Diagenesis of upper jurassic concretions from the Antarctic Peninsula

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Early-diagenetic calcite concretions are widespread in mudstone-tuff sequences deposited in Late Jurassic oxygen-deficient basins of the Antarctic Peninsula. Although obscured or destroyed in host rocks, original components and sedimentary structures are well preserved in concretions, in spite of si...

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Autor principal: Scasso, R.A
Otros Autores: Kiessling, W.
Formato: Capítulo de libro
Lenguaje:Inglés
Publicado: SEPM Society for Sedimentary Geology 2001
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100 1 |a Scasso, R.A. 
245 1 0 |a Diagenesis of upper jurassic concretions from the Antarctic Peninsula 
260 |b SEPM Society for Sedimentary Geology  |c 2001 
270 1 0 |m Scasso, R.A.; Departamento de Geologt'a, Facultad de Ciencias Kiactas y Naturales, UBA-Ciudad Universitaria, Pab. 1,1 Piso, 1428 Buenos Aires, Argentina 
506 |2 openaire  |e Política editorial 
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520 3 |a Early-diagenetic calcite concretions are widespread in mudstone-tuff sequences deposited in Late Jurassic oxygen-deficient basins of the Antarctic Peninsula. Although obscured or destroyed in host rocks, original components and sedimentary structures are well preserved in concretions, in spite of significant mineralogical and geochcmical change during growth. Early diagenesis led to a rapid and almost total variation in the mineralogy within the concretions, independently of the original host lithologies. Siliceous particles were replaced by chlorite and zeolites in suboxic, alkaline, and moderately reducing conditions on the sea floor and in the first centimeters of burial. These conditions also led to localized early formation of phosphate concretions. Pyrite developed subsequently because of high sulfide abundance in the sulfate reduction zone. Most calcite precipitation took place in the lower part of the sulfate reduction zone in a strongly alkaline environment where sulfide content had been lowered by pyrite precipitation. In this stage, the remaining siliceous elements were dissolved or replaced by calcite. Later diagenetic changes include enlargement of zeolites, minor changes in clay minerals, and the formation of calcite veins. The wide range of δ13C values in cement and vein calcite (-1.4‰ and -20.23‰ PDB) is explained by mixed carbon sources from organic matter oxidation and dissolution of calcareous shells. The low δ18O of calcite (-2.34‰ to -19.72‰ PDB) is the result of recrystallization in contact with high-temperature diagenetic or hydrothermal fluids flushed through micro-fractures in the concretions, which also produced extensive vein formation. Copyright © 2001, SEPM (Society for Sedimentary Geology).  |l eng 
593 |a Departamento de Geologt'a, Facultad de Ciencias Kiactas y Naturales, UBA-Ciudad Universitaria, Pab. 1,1 Piso, 1428 Buenos Aires, Argentina 
593 |a Museum für Naturkunde, invalidenstr. 43, D-10115 Berlin, Germany 
690 1 0 |a CALCITE 
690 1 0 |a CONCRETION 
690 1 0 |a DIAGENESIS 
690 1 0 |a JURASSIC 
690 1 0 |a ANTARCTICA 
700 1 |a Kiessling, W. 
773 0 |d SEPM Society for Sedimentary Geology, 2001  |g v. 71  |h pp. 88-100  |k n. 1  |p J. Sediment. Res.  |x 15271404  |t Journal of Sedimentary Research 
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