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Seismic volcano-stratigraphy in the basaltic complexes on the rifted margin of Pelotas Basin, southeast Brazil

Andres Cesar Gordon and Webster U. Mohriak
Seismic volcano-stratigraphy in the basaltic complexes on the rifted margin of Pelotas Basin, southeast Brazil (in Petroleum systems in 'rift' basins, Paul J. Post (editor), James Coleman (editor), Norman C. Rosen (editor), David E. Brown (editor), Tina Roberts-Ashby (editor), Peter Kahn (editor) and Mark Rowan (editor))
Papers presented at the Gulf Coast Section, Society of Economic Paleontologists and Mineralogists Foundation Annual Bob F. Perkins Research Conference (December 2015) 34: 748-786

Abstract

The synrift and breakup stages of the Pelotas basin in southeast Brazil are characterized by scarce siliciclastic deposits and widespread volcanism in the form of seaward-dipping reflectors (SDRs). Using high-quality seismic reflection and refraction profiles integrated with gravity, magnetics, and exploratory boreholes, a volcanostratigraphic analysis has been undertaken to understand the geological processes observed during the rifting and breakup stages of this segment of the South Atlantic continental margin. Ten volcanic units have been identified and mapped within the extended continental crust and into the transitional and oceanic crusts. The magmatic cycle began during the early synrift stage, with alkaline, high TiO (sub 2) basalts produced at 125 Ma. This was followed by the formation of a series of voluminous tholeiitic, high TiO (sub 2) SDR wedges during the late synrift and breakup stages. The end of the breakup process was marked by flat-lying, late synrift/early postrift, tholeiitic, low TiO (sub 2) basalts at 118 Ma. During the Late Cretaceous and Early Paleogene, the magmatic activity continued only in the oceanic crust, forming igneous intrusions (volcanic cones or seamounts). A comparison between the Pelotas basin and the Luderitz and Walvis basins offshore Namibia is discussed by integrating regional geological maps, potential field methods, seismic data, and results of exploratory drilling. The SDR province in the Pelotas basin coincides geographically with the Parana basin continental flood basalts onshore Brazil, which crop out near the coastline. This makes the Pelotas basin an ideal place to understand the relationships between the tectonic-magmatic events that preceded and continued during the Gondwana breakup, which resulted in the development of continental margin rift basins and the formation of the South Atlantic Ocean.


ISSN: 1544-2462
Serial Title: Papers presented at the Gulf Coast Section, Society of Economic Paleontologists and Mineralogists Foundation Annual Bob F. Perkins Research Conference
Serial Volume: 34
Title: Seismic volcano-stratigraphy in the basaltic complexes on the rifted margin of Pelotas Basin, southeast Brazil
Title: Petroleum systems in 'rift' basins
Author(s): Gordon, Andres CesarMohriak, Webster U.
Author(s): Post, Paul J.editor
Author(s): Coleman, James, Jr.editor
Author(s): Rosen, Norman C.editor
Author(s): Brown, David E.editor
Author(s): Roberts-Ashby, Tinaeditor
Author(s): Kahn, Petereditor
Author(s): Rowan, Markeditor
Affiliation: Universidade do Estado de Rio de Janeiro, Rio de Janeiro, Brazil
Affiliation: Bureau of Ocean Energy Management, New Orleans, LA, United States
Pages: 748-786
Published: 20151201
Text Language: English
Publisher: Society of Economic Paleontologists, Gulf Coast Section (GCSSEPM) Foundation, Houston, TX, United States
ISBN: 978-1-944966-00-3
Meeting name: 34th GCSSEPM Foundation Bob F. Perkins-Rosen research conference on Petroleum systems in 'rift' basins
Meeting location: Houston, TX, USA, United States
Meeting date: 20151213Dec. 13-16, 2015
References: 115
Accession Number: 2020-013092
Categories: Economic geology, geology of energy sourcesApplied geophysics
Document Type: Serial Conference document
Bibliographic Level: Analytic
Illustration Description: illus. incl. sects., 1 table, geol. sketch maps
S36°30'00" - S29°00'00", W53°30'00" - W43°30'00"
Country of Publication: United States
Secondary Affiliation: GeoRef, Copyright 2020, American Geosciences Institute.
Update Code: 202009
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