Isotopic characterization of Jurassic evaporites. Aconcagua-Neuquén Basin, Argentina

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Isotopic analysis can be used to interpret the origin of evaporitic sediments. A preliminary isotopic study of strontium, oxygen and sulphur has been carried out in Ca-sulphate facies of Jurassic marine evaporites (Tábanos Formation and Auquilco Formation) outcropping in southern Mendoza, Aconcagua-...

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Autores principales:	Lo Forte, G.L., Ortí, F., Rosell, L.
Formato:	JOUR
Materias:	Aconcagua-Neuquén Basin Argentina Isotopic composition Jurassic Marine evaporites evaporite Neuquen Basin South America Western Hemisphere World
Acceso en línea:	http://hdl.handle.net/20.500.12110/paper_16956133_v3_n2_p155_LoForte
Aporte de:	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires

id	todo:paper_16956133_v3_n2_p155_LoForte
record_format	dspace
spelling	todo:paper_16956133_v3_n2_p155_LoForte2023-10-03T16:29:59Z Isotopic characterization of Jurassic evaporites. Aconcagua-Neuquén Basin, Argentina Lo Forte, G.L. Ortí, F. Rosell, L. Aconcagua-Neuquén Basin Argentina Isotopic composition Jurassic Marine evaporites evaporite Jurassic Argentina Neuquen Basin South America Western Hemisphere World Isotopic analysis can be used to interpret the origin of evaporitic sediments. A preliminary isotopic study of strontium, oxygen and sulphur has been carried out in Ca-sulphate facies of Jurassic marine evaporites (Tábanos Formation and Auquilco Formation) outcropping in southern Mendoza, Aconcagua-Neuquén Basin (Argentina), as a part of a comprehensive sedimentologic study. The analysed sections are located at arroyo Las Leñitas, Cañada Ancha and arroyo Blanco. Sampled units include laminated, banded, and nodular lithofacies, made up of anhydrite, secondary gypsum and calcite. The mineralogy was studied by conventional petrographic analysis and X-ray diffraction. The 87Sr/86Sr ratio was obtained in six samples, with values ranging from 0.706793 to 0.706839, which match marine calcium-sulphate data of the same age. A similar conclusion may be derived from ten samples analysed for oxygen (δ18O) and sulphur (δ34S) isotopic composition: the obtained values are between + 11.55‰ and + 14.42‰, and between + 17.25‰ and + 18.48‰ respectively. The sedimentologic-stratigraphic evidence and the isotopic data both suggest a marine origin for the Tábanos and Auquilco evaporites, without an analytically detectable contribution of continental waters or hydrothermal solutions. The results also suggest that no isotope fractionation occurred during the primary gypsum-to-anhydrite-to-secondary gypsum transformations. © UB-ICTJA. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_16956133_v3_n2_p155_LoForte
institution	Universidad de Buenos Aires
institution_str	I-28
repository_str	R-134
collection	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic	Aconcagua-Neuquén Basin Argentina Isotopic composition Jurassic Marine evaporites evaporite Jurassic Argentina Neuquen Basin South America Western Hemisphere World
spellingShingle	Aconcagua-Neuquén Basin Argentina Isotopic composition Jurassic Marine evaporites evaporite Jurassic Argentina Neuquen Basin South America Western Hemisphere World Lo Forte, G.L. Ortí, F. Rosell, L. Isotopic characterization of Jurassic evaporites. Aconcagua-Neuquén Basin, Argentina
topic_facet	Aconcagua-Neuquén Basin Argentina Isotopic composition Jurassic Marine evaporites evaporite Jurassic Argentina Neuquen Basin South America Western Hemisphere World
description	Isotopic analysis can be used to interpret the origin of evaporitic sediments. A preliminary isotopic study of strontium, oxygen and sulphur has been carried out in Ca-sulphate facies of Jurassic marine evaporites (Tábanos Formation and Auquilco Formation) outcropping in southern Mendoza, Aconcagua-Neuquén Basin (Argentina), as a part of a comprehensive sedimentologic study. The analysed sections are located at arroyo Las Leñitas, Cañada Ancha and arroyo Blanco. Sampled units include laminated, banded, and nodular lithofacies, made up of anhydrite, secondary gypsum and calcite. The mineralogy was studied by conventional petrographic analysis and X-ray diffraction. The 87Sr/86Sr ratio was obtained in six samples, with values ranging from 0.706793 to 0.706839, which match marine calcium-sulphate data of the same age. A similar conclusion may be derived from ten samples analysed for oxygen (δ18O) and sulphur (δ34S) isotopic composition: the obtained values are between + 11.55‰ and + 14.42‰, and between + 17.25‰ and + 18.48‰ respectively. The sedimentologic-stratigraphic evidence and the isotopic data both suggest a marine origin for the Tábanos and Auquilco evaporites, without an analytically detectable contribution of continental waters or hydrothermal solutions. The results also suggest that no isotope fractionation occurred during the primary gypsum-to-anhydrite-to-secondary gypsum transformations. © UB-ICTJA.
format	JOUR
author	Lo Forte, G.L. Ortí, F. Rosell, L.
author_facet	Lo Forte, G.L. Ortí, F. Rosell, L.
author_sort	Lo Forte, G.L.
title	Isotopic characterization of Jurassic evaporites. Aconcagua-Neuquén Basin, Argentina
title_short	Isotopic characterization of Jurassic evaporites. Aconcagua-Neuquén Basin, Argentina
title_full	Isotopic characterization of Jurassic evaporites. Aconcagua-Neuquén Basin, Argentina
title_fullStr	Isotopic characterization of Jurassic evaporites. Aconcagua-Neuquén Basin, Argentina
title_full_unstemmed	Isotopic characterization of Jurassic evaporites. Aconcagua-Neuquén Basin, Argentina
title_sort	isotopic characterization of jurassic evaporites. aconcagua-neuquén basin, argentina
url	http://hdl.handle.net/20.500.12110/paper_16956133_v3_n2_p155_LoForte
work_keys_str_mv	AT lofortegl isotopiccharacterizationofjurassicevaporitesaconcaguaneuquenbasinargentina AT ortif isotopiccharacterizationofjurassicevaporitesaconcaguaneuquenbasinargentina AT roselll isotopiccharacterizationofjurassicevaporitesaconcaguaneuquenbasinargentina
_version_	1807318208229670912

Isotopic characterization of Jurassic evaporites. Aconcagua-Neuquén Basin, Argentina

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