Paraná Basin

For the Paraná–Paraguay watershed (basin), see Paraná River.

Outlined: the areal extent of the Paraná Basin (top) and the Chaco-Paraná Basin

The Paraná Basin is a large sedimentary basin situated in the central-eastern part of South America. About 75% of its areal distribution occurs in Brazil, from Mato Grosso to Rio Grande do Sul states. The remainder area is distributed in eastern Paraguay, northeastern Argentina and northern Uruguay. The shape of the depression is elliptical and covers an area of about 1,500,000 km² (580,000 sq mi).

The Paraná River, from which the Paraná Basin derived its name, flows along the central axis of the Paraná Basin and drains it.

Simplified geological map of Paraná Basin (modified from Milani, 1997 ^[1]).

Pioneer studies

Mesosaurus skeleton reconstruction (MacGregor, 1908).^[2]

The first study on the Brazilian side of the Paraná Basin dates from 1841, when a Brazilian Imperial Government Mission prospected for coal. Turning point in the basin's geological understanding was the "White Report", published in 1908 by the American geologist Israel C. White, head of the "Comissão de Estudos das Minas de Carvão de Pedra do Brasil" (Commission for Studies on Brazilian Coal Mines). One of the main results of these studies, besides the reconnaissance for coal, was the discovery of Mesosaurus fossils within Permian black shales (Irati Formation), and the Glossopteris flora within the Permian coals. White was one of the first to propose the equivalence between the South American Permian strata and similar rocks of the Karoo Basin in South Africa.^[3]

Basin evolution

Stratigraphy

Paraná Basin – Simplified stratigraphic chart.^[4]

The sedimentary column of the Paraná Basin was divided by Milani, 1997,^[9] into six second order allostratigraphic supersequences (in the sense of Vail, 1977).^[10] These sequences define the stratigraphic framework of the basin and are bound by distinct depositional hiati, caused by erosive events.^[4]

Rio Ivaí Supersequence: The basal supersequence, deposited during the Late Ordovician to Early Silurian, is constituted by three formations: Alto Garças Formation composed mainly of sandstones, Rio Ivaí Formation, represented by glacial Ordovician deposits that affected large areas of Gondwana and the Vila Maria Formation, a thick muddy sequence rich in fossil content: graptolites, trilobites, brachiopods and chitinozoa.^[4]

Paraná Supersequence: This Devonian supersequence is represented, at the base, by sheet-like, cross-bedded coarse to medium sandstones of the Furnas Formation and, on top, by a muddy section, rich in macrofossils and forming a potential petroleum source rock, named Ponta Grossa Formation.^[4]

Gondwana I Supersequence: The Carboniferous to Early Triassic Gondwana I Supersequence has two distinctive features:^[4]

The major glaciation that covered almost all southern portions of Gondwana, known as Karoo Ice Age. The glaciation's apex was reached during the Mississippian (Early Carboniferous), stopping any further sedimentation until the onset of deglaciation during the Westfalian (Late Carboníferous). Left behind were huge glacial deposits, which are composed mainly by sandstones, diamictites, conglomerates and muddy rocks, grouped in the Itararé Group. Typical glacial facies are widespread, e.g., varvites.
During the Middle Permian the waning glaciation allowed the flourishing of the Glossopteris flora in the sandstones of the Rio Bonito Formation and the development of huge coal deposits, extracted in southern Brazil and Uruguay since the 19th century.

Finally, during the Late Permian the Irati Formation was laid down, represented by bituminous shale, a potential petroleum source rock, and famous worldwide for its Mesosaurus fauna. The top of this supersequence defines the end of the marine phase.^[4]

Gondwana II Supersequence: This Triassic supersequence marks the beginning of continental sedimentation. It bears an important reptile and mammal fauna, that can be correlated to the African continent.^[4]

Flood basalts outcrops, Serra Geral Formation, Iguaçu Falls, Brazil-Argentina border.

Gondwana III Supersequence: The Late Jurassic to Early Cretaceous Gondwana III Supersequence is marked by two major events:

The great desertification of the still united Gondwana supercontinent, the "Botucatu desert" with an area up to 1,200,000 km² (460,000 sq mi). The large sand dune fields left behind thick, coarse to fine sandstones beds, the Botucatu Formation, housing the important Guaraní Aquifer, one of the world's largest aquifer systems.
Above the Botucatu Formation a large igneous province was installed by the Serra Geral Formation – enormous flood basalts that occurred 137 to 127 million years ago, associated with the rifting of Gondwana and the opening of the South Atlantic Ocean. Even now the surface area still reaches more than one million square kilometers. The thickness of the flood basalts amounts to 2,000 m (6,600 ft) and their area extends to the Etendeka basin in Namibia and Angola even into Southwestern Africa.^[4]

Bauru Supersequence: A Cretaceous supersequence occurring in the north-central part of the basin and composed mainly of sandy-conglomeratic deposits.^[4]

Natural resources

The main natural resources extracted in Paraná Basin are groundwater, coal and oil shale.

Groundwater

Main article: Guaraní Aquifer

The Guaraní Aquifer is one of the world's largest aquifer systems and an important source of fresh water in Argentina, Brazil, Paraguay and Uruguay. The lithology of the Aquifer consists mainly of highly permeable sandstones of the Botucatu and Pirambóia formations. The aquifer covers 1,200,000 km² (460,000 sq mi) with an estimated volume of about 37,000 km³ (3.0×10¹⁰ acre·ft) of water.^[11]

Energy resources

Coal: The Brazilian coal resources are estimated at 32 billion metric tons (32 Pg), classified as bituminous to sub-bituminous coal and are mainly associated with sandstones of the Rio Bonito Formation. The major producers are located in Rio Grande do Sul and Santa Catarina states and minor producers are located in Paraná and São Paulo states.^[12]
Natural gas: There is one gas field in the Paraná Basin, the Barra Bonita field, located in Paraná state and discovered in 1996, with estimated reserves of about 496,000,000 m³ (1.75×10¹⁰ cu ft).^[13]
Oil shale: Since 1972 Petrobras extracts hydrocarbons from the Irati Formation oil shales in São Mateus do Sul, a city in the Brazilian state of Paraná, using the Petrosix process, a Petrobras patent. The Irati Formation reserves are estimated at 700,000,000 bbl (110,000,000 m³) of oil, 9 million metric tons of liquefied gas (LPG), 25 cubic kilometers (8.8×10¹¹ cu ft) of shale gas and 18 million metric tons of sulfur in the states of São Paulo, Paraná, Santa Catarina and Rio Grande do Sul.^[14]

References

↑ Milani, E. J. (1997). Evolução tectono-estratigráfica da Bacia do Paraná e seu relacionamento com a geodinâmica fanerozoica do Gondwana sul-ocidental. 2 vol. Il. Tese (Doutorado) – Universidade Federal do Rio Grande do Sul, Curso de Pós-Graduação em Geociências, Porto Alegre. in Portuguese
↑ MacGregor, J.H. (1908) Mesosaurus brasiliensis nov. sp. IN: White, I.C. (1908) Commission for Studies on Brazilian Coal Mines - Final Report; (Bilingual report, Portuguese & English), Imprensa Nacional, Rio de Janeiro, Brazil, 617 p.: Part II, pp. 301-336.
↑ White, I.C. (1908) "Comissão de Estudos das Minas de Carvão de Pedra do Brasil – Relatório final": Commission for Studies on Brazilian Coal Mines - Final Report; (Bilingual report, Portuguese & English) DNPM, Rio de Janeiro, Brazil, Parte I, p. 1-300 ; Parte II, p. 301-617; (facsimile edition: 1988).
1 2 3 4 5 6 7 8 9 10 11 Milani, E. J.; Melo, J. H. G.; Souza, P. A.; Fernandes, L. A.; França, A. B. (2007) Bacia do Paraná (Portuguese). IN: Cartas Estratigráficas - Boletim De Geociencias da Petrobras, Rio de Janeiro, v. 15, n. 2, p. 265-287, mai/Nov. 2007.
1 2 Zalan, P. V.; Wolf, S.; Astolfi, M. A. M.; Vieira, I. S.; Conceição, J. C.; Appi, V. T.; Santos Neto, E. V.; Cerqueira, J. R.; Marques, A. (1991) The Paraná Basin, Brazil. IN: Leighton, M. W.; Kolata, D. R.; Oltz, D. F.; Eidel, J. J. (Ed.). Interior cratonic basins. Tulsa, Okla.: American Association of Petroleum Geologists. pp. 707-708. (AAPG. Memoir 51).
↑ Milani, E. J.; França, A. B.; Medeiros, R. Á. (2007) Roteiros Geológicos, Rochas geradoras e rochas-reservatório da Bacia do Paraná (Portuguese). IN: Boletim de Geociências da Petrobras, Rio de Janeiro, v. 15, n. 1, p. 135-162, Nov. 2006/maio/2007.
↑ Mantovani, Marta S.M.; de Brito Neves, Benjamin B. (2010). "The Paranapanema Lithospheric Block: Its Nature and Role in the Accretion of Gondwana". In Gaucher, Claudio; Sial, Alcides; Haverson, Galen. Neoproterozoic-cambrian tectonics, global change and evolution: a focus on south western Gondwana. Elsevier. pp. 257–272.
↑ Melo, J. H. G. (1988) The Malvinokaffric realm in the Devonian of Brazil. IN: McMilillan, N. J.; Embry, A. F.; Glass, D. J. (Ed.). Devonian of the world. Calgary: Canadian Society of Petroleum Geologists, 1988, v. 1. p. 669-704. (CSPG Memoir, 14)
↑ Milani, E. J. (1997) Evolução tectono-estratigráfica da Bacia do Paraná e seu relacionamento com a geodinâmica fanerozóica do Gondwana sul-ocidental (Portuguese). 1997. 2vol. Il. Tese (Doutorado) – Universidade Federal do Rio Grande do Sul, Curso de Pós-Graduação em Geociências, Porto Alegre.
↑ Vail, P. R.; Mitchum, R. M.; Thompson, S. (1977) "Seismic Stratigraphy and global change of sea level, part 3: relative changes of sea level from coastal onlap". In: Payton, C. E. (Ed.). Seismic Stratigraphy: applications of hydrocarbon exploration. Tulsa, Okla.: American Association of American Geologists. pp. 205-212. (AAPG Memoir, 26).
↑ O Aqüífero Guarani (Portuguese): The Guarani Aquifer
↑ Brazilian Geological Survey Co. Report (Portuguese): Companhia de Pesquisa de Recursos Minerais - Informe de Recursos Minerais
↑ Zanotto, O.A.; Becker, C.R.; Durães, E.M. (2008) Barra Bonita - Primeiro Campo de Gás na Bacia Do Paraná (Portuguese) IN: 44º Congresso Brasileiro de Geologia – Anais; Curitiba, Brasil.
↑ Petrobras Shale Industrialization Business Unit (English)/

Major South American geological features

Tectonic plates	Antarctic Plate Caribbean Plate Cocos Plate Nazca Plate Scotia Plate South American Plate

Cratons and shields	Amazonian Craton Arequipa-Antofalla Craton Atlantic Shield Central Brazilian Shield Guiana Shield Paranapanema Block Río Apa Craton Río de la Plata Craton São Francisco Craton Uruguayan Shield

Faults and shear zones	Atacama Fault Boconó Fault Cochabamba Fault Zone Cordillera Blanca Fault Zone Dolores-Guayaquil Megashear Domeyko Fault El Pilar Fault System El Tigre Fault Gastre Fault Liquiñe-Ofqui Fault Zone Magallanes-Fagnano Fault Morón Fault System Oca-Ancón Fault System Pernambuco Fault San Ramón Fault Sarandí del Yí Shear Zone Sierra Ballena Shear Zone Sobral Fault Trans Brazilian Lineament

Rifts and grabens	Aguapeí Aulacogen Amazon Rift Asunción Rift Cuyo Rift Espino Graben Neuquén Rifts Paramirim Aulacogen Salta Rifts

Sedimentary basins	Altiplano Basin Amazon Basin Andean foreland basins Central Brazil Basin Colorado Basin Cuyo Basin Eastern Venezuela Basin Golfo San Jorge Basin Magallanes Basin Malvinas Basin Neuquén Basin Pantanal Basin Paraíba Basin Paraná Basin Salta Basin Solimões Basin

Orogens	Andean Orogen Brasiliano Orogens Cariri Velhos Belt Famatinian Orogen Gondwanide Orogen Juruá Orogen Pampean Orogen San Rafael Orogen Sunsás Orogen Terra Australis Orogen Tilcarian Orogen

Volcanoes and hotspots	Andean Volcanic Belt Ascension hotspot Caribbean large igneous province Central Atlantic magmatic province Fernando hotspot Galápagos hotspot Juan Fernández hotspot Paraná and Etendeka traps San Felix hotspot Trindade hotspot

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