enrichment in the humic fraction of marine sediments during early diagenesis. Geochimica et Cosmochimica Acta, v. 51, 17–27, 1987. GOHRBANDT, K. H. A. Paleozoic paleogeographic and dcpositional devclopments on the central proto-Pacific margin of Gondwana: their importancc to hydrocarbon accumulation. Journal of South American Earth Sciences, v. 6, n. 4, p. 267-287, 1993. GRANSCH, J. A.; POSTHUMA, J. On the origin of sulfur in crudes. In: TISSOT, B.; BIENNER, F. (eds.). Advances of Organic Geochemistry, Paris: Editions Technip, p. 727-739, 1974. GOOSSENS, H. et al. Tocopherols as likely precursors of pristine in ancient sediments and crude oils. Nature, v. 312, 440-442, 1984. GRANTHAM, P. J.; WAKEFIELD, L. L. Variations in the sterane carbon number distributions of marine source rock derived crude oils through geological time. Organic Geochemistry, v. 12, p. 61–73, 1988. HARVEY, H. R., EDERINGTON, M. C.; MCMANUS, G. B. Lipid composition of the marine ciliates Pleuronema sp. and Fabrea salina: shifts in response to changes in diet. Journal of Eukaryotic Microbiology, v. 44, p. 189-193, 1997. HORSTAD, I., et al. Degradation and maturity controls on oil field petroleum column heterogeneity in the Gullfaks Field, Norwegian North Sea. Organic Geochemistry, v. 16, p. 497-510, 1990. HUANG, W.-Y.; MEINSHEIN, W. G. Sterols as ecological indicators. Geochimica et Cosmochimica Acta, v. 43, p. 7397-45, 1979. HUC, A. Y. Sedimentology of organic matter. In: FRIMMEL, F. H.; CHRISTIMAN, R. F. (eds.). Humic Substances and Their Role in the Environment. New York: JohnWiley & Sons, p. 215-243, 1988b. HUGHES, W. B. Geochemistry of greater Ekofisk crude oils. In: THOMAS, B. M. (ed.). Geochemistry in Exploration of the Norwegian Shelf, London: Graham and Trotman, p. 75–92, 1985. HUNT, J. M. Petroleum Geochemistry and geology. New York: W. H. Freeman and Company, 1996. HWANG, R J. et al. Effect of preservation on geochemical properties of organic matter in immature lacustrine sediments, 1989. In: INTERNATIONAL MEETING ON ORGANIC GEOCHEMISTRY, 14., Sep. 18–22, Paris, France, 1989. ISAKSEN, G. H.; BOHACS, K. M. Geological controls on source rock geochemistry through relative sea level; Triassic, Barents Sea, 1995. In: KATZ, B. J. (ed.). Petroleum Source Rocks, New York: Springer-Verlag, p. 25–50, 1995. KLEEMANN, G. et al. Tetrahymanol from the phototrophic bacterium Rhodopseudomonas palustris: first report of a gammacerane triterpane from a prokaryote. Journal of General Microbiology, v. 136, p. 2551–2553, 1990. KENDRICK, J.W.; HOOD, A.; CASTANÕ, J.R. Petroleum generating potential of sediments from Leg 41. In: LANCELOT, Y.; SEIBOLD, E. (eds.). Initial Reports of the Deep Sea Drilling Project, v. 41, p. 817-819, U.S. Gov. Print. Off., Washington, D.C, 1977. KEMP, P.; LANDER, D. L.; ORPIN, C. G. The lipids of the rumen fungus iromonas communis. Journal of General Microbiology, v. 130, p. 27–37, 1984. KOLACZKOWSKA, E. et al. Thermodynamic stability of various alkylated, dealkylated, and rearranged 17α- and 17β-hopane isomers using molecular mechanics calculations. Organic Geochemistry, v. 16, p. 1033-1038, 1990. KOLLER, J. et al. Embalming was used in Old Kingdom. Nature, v. 391, p. 343-344,1998. LANGWORTHY, T. A.; MAYBERRY, W. R. A 1,2,3,4-tetrahydroxy pentane-substituted pentacyclic triterpene from Bacillus acidocaldarius. Biochimica et Biophysica Acta, v. 431, p. 570-577, 1976. LAVINA, E. L.; LOPES, R. C. A transgressão marinha do Permiano Inferior e a evolução paleogeográfica do Supergrupo Tubarão no Estado do Rio Grande do Sul. Paula Coutiana, Porto Alegre, n. 1, p. 51-103, 1986. LEIGHTON, M.W.; KOLATA, D.R. Selected interior cratonic basins and their placc in the scheme of global tectonics - a synthesis, 1990. In: M. W. Leighton; D. R. Kolata; D. F. Oltz; J. J. Eidel (eds.) Interior cratonic basins. Tulsa: American Association of Petroleum Geologists Memoir 51, p. 729-797. LEYTHAEUSER, D. et al. Novel approach for recognition and quantification of hydrocarbon migration effects in shale-sandstone sequences. Amer. Assoc. Petrol. Geol. Bull., v. 68, p. 196-219, 1984. LISBOA, A. C. et al. Aplicação da Geoquímica Orgânica no Estudo dos Folhelhos Oleígenos Neopermianos da Formação Irati - Borda Leste da Bacia do Paraná. In: CONGRESSO BRASILEIRO DE P&D EM PETRÓLEO E GÁS, 3., São Paulo, Brasil. Anais... 2005. LÓPEZ-GAMUNDÍ, O. R.; ROSSELLO, E. A. Devonian-Carboniferous unconformity in Argentina and its relation to Eo-Hercynian orogeny in Southern South America. Geologische Rundschau, Stuttgart, v. 82, p. 136-147, 1993. LOUIS, M.C. & TISSOT, B.P. 1967. Influence de la témperature et de la pression sur la formation des hydrocarbures dans des argiles à kérogène. In 7th World Petroleum Congress-Mexico, Proc., pp. 47-60, Elsevier. MANN, A. L.; GOODWIN, N. S.; LOWE, S. Geochemical characteristics of lacustrine source rocks: a combined palynological/molecular study of a Tertiary sequence from offshore China. In: PROCEEDINGS OF THE INDONESIAN PETROLEUM ASSOCIATION, SIXTEENTH ANNUAL CONVENTION, v. 1 Indonesian Petroleum Association, Jakarta, Indonesia, p. 241–582, 1987. MARQUES, A. et al. Compartimentação tectônica da Bacia do Paraná. Curitiba: Petrobras/ Nexpar, 87 p., 1993. (relatório interno). MASTERSON, W. D. Petroleum filling history of central Alaskan North Slope fields. Unpublished, thesis, (Ph. D.)- University of Texas at Dallas, Dallas, TX, 2001. MELLO, M. R. et al. Geochemical and biological marker assessment of depositional environments using Brazilian offshore oils. Marine and Petroleum Geology, v. 5, p. 205–223, 1988a. MELLO, M. R., et al. Organic geochemical characterization of depositional paleoenvironments in Brazilian marginal basins. Organic Geochemistry, v. 13, p. 31-46, 1988b. MEYERS, P. A. Organic geochemical proxies of paleooceanographic, paleolimnlogic, and paleoclimatic processes. Organic Geochemistry, v. 27, p. 213-250, 1997. MICHAELIS, W. et al. Microbial reefs in the Black Sea fueled by anaerobic oxidation of methane. Science, v. 297, p. 1013-1015,2002. MCKIRDY, D. M. et al. A geochemical comparison of some crude oils from Pre-Ordovician carbonate rocks, 1983. In: BJORØY, M. et al. (eds.). Advances in Organic Geochemistry, New York: John Wiley & Sons, p. 99-107, 1981. MCKIRDY, D. M. et al. Hydrocarbon genesis and organic facies in Cambrian carbonates of the Eastern Officer Basin, South Australia. In: PALACAS, J. G. (ed.). Petroleum Geochemistry and Source Rock Potential of Carbonate Rocks, American Association of Petroleum Geologists Geology, Tulsa, OK, p. 13–31, 1984. MILANI, E.J. Intraplate tectonics and the evolution of the Paraná Basin, S Brazil. In: De Wit, M. J.; RANSOME, I. D. (eds.) Inversion tectonics of the Cape Fold Belt, Karoo and Cretaceous basins of Southern África. Balkema, p. 101-108, 1992. MILANI, E. J. Evolução tectono-estratigráfica da Bacia do Paraná e seu relacionamento com a geodinâmica fanerozóica do Gondwana sul-ocidental. 1997. 2 v. Tese (Doutorado) - Universidade Federal do Rio Grande do Sul, Porto Alegre, 1997. MILANI, E. J. et al. Bacia do Parana. Boletim de Geociencias da Petrobras, Rio de Janeiro, v. 15, n. 2, p. 265-287, 2007. ISSN 0102-9304. MOLDOWAN, J. M.; SEIFERT, W. K.; GALLEGOS, E. J. Relationship between petroleum composition and depositional environment of petroleum source rocks. American Association of Petroleum Geologists Bulletin, v. 69, p. 1255-1268, 1985. MILANI, E. J. et al. Sequences and stratigraphic hierarchy of the Paraná Basin (Ordovician to Cretaceous), Southern Brazil. Boletim IG-USP, São Paulo, p. 125-173. nov. 1998. (Série Científica, n. 29). MILANI, E. J.; RAMOS, V. A. Orogenias paleozoicas no dominio sul-ocidental do Gondwana e os cicios de subsidencia da bacia do Parana. Revista Brasileira de Geociencias, Sao Paulo, v. 28, n. 4, p. 473-484, 1998. ISSN 0375-7536. MIZUSAKI, A. M. P. Análise petrográfica e dotação radiométrica do poço 2-TL-l-MS (testemunhos 39 e 40). Rio de Janeiro: Petrobras/Cenpes, 8 p., 1989 (relatório interno). MOLDOWAN, J. M., SUNDARARAMAN, P.; SCHOELL, M. (1986) Sensitivity of biomarker properties to depositional environment and/or source input in the Lower Toarcian of S. W. Germany. Organic Geochemistry, 10, 915–26. NES, W. R.; MCKEAN, M. L. Biochemistry of Steroids and Other Isopentenoids. Baltimore: University Park Press, 1977. MOLDOWAN, J. M. et al. Analysis and occurrence of C26-steranes in petroleum and source rocks. Geochimica et Cosmochimica Acta, v. 55, p. 1065-1081, 1991a. MOLDOWAN, J. M., et al. Rearranged hopanes in sediments and petroleum. Geochimica et Cosmochimica Acta, v. 55, p. 3333-3353, 1991b. MOLDOWAN, J. M. Analysis of oleanane and its occurrence in Upper Cretaceous rocks. In: MANNING, D. A. C. (ed.). Organic Geochemistry: Advances and Applications in the Natural Environment, Manchester, UK: Manchester University Press, p. 195-197, 1991c. MOLDOWAN, J. M. et al. Source correlation and maturity assessment of select oils and rocks from the Central Adriatic Basin (Italy and Yugoslavia). In: Biological Markers in Sediments and Petroleum, Englewood Cliffs: Prentice-Hall, p. 370–401, 1992. Mycke, B., Narjes, F. and Michaelis, W. (1987) Bacteriohopanetetrol from chemical degradation of an oil shale kerogen. Nature, 326, 179–81. NES, W. R.; MCKEAN, M. L. Biochemistry of Steroids and Other Isopentenoids. Baltimore: University Park Press, 1977. NORTHFLEET, A. A.; MEDEIROS, R. A.; MÜHLMANN, H. Reavaliação dos dados geológicos da Bacia do Paraná. Boletim Técnico da Petrobras, Rio de Janeiro, v. 12, n.3, p. 291-346, jul./set. 1969. NYTOFT, H. P.; BOJESEN-KOEFOED, J. A. 17α,21α(H)-hopanes: natural and synthetic. Organic Geochemistry, v. 32, p. 841-856, 2001. OURISSON, G., ALBRECHT, P.; ROHMER, M. The hopanoids. Palaeochemistry and biochemistry of a group of natural products. Pure and Applied Chemistry, v. 51, p. 709-729, 1979. ORR, W. L.; GAINES, A. G. Observations on rate of sulfate reduction and organic matter oxidation in the bottom waters of an estuarine basin: the upper basin of the Pettaquamscutt River (Rhode Island), 1974. In: TISSOT, B.; BIENNER, F. (eds.). Advances in Organic Geochemistry Paris: Editions Technip, p. 791–812. PALACAS, J. G.; ANDERS, D. E.; KING, J. D. South Florida Basin: a prime example of carbonate source rocks in petroleum. In: PALACAS, J. G. (ed.). Petroleum Geochemistry and Source Rock Potential of Carbonate Rocks, American Association of Petroleum Geologists, Tulsa, OK, p. 71-96, 1984. PEATE, D. W.; HAWKESWORT, C. J.; MANTOVANI, M. S. M. Chemical stratigraphy of the Paraná lavas (South America): classification of magma types and their spatial distribution. Bulletin of Volcanology, Berlin, v. 55, p. 119-139, 1992. PELET, R. A model of organic sedimentation on present-day continental margins. In: BROOKS, J.; FLEET, A. J. (eds.). Marine Petroleum Source Rocks, London: Geological Society, p. 167-180, 1987. PETERS, K. E. Guidelines for evaluating petroleum source rock using programmed pyrolysis. American Association of Petroleum Geologists Bulletin, v. 70, p. 318-329, 1986. PETERS, K. E.; MOLDOWAN, J. M. Effects of source, thermal maturity, and biodegradation on the distribution and isomerization of homohopanes in petroleum. Organic Geochemistry, v. 17, p. 47-61, 1991. PETERS, K. E. et al. Programmed pyrolysis of organic matter from thermally altered Cretaceous black shales. American Association of Petroleum Geologists Bulletin, v. 67, p. 2137-2146, 1983. PETERS, K. E.; MOLDOWAN, J. M.; SUNDARARAMAN, P. Effects of hydrous pyrolysis on biomarker thermal maturity parameters: Monterey Phosphatic and Siliceous Members. Organic Geochemistry, v. 15, p. 249-265, 1990. PETERS, K. E., WALTERS, C. C., MOLDOWAN, J. M. The Biomarker guide, 2. ed., v.1, Biomarkers and isotopes in the Environment and Human History. Cambridge University Press, 2005. PETERS, K. E., WALTERS, C. C., MOLDOWAN, J. M. The Biomarker Guide, 2. ed., v. 2, Biomarkers and Isotopes in Petroleum Exploration and Earth History. Cambridge University Press, 1155 p., 2005. PHILIPPI, G.T. On the depth, time and mechanism of petroleum generation. Geochim. Cosmochim. Acta, v. 29, p. 1021-1049, 1965. PHILP, R. P., GILBERT, T. D.; FRIEDRICH, J. Bicyclic sesquiterpenoids and diterpenoids in Australian crude oils. Geochimica et Cosmochimica Acta, v. 45, p. 1173-1180, 1981. PHILP, R. P., SIMONEIT, B. R. T.; GILBERT, T. D. Diterpenoids in crude oils and coals of South Eastern Australia, 1983. In: BJORØY, M. et al. (eds.). Advances in Organic Geochemistry, New York: John Wiley & Sons, p. 698-704, 1981. PHILP, R. P.; GILBERT, T. D. Biomarker distributions in oils predominantly derived from terrigenous source material. In: LEYTHAEUSER, D.; RULLKOTTER, J. (eds.). Advances in Organic Geochemistry, Pergamon Press, p.73-84, 1986. POWELL, C.M.A. Assembly of Gondwanaland -open fórum. In: Gondwana Eight, Proceedings... Balkema, p. 219-237, 1993. PRICE, P. L., O’SULLIVAN, T.; ALEXANDER, R. The nature and occurrence of oil in Seram, Indonesia. In: PROCEEDINGS OF THE INDONESIAN PETROLEUM ASSOCIATION. 16., v. 1. Anais… Indonesian Petroleum Association, Jakarta, Indonesia, p. 141–73, 1987. RAMOS, V.A. et al. Chilenia: un terreno aloctono cn Ia evolución paleozóica de los Andes centrales. In: CONGRESO GEOLÓGICO ARGENTINO, 9., Buenos Aires, Actas... Buenos Aires, Asociación Geológica Argentina, v. 2:84-106, 1984. RAMOS, V.A. et al. Paleozoic terranes of the central Argentine-Chilean Andes. Tectonics, v. 5, n. 6, p. 855-880, 1986. RICHARDSON, J. S.; MILLER, D. E. Identification of dicyclic and tricyclic hydrocarbons in the saturate fraction of a crude oil by gas chromatography-mass spectrometry. Analytical Chemistry, v. 54, p. 765-768, 1982. RICHARDSON, J. S.; MILLER, D. E. Biologically-derived compounds of significance in the saturate fraction of a crude oil having predominant terrestrial input. Fuel, v. 62, p. 524-528, 1983. RIEDEGER, C. L. et al. Triassic oils and potential Mesozoic source rocks, Peace River Arch area, Western Canada Basin. Organic Geochemistry, v. 16, p. 295–305, 1990c. ROBINSON, A. (1987) An overview of source rocks in Indonesia. In: Proceedings of the Indonesian Petroleum Association, Indonesian Petroleum Association, Jakarta, Indonesia, p. 97–122, 1987. ROHMER, M. The hopanoids, prokaryotic triterpenoids and sterol surrogates, 1987. In: SCHRINER, E. et al (eds.). Surface Structures of Microorganisms and Their Interactions with the Mammalian Host, Germany: VCH Publishing, Weinlein, p. 227-242, 1987. ROHMER, M.; OURISSON, G. Structure des bactériohopanetétrols d’ Acetobacter xylinum. Tetrahedron Letters, v. 17, p. 3633- 3636, 1976a. ROHMER, M.; OURISSON, G. Dérivés du bactériohopane: variations structurales et répartition. Tetrahedron Letters, v. 17, p. 3637-3640, 1976b. RODRIGUES, R. Aplicação da geoquímica ao problema de geração de hidrocarbonetos na Bacia Amazônica, 1975. In CONG. BRAS. GEOL., SOC. BRAS. GEOL., 27., Anais..., v. 3, p. 53-56, 1975. RODRIGUES, R. (1995) A Geoquímica orgânica na Bacia do Parnaíba. 225 p. Tese (Doutorado em Geociencias)- Universidade Federal do Rio Grande do Sul, Porto Alegre. 1995. RODRIGUES, R.; QUADROS, L.P. Avaliação geoquímica preliminar da Bacia do Paraná. Relatório Interno, Petrobrás/Cenpes/Divex, Rio de Janeiro, 1975. RODRIGUES, R.; et al. Geoquímica e faciologia orgânica dos sedimentos da Bacia do Solimões. Relatório Interno, Petrobras/Cenpes/Divex, Rio de Janeiro, 1990. RUBINSTEIN, I.; ALBRECHT, P. The occurrence of nuclear methylated steranes in a shale. Journal of the Chemical Society, Chemical Communications, p. 957-958, 1975. RONTANI, J.-F.; VOLKMAN, J. K. Phytol degradation products as biogeochemical tracers in aquatic environments. Organic Geochemistry, v. 34, p. 1-35, 2003. ROHRBACK, B. G. Crude oil geochemistry of the Gulf of Suez, 1983. In: Bjorøy, M. et al. (eds.). Advances in Organic Geochemistry, New York: John Wiley & Sons, p. 39-48, 1981. RULLKÖTTER, J.; PHILP, R. P. Extended hopanes up to C40 in Thornton bitumen. Nature, v. 292, p. 616-618, 1981. RULLKÖTTER, J.; MARZI, R. Natural and artificial maturation of biological markers in a Toarcian shale from northern Germany. Organic Geochemistry, v. 13, p. 639-645, 1988. RULLKÖTTER, J.; WENDISCH, D. Microbial alteration of 17α(H)-hopane in Madagascar asphalts: removal of C-10 methyl group and ring opening. Geochimica et Cosmochimica Acta, v. 46, p.1543-1553, 1982. RULLKÖTTER, J.; SPIRO, B.; NISSENBAUM, A. Biological marker characteristics of oils and asphalts from carbonate source rocks in a rapidly subsiding graben, Dead Sea, Israel. Geochimica et Cosmochimica Acta, v. 49, p. 1357-1370, 1985. RULLK¨OTTER, J.; AIZENSHTAT, Z.; SPIRO, B. Biological markers in bitumens and pyrolyzates of Upper Cretaceous bituminous chalks from the Ghareb Formation (Israel). Geochimica et Cosmochimica Acta, v. 48, p. 151-157, 1984. SANTOS, R. V. et al. Shrimp U-Pb Zircon dating and palinology of bentonitic layers from the Permian Irati Formation, Paraná Basin, Brazil. Gondwana Research, Osaka, v. 9, p. 456-463, 2006. SCHMID, J. C. Marqueurs biologiques soufres dans les petroles. Thesis, (Ph. D.)- University of Strausbourg, Strasbourg, France, 1986. SCHOELL, M. et al. Maturity related biomarker and stable isotope variations and their application to oil/source rock correlation in the Mahakam Delta, Kalimantan, 1983. In: BJORØY, M. et al. (eds.). Advances in Organic Geochemistry, New York: John Wiley & Sons, p. 1561-63, 1981. SCHNEIDER, R. L. et al. Revisão estratigráfica da Bacia do Paraná. In: CONGRESSO BRASILEIRO DE GEOLOGIA, 28., 1974, Porto Alegre. Anais do... São Paulo: Sociedade Brasileira de Geologia, 1974. v. 1, p. 41-65. Seifert, W. K.; Moldowan, J. M. Applications of steranes, terpanes and monoaromatics to the maturation, migration and source of crude oils. Geochimica et Cosmochimica Acta, v. 42, p. 77-95, 1978. SEIFERT, W. K.; MOLDOWAN, J. M. The effect of biodegradation on steranes and terpanes in crude oils. Geochimica et Cosmochimica Acta, v. 43, p. 111-126, 1979. SEIFERT, W. K., MOLDOWAN, J. M.; DEMAISON, G. J. Source correlation of biodegraded oils. Organic Geochemistry, v. 6, p. 633-643, 1984. SEIFERT, W. K.; MOLDOWAN, J. M. Use of biological markers in petroleum exploration. In: JOHN, R. B. (eds.). Methods in Geochemistry and Geophysics, v. 24 Amsterdam: Elsevier, p. 261-290, 1986. SHIRAIWA, S. Flexura da litosfera continental sob os Andes centrais e a origem da Bacia do Pantanal. 1994. 85 p. Tese (Doutorado em Geociências )- Universidade de São Paulo, São Paulo, 1994 SIERRA, M. G. et al. Stereoselective synthesis of (+/−)-18,19-Dinor-13β(H), 14α(H)-cheilanthane: the most abundant tricyclic compound from petroleums and sediments. Journal of the Chemical Society, Chemical Communications, p. 417-418, 1984. SINNINGHE DAMST´E, J. S.; DE LEEUW, J.W. Analysis, structure and geochemical significance of organicallybound sulphur in the geosphere: state of the art and future research. Organic Geochemistry, v. 16, p. 1077-1101, 1990. SINNINGHE DAMST´E, J. S. et al. Evidence for gammacerane as an indicator of water-column stratification. Geochimica et Cosmochimica Acta, v. 59, p. 1895-1900, 1995. SOFER, Z. Biomarkers and carbon isotopes of oils in the Jurassic Smackover Trend of the Gulf Coast States, USA. Organic Geochemistry, v. 12, 421-432, 1988. STACH, E. et al. Coal Petrology. Berlin: Gebr¨uder Borntraeger, 1982. STEIN, R. Organic carbon and sedimentation rate: further evidence for anoxic deep-water conditions in the Cenomanian/Turonian Atlantic Ocean. Marine Geology, v. 72, p. 199-209, 1986. SUMMONS, R. E. et al. Distinctive hydrocarbon biomarkers from fossiliferous sediment of the Late Proterozoic Walcott Member, Chuar Group, Grand Canyon, Arizona. Geochimica et Cosmochimica Acta, v. 52, p. 2625-2637, 1988b. TAYLOR, G. H. et al. Organic Petrology, Berlin: Gebr¨uder Borntraeger, 1998. TEN HAVEN, H. L. et al. Anomalies in steroid and hopanoid maturity indices. Geochimica et Cosmochimica Acta, v. 50, p. 853-855, 1986. TEN HAVEN, H. L. et al. Restricted utility of the pristane/phytane ratio as a palaeoenvironmental indicator. Nature, v. 330, p. 641-643, 1987. TEN HAVEN, H. L. et al. Application of biological markers in the recognition of palaeohypersaline environments. In: FLEET, A. J.; KELTS, K.; TALBOT, M. R. (eds.). Lacustrine Petroleum Source Rocks, London: Blackwell, p. 123-130, 1988. TISSOT, B. P.; WELTE, D. H. Petroleum Formation and Occurrence. New York: Springer-Verlag, 1984. TISSOT, B. et al. Utilisation des alcanes commes fossiles géochimiques indicateurs des environnements géologiques, 1975. In: CAMPOS, R.; GONI, J. (eds.). Advances in Organic Geochemistry, Madrid, p. 117- 154, 1977. TORNABENE, T. G.; LANGWORTHY, T. A. Diphytanyl and dibiphytanyl glycerol ether lipids of methanogenic Archaebacteria. Science, v. 203, p. 5 l-53, 1979. TYSON, R. V.; PEARSON, T. H. (eds.). Modern and Ancient Continental Shelf Anoxia. London: London Geological Society, 1991. VAIL, P. R.; MITCHUM, R. M.; THOMPSON, S. Seismic stratigraphy and global changes of sea level, part 3: relative changes of sea level from coastal onlap. In: PAYTON, C. E. (ed.). Seismic stratigraphy: applications to hydrocarbon exploration. Tulsa: American Association of Petroleum Geologists, 1977. p. 63-81. (AAPG. Memoir, 26). VAN DORSSELAER, A.; ALBRECHT, P.; OURISSON, G. Identification of novel 17α(H)-hopanes in shales, coals, lignites, sediments and petroleum. Bulletin de la Soci´et`e Chimique de France, v. 1, n. 2, p. 165–170, 1977. Van Kaam-Peters, H. M. E. et al. The effect of clay minerals on diasterane/sterane ratios. Geochimica et Cosmochimica Acta, v. 62, p. 2923–2929, 1998. VOLKMAN, J. K.; MAXWELL, J. R. Acyclic isoprenoids as biological markers. In: JOHNS, R. B. (eds.). Biological Markers in the Sedimentary Record, New York: Elsevier, p. 1–42, 1986. VOLKMAN, J. K. et al. A geochemical reconstruction of oil generation in the Barrow Sub-basin of Western Australia. Geochimica et Cosmochimica Acta, v. 47, p. 2091-2106, 1983a. VOLKMAN, J. K. et al. Biomarker composition and depositional setting of Tasmanite oil shale from northern Tasmania, Australia, 1989. In: INTERNATIONAL MEETING ON ORGANIC GEOCHEMISTRY, 14., Paris, Sep. 1989. WOESE, C. R.; MAGRUM, L. J.; FOX, G. E. Archaebacteria. Journal of Molecular Evolution, v. 11, p. 245–252, 1978. WAPLES, D. W.; MACHIHARA, T. Biomarkers for geologists: a practical guide to the application of steranes and triterpanes in petroleum geology (AAPG Methods in Exploration, 9). Tulsa: American Association of Petroleum Geologists, 1991. ZALAN, P. V. et al. A divisão tripartite de Siluriano da Bacia do Paraná. Revista Brasileira de Geociências, São Paulo, v. 17, n. 3, p. 242-252, 1987. ISSN 0375-7536. ZANDER, J. M. et al. The presence of tetrahymanol in Oleandra wallichii. Phytochemistry, v. 8, p. 2265–2267, 1969. ZALÁN, P. V. Influence of Pre-Andean orogenies on the Paleozoic intracratonic basins of South America. In: SIMPÓSIO BOLIVARIANO: EXPLORACIÓN PETROLERA EN LAS CUENCAS SUBANDINAS, 4., 1991. Bogota: Asociacion Colombiana de Geologos y Geofisicos del Petroleo, 1991. Trabalho 7. ZANOTTO, O. A. Erosão pós-Cretáceo na Bacia do Paraná, com base em dados de reflectância da vitrinita. In: SIMPÓSIO SUL-BRASILEIRO DE GEOLOGIA, 5., 1993, Curitiba. Resumos. Curitiba: Sociedade Brasileira de Geologia, 1993. p. 58. ZUMBERGE, J. E. Source rocks of the La Luna (Upper Cretaceous) in the Middle Magdalena Valley, Colombia. In: PALACAS, J. G. (ed.). Ghemistry and Source Rock Potential of Carbonate Rockseoc, American Association of Petroleum Geologists Bulletin, 1984. ZUMBERGE, J. E.; LAY, V. Stable carbon isotopes and biomarkers as tools in understanding genetic relationship, maturation, biodegradation, and migration in crude oils in the Northern Peruvian Oriente (Maranon) Basin. Organic Geochemistry, v. 10, p. 377-389, 1986.Organic geochemistryChemostratigraphyThermal maturityThermal haloDiabaseGeoquímica orgânicaQuimioestratigrafiaMaturidade térmicaHalo térmicoDiabásioCIENCIAS EXATAS E DA TERRA::GEOCIENCIAS::GEOLOGIAA geoquímica orgânica na Formação Irati, com ênfase na influência de intrusões de diabásio na geração de óleo e gás: Área de Forquilhinha (SC)The organic geochemistry in the Irati Formation with emphasis on the influence of diabase intrusions in oil and gas generation: Forquilhinha area (SC).info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisinfo:eu-repo/semantics/openAccessreponame:Biblioteca Digital de Teses e Dissertações da UERJinstname:Universidade do Estado do Rio de Janeiro (UERJ)instacron:UERJORIGINALDissertação - Rafael Oliveira Reis dos Santos - 2017 - Completa.pdfDissertação - Rafael Oliveira Reis dos Santos - 2017 - Completa.pdfapplication/pdf6776327http://www.bdtd.uerj.br/bitstream/1/19862/2/Disserta%C3%A7%C3%A3o+-+Rafael+Oliveira+Reis+dos+Santos+-+2017+-+Completa.pdfa33254654a0493af617fa24e92aa77c0MD52LICENSElicense.txtlicense.txttext/plain; charset=utf-82123http://www.bdtd.uerj.br/bitstream/1/19862/1/license.txte5502652da718045d7fcd832b79fca29MD511/198622024-02-27 15:43:51.181oai:www.bdtd.uerj.br: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Biblioteca Digital de Teses e Dissertaçõeshttp://www.bdtd.uerj.br/PUBhttps://www.bdtd.uerj.br:8443/oai/requestbdtd.suporte@uerj.bropendoar:29032024-02-27T18:43:51Biblioteca Digital de Teses e Dissertações da UERJ - Universidade do Estado do Rio de Janeiro (UERJ)false
dc.title.por.fl_str_mv	A geoquímica orgânica na Formação Irati, com ênfase na influência de intrusões de diabásio na geração de óleo e gás: Área de Forquilhinha (SC)
dc.title.alternative.eng.fl_str_mv	The organic geochemistry in the Irati Formation with emphasis on the influence of diabase intrusions in oil and gas generation: Forquilhinha area (SC).
title	A geoquímica orgânica na Formação Irati, com ênfase na influência de intrusões de diabásio na geração de óleo e gás: Área de Forquilhinha (SC)
spellingShingle	A geoquímica orgânica na Formação Irati, com ênfase na influência de intrusões de diabásio na geração de óleo e gás: Área de Forquilhinha (SC) Santos, Rafael Oliveira Reis dos Organic geochemistry Chemostratigraphy Thermal maturity Thermal halo Diabase Geoquímica orgânica Quimioestratigrafia Maturidade térmica Halo térmico Diabásio CIENCIAS EXATAS E DA TERRA::GEOCIENCIAS::GEOLOGIA
title_short	A geoquímica orgânica na Formação Irati, com ênfase na influência de intrusões de diabásio na geração de óleo e gás: Área de Forquilhinha (SC)
title_full	A geoquímica orgânica na Formação Irati, com ênfase na influência de intrusões de diabásio na geração de óleo e gás: Área de Forquilhinha (SC)
title_fullStr	A geoquímica orgânica na Formação Irati, com ênfase na influência de intrusões de diabásio na geração de óleo e gás: Área de Forquilhinha (SC)
title_full_unstemmed	A geoquímica orgânica na Formação Irati, com ênfase na influência de intrusões de diabásio na geração de óleo e gás: Área de Forquilhinha (SC)
title_sort	A geoquímica orgânica na Formação Irati, com ênfase na influência de intrusões de diabásio na geração de óleo e gás: Área de Forquilhinha (SC)
author	Santos, Rafael Oliveira Reis dos
author_facet	Santos, Rafael Oliveira Reis dos rafaeloliveira_21@hotmail.com
author_role	author
author2	rafaeloliveira_21@hotmail.com
author2_role	author
dc.contributor.advisor1.fl_str_mv	Rodrigues, René
dc.contributor.advisor1Lattes.fl_str_mv	http://lattes.cnpq.br/7539756220629540
dc.contributor.referee1.fl_str_mv	Bergamaschi, Sérgio
dc.contributor.referee1Lattes.fl_str_mv	http://lattes.cnpq.br/9573016285666019
dc.contributor.referee2.fl_str_mv	Ade, Marcus Vinicius Berao
dc.contributor.referee2Lattes.fl_str_mv	http://lattes.cnpq.br/1576855094189422
dc.contributor.authorLattes.fl_str_mv	http://lattes.cnpq.br/4345709752888598
dc.contributor.author.fl_str_mv	Santos, Rafael Oliveira Reis dos rafaeloliveira_21@hotmail.com
contributor_str_mv	Rodrigues, René Bergamaschi, Sérgio Ade, Marcus Vinicius Berao
dc.subject.eng.fl_str_mv	Organic geochemistry Chemostratigraphy Thermal maturity Thermal halo Diabase
topic	Organic geochemistry Chemostratigraphy Thermal maturity Thermal halo Diabase Geoquímica orgânica Quimioestratigrafia Maturidade térmica Halo térmico Diabásio CIENCIAS EXATAS E DA TERRA::GEOCIENCIAS::GEOLOGIA
dc.subject.por.fl_str_mv	Geoquímica orgânica Quimioestratigrafia Maturidade térmica Halo térmico Diabásio
dc.subject.cnpq.fl_str_mv	CIENCIAS EXATAS E DA TERRA::GEOCIENCIAS::GEOLOGIA
description	The deposition of Irati Formation in the Paraná Basin occurred during the Eopermian and Neopermian, which is composed by shales and siltstones of Taquaral Member and by interbedded bituminous shales and carbonates of the Assistência Member. A detailed organic geochemical study of Irati Formation was made in samples collected in the PVD-359 well situated in the Forquilhinha city of the Santa Catarina State (SC), aiming a better comprehension of principal transformations occurred in organic matter during the increase of thermal maturity by two diabase sills. For this, six quimiostratigraphic units (A to F) initially were defined using the total organic carbon (%COT), total sulfur (%S) and insoluble residue (%RI), being subsequently analyzed by pyrolysis Rock-Eval and liquid and gas chromatography. All samples from all units exhibit high ratios homohopane C31 (S/(S+R), homohopane C32 (S/(S+R), sterane C29 (S/(S+R) and sterane C29 (ββ/(ββ+αα)), characterizing thermal evolution from the intrusions. Obviously, because of the higher proximities with the diabase sills the units B, C and F are the intervals more affected by the thermal halo. This effect is much more pronounced in samples located at depths up to 1,5 times the intrusion thickness, when occur drastic decreases mainly in total sulfur contents (%S) and in the values of S1, S2 and IH that reaches practically zero at the beginning of the gas generation phase. The increase of this effect also reflects in the liquid chromatography results, which the proportions of saturated and aromatic hydrocarbons considerably decreases in relation to the proportions of resins and asphaltenes (non-hydrocarbons). Biomarkers analyses show principally increases in the ratios of tricyclic/pentacyclic and methylphenanthrene index. The units C and F being siliciclastics and having low organic facies variations, also showed more notable rises in the ratios Ts/(Ts+Tm), C29Ts/(C29Ts+C29), diahopane C30/hopane, homohopane C32 (S/(S+R)), diasterane C27/sterane C27 due to the increase of thermal evolution. At depths about 1 time the thickness of the intrusive, the greater hopane destruction causes significant rises in the ratios tetracyclic C24/pentacyclic, hopane C29/hopane C30 and gammacerane/hopane, indicating greater thermal stabilities of this compounds in high temperatures. The total organic carbon is also affected by the heat of diabases, but in closer regions from the intrusive body (~0,5 times of the diabase thickness). In that regions, only the methylphenanthrene index continued to rise, indicating greater utility of aromatic hydrocarbons comparatively to the saturated in the evolution evaluation because their isomers stabilizes at higher temperatures.
publishDate	2017
dc.date.issued.fl_str_mv	2017-05-29
dc.date.accessioned.fl_str_mv	2023-06-26T14:21:45Z
dc.type.status.fl_str_mv	info:eu-repo/semantics/publishedVersion
dc.type.driver.fl_str_mv	info:eu-repo/semantics/masterThesis
format	masterThesis
status_str	publishedVersion
dc.identifier.citation.fl_str_mv	Santos, Rafael Oliveira Reis dos. A geoquímica orgânica na Formação Irati, com ênfase na influência de intrusões de diabásio na geração de óleo e gás: Área de Forquilhinha (SC). 2017. 208 f. Dissertação (Programa de Pós-Graduação em Geociências) - Universidade do Estado do Rio de Janeiro, Rio de Janeiro, 2017.
dc.identifier.uri.fl_str_mv	http://www.bdtd.uerj.br/handle/1/19862
identifier_str_mv	Santos, Rafael Oliveira Reis dos. A geoquímica orgânica na Formação Irati, com ênfase na influência de intrusões de diabásio na geração de óleo e gás: Área de Forquilhinha (SC). 2017. 208 f. Dissertação (Programa de Pós-Graduação em Geociências) - Universidade do Estado do Rio de Janeiro, Rio de Janeiro, 2017.
url	http://www.bdtd.uerj.br/handle/1/19862
dc.language.iso.fl_str_mv	por
language	por
dc.relation.references.por.fl_str_mv	ALMEIDA, F. F. M; HAUI, Y. O pré-Cambriano do Brasil. São Paulo: Edgard Blücher. 378 p. ANDRADE, S. M.; SOARES, P. C. Geologia de semi-detalhe do centro-leste de São Paulo. Petrobras/Desul. 33p. (Relatório interno n. 400). ARAÚJO, L. M. Análise da expressão estratigráfica dos parâmetros de geoquímica orgânica e inorgânica nas seqüências deposionais Irati. 2001. Tese (Doutorado em Geociências)- Instituto de Geociências Universidade Federal do Rio Grande do Sul, Rio Grande do Sul, 2001. 2 v. Araújo L. M. et al. The atypical Permian petroleum system of the Paraná Basin, Brazil. In: Mello M. R.; Katz B. J. (eds.) Petroleum systems of South Atlantic margins. Tulsa: AAPG. Memoir 73. P. 377-402. ASTINI, R. A. Las fases diastróficas dei Paleozóico Médio en Ia Precordillera del oeste argentino -evidencias estratigráficas. In: CONGRESO GEOLÓGICO ARGENTINO Y CONGRESO DE EXPLORACIÓN DE HIDROCARBUROS, 13, 3., 1996, Buenos Aires. Actas... Buenos Aires: Asociación Geológica Argentina y Instituto Argentino del Petróleo y del Gás, 1996, v. 5, p. 509-526. ASTINI, R. A.; BENEDETTO, J. L.; VACCARI, N. E. The early Paleozoic evolution of the Argentine Precordillera as a Laurentian rifted, drifted, and collided terrane: a geodynamic model. Geological Society of America Bulletin, Colorado, v. 107, n. 3, p. 253-273, 1995. AZEVEDO, D. A. et al. Novel series of tricyclic aromatic terpanes characterized in Tasmanian tasmanite. Organic Geochemistry, n. 18, p. 9-16, 1992. AQUINO NETO, F. R. et al. (1983) Occurrence and formation of tricyclic and tetracyclic terpanes in sediments and petroleums. In: BJORØY, M. et al. Advances in Organic Geochemistry. New York: John Wiley & Sons, p. 659-676, 1981. BAHLBURG, H.; BREITKREUZ, C. Paleozoic evolution of active margin basins in the Southern Central Andes (Northwestern Argentina and Northern Chile). Journal of South American Earth Sciences, v. 4, n.3, p. 171-188, 1991. BARBOSA, O.; ALMEIDA, F. F. M. Nota sobre a Estratigrafia da série Tubarão no Estado de São Paulo. Anais da Academia Brasileira de Ciências. Rio de Janeiro, v. 21, n. 1, p. 65-68, 1948. BARBOSA, O.; GOMES, F. A. Pesquisa de petróleo na bacia do rio Corumbataí, Estado de São Paulo. Boletim da Divisão de Geologia e Mineralogia do DNPM, Rio de Janeiro, n. 71, p. 1-40, 1958. BAJOR, M.; ROQUEBERT, M. H.; VAN DER WEIDE, D. Transformation de la matière organique sédimentaire sous l'influence de témperature. Bull. Centre Rec. Pau-SNPA, v. 3, n. 1, p. 113-124, 1969. BARNES, M. A.; BARNES, W. C. (1983) Oxic and anoxic diagenesis of diterpenes in lacustrine sediments. In: BJORØY, M.et al. Advances in Organic Geochemistry. New York: John Wiley & Sons, p. 289-298. BLUMER, M.; THOMAS, D. W. "Zamene' isomeric C19 monoolefins from marine zooplankton. Fishes and mammals. Science, Washington, DC, v. 148, p. 370-371, 1965a. BLUMER. M.; THOMAS, D. W. Phytadienes in zooplankton. Science, Washington, DC, v. 149, p. 1148-1149, 1965b. BRASSELL, S. C. et al. Specific acyclic isoprenoids as biological markers of methanogenic bacteria in marine sediments. Nature, v. 290, 693–696, 1981. BERNER, R. A.; SCOTT, M. R.; THOMLINSON, C. Carbonate alkalinity in the pore waters of anoxic marine sediments. Limnology and Oceanography, v. 14, p. 544-549, 1970. BOON, J. J. et al. Organic geochemical studies of Solar Lake laminated cyanobacterial mats. In: BJORØY, M. et al. Advances in Organic Geochemistry, New York: John Wiley & Sons, p. 207–227, 1983. BRINCAT, D.; ABBOTT, G. Some aspects of the molecular biogeochemistry of laminated and massive rocks from the Naples Beach Section (Santa Barbara-Ventura Basin). In: ISAACS, C. M.; RULLK¨OTTER, J. (eds.). The Monterey Formation: From Rocks to Molecules. New York: Columbia University Press, p. 140–149, 2001. BROOKS, J. Organic maturation of sedimentary organic matter and petroleum exploration: a review. In: BROOKS, J. (ed.). Organic maturation studies and fossil fuel exploration, Massachusetts: Academic Press, 1981 p. 1-37. BROOKS, P. W. Unusual biological marker geochemistry of oils and possible source rocks, offshore Beaufort-Mackenzie Delta, Canada. In: LEYTHAEUSER D.; RULLKÖTTER, J. (eds.). Advances in Organic Geochemistry, Oxford: Pergamon Press, p. 401–406, 1986. BROCK, T. D.; MADIGAN, M. T. Biology of Microorganisms. New Jersey: Prentice-Hall, 1991. CAPLAN, M. L.; BUSTIN, R. M. Factors governing organic matter accumulation and preservation in a marine petroleum source rock from the Upper Devonian to Lower Carboniferous Exshaw Formation, Alberta. Bulletin of Canadian Petroleum Geology, Greensboro, v. 44, p. 474-794, 1996. CAPUTO, M. V.; CROWELL, J. C. Migration of glacial centers across Gondwana during Paleozoic Era. Geological Society of America Bulletin, Boulder, v. 96, p. 1020-1036, 1985. CAPUTO, M. V. et al. Late Devonian and Early Carboniferous glacial records of South America. In: FIELDING, C. R.; FRANK, T. D.; ISBELL, J. L. (eds.). Resolving the Late Paleozoic ice age in time and space. Boulder: Geological Society of America, Special Paper, 441, p. 161-173, 2008. CHRISTIANSEN, F. G. et al. Depositional environment and organic geochemistry of the Upper Permian Ravnefjeld Formation source rock in East Greenland. American Association of Petroleum Geologists Bulletin, Boulder, v. 77, p. 1519-1537, 1993. CLARK, J. P.; PHILP, R. P. Geochemical characterization of evaporite and carbonate depositional environments and correlation of associated crude oils in the Black Creek Basin, Alberta. Canadian Petroleum Geologists Bulletin, Greensboro, 37, 401–416, 1989. CLAYPOOL, G. E.; KAPLAN, I. R. The origin and distribution of methane in marine sediments. In: KAPLAN, I. R. (ed.). Natural Gases in Marine Sediments. New York: Plenum Press, p. 99–140, 1974. CLAYTON, J. L. et al. Geochemistry of oils from the Junggar Basin, northwest China. American Association of Petroleum Geologists Bulletin, Boulder, v. 81, p. 1926-1944, 1997. CONNAN, J., RESTLE, A.; ALBRECHT, P. Biodegradation of crude oil in the Aquitaine Basin. In: DOUGLAS, A. G.; MAXWELL. J. R. (eds.). Advances in Organic Geochemistry, Oxford: Pergamon Press, p. 1-17, 1980. 12 v. CONNAN, J.; DESSORT, D. Novel family of hexacyclic hopanoid alkanes (C32–C35) occurring in sediments and oils from anoxic paleoenvironments. Organic Geochemistry, Amsterdam, v. 11, p. 103-113, 1987. CONNAN, J. et al. The microbial input in carbonate-anhydrite facies of a sabkha palaeoenvironment from Guatemala: a molecular approach. Organic Geochemistry, Amsterdam, v. 10, p. 29-50, 1986. CONNER, R. L., et al. Ergosterol replacement of tetrahymanol in Tetrahymena membranes. Biochemical and Biophysical Research Communications, Amsterdam, v. 44, p. 995-1000, 1971. CONNER, R. L., LANDREY, J. R.; CZARKOWSKI, N. The effect of specific sterols on cell size and fatty acid composition of Tetrahymena pyriformis. Journal of Protozoology, New Jersey, v. 29, p. 105-109, 1982. COBBOLD, P.R. et al. Permo-Triassic intracontinental deformation in SW Gondwana. In: DE WIT, M. J.; RANSOMC, I. D. (eds.). Inversion tectonics of the Cape Fold Belt, Karoo and Cretaceous basins of Southern África, Balkema, p. 23-26, 1992. CORBETT, R. E.; SMITH, R. A. Lichens and fungi. Part VI. Dehydration rearrangements of 15-hydroxyhopanes. Journal of the Chemical Society (C), London, 44-47, 1969. CORDANI, U.G. et al. Estudo preliminar de integração do Pré-Cambriano com os eventos tectônicos das bacias sedimentares brasileiras. Rio de Janeiro: Petrobras, n. 15, 70 p, 1984. (Série Ciência-Técnica-Petróleo). CORNFORD, C. et al. Source rock and seep oil maturity in Dorset, southern England. Organic Geochemistry, Amsterdam, v. 13, p. 399-409, 1988. CORREIA, M. & MAURY, R.C. 1975. Effects thermiques, minéralogiques et chimiques de l'intrusions d'un dike basaltique dans le Toarcien des Causses. Bull. Centre Rech: Pau-SNPA, v. 9, n. 2, p. 245-259. DE WIT, M.J. et al. Geológical map of sectors of Gondwana, reconstructed to their disposition ~ 150 Ma. Tulsa: American Association of Petroleum Geologists, University of Witwatersrand. 1988. Escala 1:10 000 000. DEMAISON, G. J.; MOORE, G. T. Anoxic environments and oil source bed genesis. American Association of Petroleum Geologists Bulletin, Boulder, v. 64, p. 1179-1209, 1980. DOW, W.G. Kerogen studies and geological interpretations. Jour. Geochem. Explor, v. 7, p. 79-99, 1977. DURAND, B. Kerogen. insoluble organic matter from sedimentary rocks. Paris: Editions Technip, 1980. DU TOIT, A. L. A geological comparison of South America with South Africa. Washington: The Carnegie Institution, 1927. 157 p. ENSMINGER, A. et al. Evolution of polycyclic alkanes under the effect of burial (Early Toarcian shales, Paris Basin), 1977. In: CAMPOS, R.; GONI, J. (eds.). Advances in Organic Geochemistry, Madrid: ENADIMSA, p. 45–52, 1975. ESPITALIÉ, J. et al. Source rock characterization method for petroleum exploration. In: Proceedings of the Offshore Technology Conference, May 2–5, Houston: OTC, p. 439-444, 1977. ESPITALIÉ, J.; DEROO, G.; MARQUIS, F. La pyrolise rock-eval et ses aplications. Rev. Inst. Français Petrol., v. 40, n. 6, p. 755-784, 1985. FAN, P.; KING, J. D.; CLAYPOOL, G. E. Characteristics of biomarker compounds in Chinese crude oils. In: KUMAR, R. K. et al. (eds.). Petroleum Geochemistry and Exploration in the Afro-Asian Region, Rotterdam: Balkema, p. 197–202, 1987. FU, J. et al. Peculiarities of Salt Lake sediments as potential source rocks in China. Organic Geochemistry, v. 10, p. 119-126, 1986. FARRIMOND, P.; POYNTER, J.G.; AND EGLINTON, G. Molecular composition of sedimentary lipids off the Peru margin, Leg 112. In: SUESS, E. et al., Proc. ODP, Sci. Results, 112: College Station, TX (Ocean Drilling Program), p. 539–546, 1990. FRANCOIS, R. A study of sulphur enrichment in the humic fraction of marine sediments during early diagenesis. Geochimica et Cosmochimica Acta, v. 51, 17–27, 1987. GOHRBANDT, K. H. A. Paleozoic paleogeographic and dcpositional devclopments on the central proto-Pacific margin of Gondwana: their importancc to hydrocarbon accumulation. Journal of South American Earth Sciences, v. 6, n. 4, p. 267-287, 1993. GRANSCH, J. A.; POSTHUMA, J. On the origin of sulfur in crudes. In: TISSOT, B.; BIENNER, F. (eds.). Advances of Organic Geochemistry, Paris: Editions Technip, p. 727-739, 1974. GOOSSENS, H. et al. Tocopherols as likely precursors of pristine in ancient sediments and crude oils. Nature, v. 312, 440-442, 1984. GRANTHAM, P. J.; WAKEFIELD, L. L. Variations in the sterane carbon number distributions of marine source rock derived crude oils through geological time. Organic Geochemistry, v. 12, p. 61–73, 1988. HARVEY, H. R., EDERINGTON, M. C.; MCMANUS, G. B. Lipid composition of the marine ciliates Pleuronema sp. and Fabrea salina: shifts in response to changes in diet. Journal of Eukaryotic Microbiology, v. 44, p. 189-193, 1997. HORSTAD, I., et al. Degradation and maturity controls on oil field petroleum column heterogeneity in the Gullfaks Field, Norwegian North Sea. Organic Geochemistry, v. 16, p. 497-510, 1990. HUANG, W.-Y.; MEINSHEIN, W. G. Sterols as ecological indicators. Geochimica et Cosmochimica Acta, v. 43, p. 7397-45, 1979. HUC, A. Y. Sedimentology of organic matter. In: FRIMMEL, F. H.; CHRISTIMAN, R. F. (eds.). Humic Substances and Their Role in the Environment. New York: JohnWiley & Sons, p. 215-243, 1988b. HUGHES, W. B. Geochemistry of greater Ekofisk crude oils. In: THOMAS, B. M. (ed.). Geochemistry in Exploration of the Norwegian Shelf, London: Graham and Trotman, p. 75–92, 1985. HUNT, J. M. Petroleum Geochemistry and geology. New York: W. H. Freeman and Company, 1996. HWANG, R J. et al. Effect of preservation on geochemical properties of organic matter in immature lacustrine sediments, 1989. In: INTERNATIONAL MEETING ON ORGANIC GEOCHEMISTRY, 14., Sep. 18–22, Paris, France, 1989. ISAKSEN, G. H.; BOHACS, K. M. Geological controls on source rock geochemistry through relative sea level; Triassic, Barents Sea, 1995. In: KATZ, B. J. (ed.). Petroleum Source Rocks, New York: Springer-Verlag, p. 25–50, 1995. KLEEMANN, G. et al. Tetrahymanol from the phototrophic bacterium Rhodopseudomonas palustris: first report of a gammacerane triterpane from a prokaryote. Journal of General Microbiology, v. 136, p. 2551–2553, 1990. KENDRICK, J.W.; HOOD, A.; CASTANÕ, J.R. Petroleum generating potential of sediments from Leg 41. In: LANCELOT, Y.; SEIBOLD, E. (eds.). Initial Reports of the Deep Sea Drilling Project, v. 41, p. 817-819, U.S. Gov. Print. Off., Washington, D.C, 1977. KEMP, P.; LANDER, D. L.; ORPIN, C. G. The lipids of the rumen fungus iromonas communis. Journal of General Microbiology, v. 130, p. 27–37, 1984. KOLACZKOWSKA, E. et al. Thermodynamic stability of various alkylated, dealkylated, and rearranged 17α- and 17β-hopane isomers using molecular mechanics calculations. Organic Geochemistry, v. 16, p. 1033-1038, 1990. KOLLER, J. et al. Embalming was used in Old Kingdom. Nature, v. 391, p. 343-344,1998. LANGWORTHY, T. A.; MAYBERRY, W. R. A 1,2,3,4-tetrahydroxy pentane-substituted pentacyclic triterpene from Bacillus acidocaldarius. Biochimica et Biophysica Acta, v. 431, p. 570-577, 1976. LAVINA, E. L.; LOPES, R. C. A transgressão marinha do Permiano Inferior e a evolução paleogeográfica do Supergrupo Tubarão no Estado do Rio Grande do Sul. Paula Coutiana, Porto Alegre, n. 1, p. 51-103, 1986. LEIGHTON, M.W.; KOLATA, D.R. Selected interior cratonic basins and their placc in the scheme of global tectonics - a synthesis, 1990. In: M. W. Leighton; D. R. Kolata; D. F. Oltz; J. J. Eidel (eds.) Interior cratonic basins. Tulsa: American Association of Petroleum Geologists Memoir 51, p. 729-797. LEYTHAEUSER, D. et al. Novel approach for recognition and quantification of hydrocarbon migration effects in shale-sandstone sequences. Amer. Assoc. Petrol. Geol. Bull., v. 68, p. 196-219, 1984. LISBOA, A. C. et al. Aplicação da Geoquímica Orgânica no Estudo dos Folhelhos Oleígenos Neopermianos da Formação Irati - Borda Leste da Bacia do Paraná. In: CONGRESSO BRASILEIRO DE P&D EM PETRÓLEO E GÁS, 3., São Paulo, Brasil. Anais... 2005. LÓPEZ-GAMUNDÍ, O. R.; ROSSELLO, E. A. Devonian-Carboniferous unconformity in Argentina and its relation to Eo-Hercynian orogeny in Southern South America. Geologische Rundschau, Stuttgart, v. 82, p. 136-147, 1993. LOUIS, M.C. & TISSOT, B.P. 1967. Influence de la témperature et de la pression sur la formation des hydrocarbures dans des argiles à kérogène. In 7th World Petroleum Congress-Mexico, Proc., pp. 47-60, Elsevier. MANN, A. L.; GOODWIN, N. S.; LOWE, S. Geochemical characteristics of lacustrine source rocks: a combined palynological/molecular study of a Tertiary sequence from offshore China. In: PROCEEDINGS OF THE INDONESIAN PETROLEUM ASSOCIATION, SIXTEENTH ANNUAL CONVENTION, v. 1 Indonesian Petroleum Association, Jakarta, Indonesia, p. 241–582, 1987. MARQUES, A. et al. Compartimentação tectônica da Bacia do Paraná. Curitiba: Petrobras/ Nexpar, 87 p., 1993. (relatório interno). MASTERSON, W. D. Petroleum filling history of central Alaskan North Slope fields. Unpublished, thesis, (Ph. D.)- University of Texas at Dallas, Dallas, TX, 2001. MELLO, M. R. et al. Geochemical and biological marker assessment of depositional environments using Brazilian offshore oils. Marine and Petroleum Geology, v. 5, p. 205–223, 1988a. MELLO, M. R., et al. Organic geochemical characterization of depositional paleoenvironments in Brazilian marginal basins. Organic Geochemistry, v. 13, p. 31-46, 1988b. MEYERS, P. A. Organic geochemical proxies of paleooceanographic, paleolimnlogic, and paleoclimatic processes. Organic Geochemistry, v. 27, p. 213-250, 1997. MICHAELIS, W. et al. Microbial reefs in the Black Sea fueled by anaerobic oxidation of methane. Science, v. 297, p. 1013-1015,2002. MCKIRDY, D. M. et al. A geochemical comparison of some crude oils from Pre-Ordovician carbonate rocks, 1983. In: BJORØY, M. et al. (eds.). Advances in Organic Geochemistry, New York: John Wiley & Sons, p. 99-107, 1981. MCKIRDY, D. M. et al. Hydrocarbon genesis and organic facies in Cambrian carbonates of the Eastern Officer Basin, South Australia. In: PALACAS, J. G. (ed.). Petroleum Geochemistry and Source Rock Potential of Carbonate Rocks, American Association of Petroleum Geologists Geology, Tulsa, OK, p. 13–31, 1984. MILANI, E.J. Intraplate tectonics and the evolution of the Paraná Basin, S Brazil. In: De Wit, M. J.; RANSOME, I. D. (eds.) Inversion tectonics of the Cape Fold Belt, Karoo and Cretaceous basins of Southern África. Balkema, p. 101-108, 1992. MILANI, E. J. Evolução tectono-estratigráfica da Bacia do Paraná e seu relacionamento com a geodinâmica fanerozóica do Gondwana sul-ocidental. 1997. 2 v. Tese (Doutorado) - Universidade Federal do Rio Grande do Sul, Porto Alegre, 1997. MILANI, E. J. et al. Bacia do Parana. Boletim de Geociencias da Petrobras, Rio de Janeiro, v. 15, n. 2, p. 265-287, 2007. ISSN 0102-9304. MOLDOWAN, J. M.; SEIFERT, W. K.; GALLEGOS, E. J. Relationship between petroleum composition and depositional environment of petroleum source rocks. American Association of Petroleum Geologists Bulletin, v. 69, p. 1255-1268, 1985. MILANI, E. J. et al. Sequences and stratigraphic hierarchy of the Paraná Basin (Ordovician to Cretaceous), Southern Brazil. Boletim IG-USP, São Paulo, p. 125-173. nov. 1998. (Série Científica, n. 29). MILANI, E. J.; RAMOS, V. A. Orogenias paleozoicas no dominio sul-ocidental do Gondwana e os cicios de subsidencia da bacia do Parana. Revista Brasileira de Geociencias, Sao Paulo, v. 28, n. 4, p. 473-484, 1998. ISSN 0375-7536. MIZUSAKI, A. M. P. Análise petrográfica e dotação radiométrica do poço 2-TL-l-MS (testemunhos 39 e 40). Rio de Janeiro: Petrobras/Cenpes, 8 p., 1989 (relatório interno). MOLDOWAN, J. M., SUNDARARAMAN, P.; SCHOELL, M. (1986) Sensitivity of biomarker properties to depositional environment and/or source input in the Lower Toarcian of S. W. Germany. Organic Geochemistry, 10, 915–26. NES, W. R.; MCKEAN, M. L. Biochemistry of Steroids and Other Isopentenoids. Baltimore: University Park Press, 1977. MOLDOWAN, J. M. et al. Analysis and occurrence of C26-steranes in petroleum and source rocks. Geochimica et Cosmochimica Acta, v. 55, p. 1065-1081, 1991a. MOLDOWAN, J. M., et al. Rearranged hopanes in sediments and petroleum. Geochimica et Cosmochimica Acta, v. 55, p. 3333-3353, 1991b. MOLDOWAN, J. M. Analysis of oleanane and its occurrence in Upper Cretaceous rocks. In: MANNING, D. A. C. (ed.). Organic Geochemistry: Advances and Applications in the Natural Environment, Manchester, UK: Manchester University Press, p. 195-197, 1991c. MOLDOWAN, J. M. et al. Source correlation and maturity assessment of select oils and rocks from the Central Adriatic Basin (Italy and Yugoslavia). In: Biological Markers in Sediments and Petroleum, Englewood Cliffs: Prentice-Hall, p. 370–401, 1992. Mycke, B., Narjes, F. and Michaelis, W. (1987) Bacteriohopanetetrol from chemical degradation of an oil shale kerogen. Nature, 326, 179–81. NES, W. R.; MCKEAN, M. L. Biochemistry of Steroids and Other Isopentenoids. Baltimore: University Park Press, 1977. NORTHFLEET, A. A.; MEDEIROS, R. A.; MÜHLMANN, H. Reavaliação dos dados geológicos da Bacia do Paraná. Boletim Técnico da Petrobras, Rio de Janeiro, v. 12, n.3, p. 291-346, jul./set. 1969. NYTOFT, H. P.; BOJESEN-KOEFOED, J. A. 17α,21α(H)-hopanes: natural and synthetic. Organic Geochemistry, v. 32, p. 841-856, 2001. OURISSON, G., ALBRECHT, P.; ROHMER, M. The hopanoids. Palaeochemistry and biochemistry of a group of natural products. Pure and Applied Chemistry, v. 51, p. 709-729, 1979. ORR, W. L.; GAINES, A. G. Observations on rate of sulfate reduction and organic matter oxidation in the bottom waters of an estuarine basin: the upper basin of the Pettaquamscutt River (Rhode Island), 1974. In: TISSOT, B.; BIENNER, F. (eds.). Advances in Organic Geochemistry Paris: Editions Technip, p. 791–812. PALACAS, J. G.; ANDERS, D. E.; KING, J. D. South Florida Basin: a prime example of carbonate source rocks in petroleum. In: PALACAS, J. G. (ed.). Petroleum Geochemistry and Source Rock Potential of Carbonate Rocks, American Association of Petroleum Geologists, Tulsa, OK, p. 71-96, 1984. PEATE, D. W.; HAWKESWORT, C. J.; MANTOVANI, M. S. M. Chemical stratigraphy of the Paraná lavas (South America): classification of magma types and their spatial distribution. Bulletin of Volcanology, Berlin, v. 55, p. 119-139, 1992. PELET, R. A model of organic sedimentation on present-day continental margins. In: BROOKS, J.; FLEET, A. J. (eds.). Marine Petroleum Source Rocks, London: Geological Society, p. 167-180, 1987. PETERS, K. E. Guidelines for evaluating petroleum source rock using programmed pyrolysis. American Association of Petroleum Geologists Bulletin, v. 70, p. 318-329, 1986. PETERS, K. E.; MOLDOWAN, J. M. Effects of source, thermal maturity, and biodegradation on the distribution and isomerization of homohopanes in petroleum. Organic Geochemistry, v. 17, p. 47-61, 1991. PETERS, K. E. et al. Programmed pyrolysis of organic matter from thermally altered Cretaceous black shales. American Association of Petroleum Geologists Bulletin, v. 67, p. 2137-2146, 1983. PETERS, K. E.; MOLDOWAN, J. M.; SUNDARARAMAN, P. Effects of hydrous pyrolysis on biomarker thermal maturity parameters: Monterey Phosphatic and Siliceous Members. Organic Geochemistry, v. 15, p. 249-265, 1990. PETERS, K. E., WALTERS, C. C., MOLDOWAN, J. M. The Biomarker guide, 2. ed., v.1, Biomarkers and isotopes in the Environment and Human History. Cambridge University Press, 2005. PETERS, K. E., WALTERS, C. C., MOLDOWAN, J. M. The Biomarker Guide, 2. ed., v. 2, Biomarkers and Isotopes in Petroleum Exploration and Earth History. Cambridge University Press, 1155 p., 2005. PHILIPPI, G.T. On the depth, time and mechanism of petroleum generation. Geochim. Cosmochim. Acta, v. 29, p. 1021-1049, 1965. PHILP, R. P., GILBERT, T. D.; FRIEDRICH, J. Bicyclic sesquiterpenoids and diterpenoids in Australian crude oils. Geochimica et Cosmochimica Acta, v. 45, p. 1173-1180, 1981. PHILP, R. P., SIMONEIT, B. R. T.; GILBERT, T. D. Diterpenoids in crude oils and coals of South Eastern Australia, 1983. In: BJORØY, M. et al. (eds.). Advances in Organic Geochemistry, New York: John Wiley & Sons, p. 698-704, 1981. PHILP, R. P.; GILBERT, T. D. Biomarker distributions in oils predominantly derived from terrigenous source material. In: LEYTHAEUSER, D.; RULLKOTTER, J. (eds.). Advances in Organic Geochemistry, Pergamon Press, p.73-84, 1986. POWELL, C.M.A. Assembly of Gondwanaland -open fórum. In: Gondwana Eight, Proceedings... Balkema, p. 219-237, 1993. PRICE, P. L., O’SULLIVAN, T.; ALEXANDER, R. The nature and occurrence of oil in Seram, Indonesia. In: PROCEEDINGS OF THE INDONESIAN PETROLEUM ASSOCIATION. 16., v. 1. Anais… Indonesian Petroleum Association, Jakarta, Indonesia, p. 141–73, 1987. RAMOS, V.A. et al. Chilenia: un terreno aloctono cn Ia evolución paleozóica de los Andes centrales. In: CONGRESO GEOLÓGICO ARGENTINO, 9., Buenos Aires, Actas... Buenos Aires, Asociación Geológica Argentina, v. 2:84-106, 1984. RAMOS, V.A. et al. Paleozoic terranes of the central Argentine-Chilean Andes. Tectonics, v. 5, n. 6, p. 855-880, 1986. RICHARDSON, J. S.; MILLER, D. E. Identification of dicyclic and tricyclic hydrocarbons in the saturate fraction of a crude oil by gas chromatography-mass spectrometry. Analytical Chemistry, v. 54, p. 765-768, 1982. RICHARDSON, J. S.; MILLER, D. E. Biologically-derived compounds of significance in the saturate fraction of a crude oil having predominant terrestrial input. Fuel, v. 62, p. 524-528, 1983. RIEDEGER, C. L. et al. Triassic oils and potential Mesozoic source rocks, Peace River Arch area, Western Canada Basin. Organic Geochemistry, v. 16, p. 295–305, 1990c. ROBINSON, A. (1987) An overview of source rocks in Indonesia. In: Proceedings of the Indonesian Petroleum Association, Indonesian Petroleum Association, Jakarta, Indonesia, p. 97–122, 1987. ROHMER, M. The hopanoids, prokaryotic triterpenoids and sterol surrogates, 1987. In: SCHRINER, E. et al (eds.). Surface Structures of Microorganisms and Their Interactions with the Mammalian Host, Germany: VCH Publishing, Weinlein, p. 227-242, 1987. ROHMER, M.; OURISSON, G. Structure des bactériohopanetétrols d’ Acetobacter xylinum. Tetrahedron Letters, v. 17, p. 3633- 3636, 1976a. ROHMER, M.; OURISSON, G. Dérivés du bactériohopane: variations structurales et répartition. Tetrahedron Letters, v. 17, p. 3637-3640, 1976b. RODRIGUES, R. Aplicação da geoquímica ao problema de geração de hidrocarbonetos na Bacia Amazônica, 1975. In CONG. BRAS. GEOL., SOC. BRAS. GEOL., 27., Anais..., v. 3, p. 53-56, 1975. RODRIGUES, R. (1995) A Geoquímica orgânica na Bacia do Parnaíba. 225 p. Tese (Doutorado em Geociencias)- Universidade Federal do Rio Grande do Sul, Porto Alegre. 1995. RODRIGUES, R.; QUADROS, L.P. Avaliação geoquímica preliminar da Bacia do Paraná. Relatório Interno, Petrobrás/Cenpes/Divex, Rio de Janeiro, 1975. RODRIGUES, R.; et al. Geoquímica e faciologia orgânica dos sedimentos da Bacia do Solimões. Relatório Interno, Petrobras/Cenpes/Divex, Rio de Janeiro, 1990. RUBINSTEIN, I.; ALBRECHT, P. The occurrence of nuclear methylated steranes in a shale. Journal of the Chemical Society, Chemical Communications, p. 957-958, 1975. RONTANI, J.-F.; VOLKMAN, J. K. Phytol degradation products as biogeochemical tracers in aquatic environments. Organic Geochemistry, v. 34, p. 1-35, 2003. ROHRBACK, B. G. Crude oil geochemistry of the Gulf of Suez, 1983. In: Bjorøy, M. et al. (eds.). Advances in Organic Geochemistry, New York: John Wiley & Sons, p. 39-48, 1981. RULLKÖTTER, J.; PHILP, R. P. Extended hopanes up to C40 in Thornton bitumen. Nature, v. 292, p. 616-618, 1981. RULLKÖTTER, J.; MARZI, R. Natural and artificial maturation of biological markers in a Toarcian shale from northern Germany. Organic Geochemistry, v. 13, p. 639-645, 1988. RULLKÖTTER, J.; WENDISCH, D. Microbial alteration of 17α(H)-hopane in Madagascar asphalts: removal of C-10 methyl group and ring opening. Geochimica et Cosmochimica Acta, v. 46, p.1543-1553, 1982. RULLKÖTTER, J.; SPIRO, B.; NISSENBAUM, A. Biological marker characteristics of oils and asphalts from carbonate source rocks in a rapidly subsiding graben, Dead Sea, Israel. Geochimica et Cosmochimica Acta, v. 49, p. 1357-1370, 1985. RULLK¨OTTER, J.; AIZENSHTAT, Z.; SPIRO, B. Biological markers in bitumens and pyrolyzates of Upper Cretaceous bituminous chalks from the Ghareb Formation (Israel). Geochimica et Cosmochimica Acta, v. 48, p. 151-157, 1984. SANTOS, R. V. et al. Shrimp U-Pb Zircon dating and palinology of bentonitic layers from the Permian Irati Formation, Paraná Basin, Brazil. Gondwana Research, Osaka, v. 9, p. 456-463, 2006. SCHMID, J. C. Marqueurs biologiques soufres dans les petroles. Thesis, (Ph. D.)- University of Strausbourg, Strasbourg, France, 1986. SCHOELL, M. et al. Maturity related biomarker and stable isotope variations and their application to oil/source rock correlation in the Mahakam Delta, Kalimantan, 1983. In: BJORØY, M. et al. (eds.). Advances in Organic Geochemistry, New York: John Wiley & Sons, p. 1561-63, 1981. SCHNEIDER, R. L. et al. Revisão estratigráfica da Bacia do Paraná. In: CONGRESSO BRASILEIRO DE GEOLOGIA, 28., 1974, Porto Alegre. Anais do... São Paulo: Sociedade Brasileira de Geologia, 1974. v. 1, p. 41-65. Seifert, W. K.; Moldowan, J. M. Applications of steranes, terpanes and monoaromatics to the maturation, migration and source of crude oils. Geochimica et Cosmochimica Acta, v. 42, p. 77-95, 1978. SEIFERT, W. K.; MOLDOWAN, J. M. The effect of biodegradation on steranes and terpanes in crude oils. Geochimica et Cosmochimica Acta, v. 43, p. 111-126, 1979. SEIFERT, W. K., MOLDOWAN, J. M.; DEMAISON, G. J. Source correlation of biodegraded oils. Organic Geochemistry, v. 6, p. 633-643, 1984. SEIFERT, W. K.; MOLDOWAN, J. M. Use of biological markers in petroleum exploration. In: JOHN, R. B. (eds.). Methods in Geochemistry and Geophysics, v. 24 Amsterdam: Elsevier, p. 261-290, 1986. SHIRAIWA, S. Flexura da litosfera continental sob os Andes centrais e a origem da Bacia do Pantanal. 1994. 85 p. Tese (Doutorado em Geociências )- Universidade de São Paulo, São Paulo, 1994 SIERRA, M. G. et al. Stereoselective synthesis of (+/−)-18,19-Dinor-13β(H), 14α(H)-cheilanthane: the most abundant tricyclic compound from petroleums and sediments. Journal of the Chemical Society, Chemical Communications, p. 417-418, 1984. SINNINGHE DAMST´E, J. S.; DE LEEUW, J.W. Analysis, structure and geochemical significance of organicallybound sulphur in the geosphere: state of the art and future research. Organic Geochemistry, v. 16, p. 1077-1101, 1990. SINNINGHE DAMST´E, J. S. et al. Evidence for gammacerane as an indicator of water-column stratification. Geochimica et Cosmochimica Acta, v. 59, p. 1895-1900, 1995. SOFER, Z. Biomarkers and carbon isotopes of oils in the Jurassic Smackover Trend of the Gulf Coast States, USA. Organic Geochemistry, v. 12, 421-432, 1988. STACH, E. et al. Coal Petrology. Berlin: Gebr¨uder Borntraeger, 1982. STEIN, R. Organic carbon and sedimentation rate: further evidence for anoxic deep-water conditions in the Cenomanian/Turonian Atlantic Ocean. Marine Geology, v. 72, p. 199-209, 1986. SUMMONS, R. E. et al. Distinctive hydrocarbon biomarkers from fossiliferous sediment of the Late Proterozoic Walcott Member, Chuar Group, Grand Canyon, Arizona. Geochimica et Cosmochimica Acta, v. 52, p. 2625-2637, 1988b. TAYLOR, G. H. et al. Organic Petrology, Berlin: Gebr¨uder Borntraeger, 1998. TEN HAVEN, H. L. et al. Anomalies in steroid and hopanoid maturity indices. Geochimica et Cosmochimica Acta, v. 50, p. 853-855, 1986. TEN HAVEN, H. L. et al. Restricted utility of the pristane/phytane ratio as a palaeoenvironmental indicator. Nature, v. 330, p. 641-643, 1987. TEN HAVEN, H. L. et al. 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repository.name.fl_str_mv	Biblioteca Digital de Teses e Dissertações da UERJ - Universidade do Estado do Rio de Janeiro (UERJ)
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A geoquímica orgânica na Formação Irati, com ênfase na influência de intrusões de diabásio na geração de óleo e gás: Área de Forquilhinha (SC)

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