Late Cretaceous Uplift in the Malargüe fold-and-thrust belt (35ºS), southern Central Andes of Argentina and Chile

Jose Francisco Mescua,Victor Alberto Ramos,Laura Beatriz Giambiagi

doi:10.5027/andgeov40n1-a05

Jose Francisco Mescua, Victor Alberto Ramos + Show 1 more

Open Access

https://doi.org/10.5027/andgeov40n1-a05

Copy DOI

Abstract

The Cordillera de los Andes is the typical example of a subduction-related orogen. Its present topography is the result of post-Miocene uplift, however, Andean compressional deformation and uplift started in the Late Cretaceous, as increasingly recognized in different sectors of the mountain belt. We present evidences of a Late Cretaceous event of compressional deformation in the southern Central Andes (35oS), reflected in syn-orogenic foreland basin deposits assigned to the Neuquen Group in Argentina and the Brownish-Red Clastic Unit in Chile. Comparison of the facies of these units allows us to recognize a sector proximal to the Late Cretaceous orogenic front, a distal sector with sediment provenance from the forebulge and a western sector where the sediments where deposited within the Late Cretaceous mountain belt. On this basis, we assign the orogenic front to an inverted Jurassic normal fault, the Rio del Cobre fault, and reconstruct the structure of the easternmost Late Cretaceous Andes at this latitude. The change in the location of the orogenic front north and south of 35oS allows us to recognize a long-lived change in behavior in Andean evolution in this sector, which correlates with a change in the shape and the deposits of Mesozoic Neuquen basin.

Highlights

The Cordillera de los Andes is one of the most extensive mountain ranges in the world, extending for more than 8,000 km along the western margin of South America
Its present topography is the result of post-Miocene uplift, Andean compressional deformation and uplift started in the Late Cretaceous, as increasingly recognized in different sectors of the mountain belt
We present evidences of a Late Cretaceous event of compressional deformation in the southern Central Andes (35oS), reflected in syn-orogenic foreland basin deposits assigned to the Neuquén Group in Argentina and the Brownish-Red Clastic Unit in Chile

Summary

Introduction

The Cordillera de los Andes is one of the most extensive mountain ranges in the world, extending for more than 8,000 km along the western margin of South America. Based on detrital zircon ages, Tunik et al (2010) dated the beginning of the exhumation in the Cordillera Principal and the maximum age of deposition of syn-orogenic strata in this basin as taking place in the early Cenomanian. In this contribution, we will present evidence for a Late Cretaceous age for the beginning of Andean uplift and deformation at 35oS, and we will address the issue of the location of the Late Cretaceous orogenic front north of 36oS. This will allow us to discuss some of the characteristics of this deformational event

Geologic setting: the Neuquén basin

The Neuquén Group at 35oS

The Brownish-Red Clastic Unit and the MesozoicCenozoic unconformity in Chile

Discussion and conclusions