Cenozoic tectonostratigraphic evolution and architecture of the central Andes in northern Chile based on the aquine region, western cordillera (19 degrees-19 degrees 30 ' S)
Author
dc.contributor.author
Herrera, Sebastián
Author
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Pinto Lincoñir, Luisa
Author
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Deckart, Katja
Author
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Cortés, Javier
Author
dc.contributor.author
Valenzuela, Javier
Admission date
dc.date.accessioned
2018-06-19T21:03:35Z
Available date
dc.date.available
2018-06-19T21:03:35Z
Publication date
dc.date.issued
2017
Cita de ítem
dc.identifier.citation
Andean Geology 44 (2): 87-122. May, 2017
es_ES
Identifier
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10.5027/andgeoV44n2-a01
Identifier
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https://repositorio.uchile.cl/handle/2250/149022
Abstract
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Crustal thickening by horizontal shortening and associated deformation have been broadly considered as prime mechanisms for mountain building in the Central Andes of western South America. However, timing and structural style of Andean orogeny in northernmost Chile remains to be fully understood. By means of this contribution we attempt to unravel the Cenozoic tectonostratigraphy and structural architecture of a narrow segment within the Western Cordillera (western flank of the Altiplano plateau), based on detailed structural mapping, available and new geochronological data gathered from the Aquine region (similar to 19 degrees 15'S). The geology of this area indicates that compressive tectonics dominated for similar to 21 Myr, between 27 Ma and 6 Ma, and that onset of deformation probably occurred in the middle Eocene (after ca. 49 Ma). According to angular unconformities registered throughout the region, three principal compressive episodes have been determined: (1) middle Eocene-late Oligocene (ca. 49-27 Ma); (2) late Oligocene-middle Miocene (ca. 27-14 Ma); and (3) middle-latest Miocene, 14-6 Ma. Paleogene and Neogene structural development within the Aquine region was concomitant to activity on the bordering West and East Vergent Thrust Systems (WTS and ETS), which controlled uplift of the western Altiplano since the late Oligocene-early Miocene, located at the foot of the Precordillera and within the eastern part of the Western Cordillera, respectively. Major structures in the western segment of the region are high-angle, east-vergent, substratum-involving thrusts that affect late Mesozoic and Cenozoic volcanic and sedimentary intra-arc deposits. Unalike, a west-vergent fold-and-thrust belt is developed in the southeastern segment of the region, involving only Miocene deposits. These contrasting structural styles and opposite vergences indicate a combination of thin- and thick-skinned tectonics in a "pop-up" like structural array. Growth strata and sedimentological features in alluvial and fluvial sandstones and conglomerates of the upper Miocene Mauque Formation suggest the occurrence of syntectonic deposition. In addition, gentle angular unconformities within upper Oligocene-upper Miocene arc deposits suggest that sedimentation and volcanism developed synchronic to compressive tectonics throughout the Miocene and coeval to deposition in the active bordering thrust systems (WTS and ETS). The interpreted tectonostratigraphic development of the study area is similar to but slightly diachronic with the Cenozoic evolution in the Belen region (18 degrees-19 degrees S) of northernmost Chile. We interpret that east- and west-vergent thrusts within the Western Cordillera, are deeply rooted in a crustal-scale "pop-up" structure that accommodated Cenozoic deformation on the western flank of the Altiplano. Uplift as a consequence of contraction along the Western Cordillera was coeval to late Paleogene block exhumation and subsequent Neogene development of fold-and-thrust belts on the eastern border of the Altiplano. The main structural characteristics within the Aquine region suggest that inversion of an Upper Cretaceous intra-arc basin was of major relevance for the Cenozoic structural development of the Western Cordillera.
Cenozoic tectonostratigraphic evolution and architecture of the central Andes in northern Chile based on the aquine region, western cordillera (19 degrees-19 degrees 30 ' S)