Evolution of the Neogene Andean foreland basins of the Southern Pampas and Northern Patagonia (34°–41°S), Argentina

The Pampas plain (30°–41°S) has historically been considered as a sector that evolved independently from the adjacent Andean ranges. Nevertheless, the study of the Pampas showed that it is reasonable to expect an important influence from the Andes into the extraandean area. The Pampas plain can be d...

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Bibliographic Details
Published in:Journal of South American earth sciences 2015-12, Vol.64, p.452-466
Main Authors: Folguera, Alicia, Zárate, Marcelo, Tedesco, Ana, Dávila, Federico, Ramos, Victor A.
Format: Article
Language:English
Subjects:
Basin analysis
Broken Andean foreland
Dynamic topography
Neogene
Southern Pampa
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Summary:The Pampas plain (30°–41°S) has historically been considered as a sector that evolved independently from the adjacent Andean ranges. Nevertheless, the study of the Pampas showed that it is reasonable to expect an important influence from the Andes into the extraandean area. The Pampas plain can be divided into two sectors: the northern portion, adjacent to the Pampean Ranges, has been studied by Davila (2005, 2007, 2010). The southern sector (34°–41°S) is the objective of the present work. The study of this area allowed to characterize two separate foreland basins: the Southern Pampa basin and the Northern Patagonian basin. The infill is composed of Late Miocene and Pliocene units, interpreted as distal synorogenic sequences associated with the late Cenozoic Andean uplift at this latitudinal range. These foreland basins have been defined based on facies changes, distinct depositional styles, along with the analysis of sedimentary and isopach maps. The basins geometries are proposed following De Celles and Gilles (1996) taking into account the infill geometry, distribution and grain size. In both cases, these depocenters are located remarkably far away from the Andean tectonics loads. Therefore they cannot be explained with short-wave subsidence patterns. Elastic models explain the tectonic subsidence in the proximal depocenters but fail to replicate the complete distal basins. These characteristics show that dynamic subsidence is controlling the subsidence in the Southern Pampas and Northern Patagonian basins. •The Neogene Argentina Pampa infill is reviewed, including the lithological characteristics of the stratigraphic units.•The basin geometry description is realized.•A comparation of the Neogene evolution of the two foreland basins of central Argentina is suggested.•The plausible mechanisms involved in the generation of subsidence and the resulting accommodation space is proposed.
ISSN:0895-9811
1873-0647
DOI:10.1016/j.jsames.2015.05.010