Evento
Deformation and differential subsidence in the Neuquén Basin, outlines for hydrocarbon exploration
Cristallini, Ernesto Osvaldo
; Tomezzoli, Renata Nela
; Guzman, Cecilia Griselda
; Hernandez, Natalia Marina
Tipo del evento:
Otro
Nombre del evento:
25th Latin-American Colloquium of Geosciences
Fecha del evento:
18/09/2019
Institución Organizadora:
Universität Hamburg;
Título del Libro:
25th Latin-American Colloquium of Geoscience: Program and Abstracts
Editorial:
Universität Hamburg
Idioma:
Inglés
Clasificación temática:
Resumen
The Neuquén basin is one of the main hydrocarbon producers in Argentina and also has one of most potentials in theworld from the capitalization of its main source rock: the Vaca Muerta Formation. Its history started by thedevelopment of a rift system during Late Triassic ? Early Jurassic, subsequently filled with sag facies characterized bysuccessive regressions and transgressions of eustatic origin. The Triassic extension was resolved with normal faults ofNO-SE to ONO-ESE orientation and transfer zones of NE-SW orientation. Since Cretaceous, it became a forelandbasin linked to the Andean orogeny, that printed in the western sector, a N-S fault and thrust belt. However, thisapparently simple history has some particular complexities. Towards the south of the basin, a narrow E-W trendingfold and thrust belt was developed during Middle Jusrassic ? Lower Cretaceous. The inversion of some of theTriassic structures, developed an E-W structural height (Huincul) that controlled the facies distribution during Jurassicand Cretaceous. Both the Jurassic and the Cretaceous-Tertiary (Andean) compressional deformation, invert some ofthe Triassic structures. However, unlike what was initially assumed, the inversion effect was not as important. This ismainly because, both compression vectors are oblique to the Triassic structures and therefore only some segments ofsome faults were inverted. The Jurassic compression, from south, printed a dextral component in the southernmostNO-SE Triassic faults, whereas the Cretaceous-Tertiary Andean orogeny, printed a sinistral component over thewesternmost NO-SE Triassic faults of the basin. To the southwest of the basin, the extensional structures and bothprincipal compression vectors are overlapped, developing areas with very complex structures. Making things evenmore complex, the differential subsidence mechanism is over imposed to all deformation process. This is a lessspectacular process, however, is very fundamental for hydrocarbon distribution in the basin. The differentialcompaction between basement and Triassic half grabens infill, controlled a series of normal faults that grew duringearly Cretaceous grouped above Triassic shoulders. These structures conditioned the migration and accumulation ofthe hydrocarbon in some of the biggest gas and oil fields of the basin. The effect of differential subsidence iscontinuous over time, and controls even current basin troughs. Its consequences, are more evident and visible inareas of low compressive deformation, however, there are also recognized in the Jurassic (Huincul) and CretaceousTertiary (Andina) fold and thrust belts. The effect that this mechanism could produce a distortion in the present stressfield of the basin that is currently being studied. The understanding of this process is very important for planningdeveloping of non-conventional fields in Vaca Muerta Formation.
Palabras clave:
differential subsidence
,
Neuquen Basin
,
hydrocarbon exploration
,
deformation
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Eventos(IDEAN)
Eventos de INSTITUTO DE ESTUDIOS ANDINOS "DON PABLO GROEBER"
Eventos de INSTITUTO DE ESTUDIOS ANDINOS "DON PABLO GROEBER"
Eventos(IEGEBA)
Eventos de INSTITUTO DE ECOLOGIA, GENETICA Y EVOLUCION DE BS. AS
Eventos de INSTITUTO DE ECOLOGIA, GENETICA Y EVOLUCION DE BS. AS
Citación
Deformation and differential subsidence in the Neuquén Basin, outlines for hydrocarbon exploration; 25th Latin-American Colloquium of Geosciences; Hamburgo; Alemania; 2019; 1-1
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