Análisis Morfotectónico en El Piedemonte Suroccidental Del Antepais Andino, Sierras Pampeanas Occidentales, San Juan, Argentina

Rothis, Luis Martin; Perucca, Laura; Malnis, Paula Santi; Zuñiga, Ana Pantano; Alcacer, Juan Manuel; Haro, Federico Miguel; Vargas, Nicolás

doi:10.5016/geociencias.v37i1.12212

Cited by 7 publications

(1 citation statement)

References 12 publications

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“…For these reasons, we conducted our study on the prominent cumulative scarps of the Pan de Azúcar fault strand (Figures 2-5) where conditions are suitable for determining short-and longterm slip rates through TCN surface exposure dating and measurement of fault offset. At the southern tip of the range, Rothis et al (2018) reported Quaternary alluvial surfaces offset by the LCFZ (Figure 3); Rothis et al (2019) measured slip rates by optically stimulated luminescence (OSL) dating of some displaced alluvial deposits.…”

Section: Las Chacras Fault Zonementioning

confidence: 99%

Late Quaternary Intraplate Deformation Defined by the Las Chacras Fault Zone, West‐Central Argentina

et al. 2021

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Quaternary Andean backarc deformation within the Pampean segment (27-33.5°S) related to the convergence of the Nazca and South American plates is widely distributed, extending up to 700 km east from the Perú-Chile trench (Figure 1a). The plate margin encompasses the thin-skinned fold-and-thrust belts of the Andean Main Cordillera, Frontal Cordillera, and Precordillera in the west, and the thick-skinned reverse faults of the Sierras Pampeanas in the east (Figure 1b). This wide distribution and partitioning of deformation among structures with different tectonic styles has been associated with subduction of a shallowly dipping section of the Nazca plate at these latitudes, known as the Pampean flat-slab segment (Figure 1b;

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Section: Las Chacras Fault Zonementioning

confidence: 99%

Late Quaternary Intraplate Deformation Defined by the Las Chacras Fault Zone, West‐Central Argentina

et al. 2021

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Geomorphological analysis of the Antinaco‐Los Colorados valley, La Rioja province, Argentina

Corbat,

Fucks,

Juárez

et al. 2024

Earth Surf Processes Landf

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The Antinaco‐Los Colorados valley (ALCV) is a tectonic depression located in the centre‐north of the province of La Rioja (Argentina), limited to both the east and west by mountain ranges, in the broken foreland region. Geomorphological research on environmental dynamics is important for both building a reference framework for further studies and for the development of the socio‐economic activities in the area. This study presents the main geomorphological features of the tectonic depression at the regional scale in order to identify the primary factors involved in its evolution and the landforms it contains. The ALCV is asymmetric, and it is filled by up to 1600 m of sediments along the western margin. Using literature, images, digital elevation models of the study area and field work, different morphologies were identified in the valley, mostly linked to Quaternary climatic and tectonic changes. These morphologies were grouped into three main morphogenetic units that characterize this landscape: the relict piedmont levels, the current piedmont and the fluvial‐aeolian plain. The identification of fluvial forms suggests that fluvial systems have been important during the evolution of the landscape. Aeolian accumulation features, currently mostly vegetated, were likely formed under drier climatic conditions than those at present and probably related to the last ice age or even more recent times. Successive reactivations of the overall system are not only tectonic, as evidenced by the structural lineaments that affect relict piedmont levels and the fluvial‐aeolian plain, but also climatic. Thus, the identified landforms suggest that climatic and tectonic variables account for the variations in the environment of the ALCV, affecting the reaccommodation of the exogenous geomorphological processes and the modelling of the relief.

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Morphotectonic Analysis in the Eastern Piedmont of the Sierra de La Huerta, Western Sierras Pampeanas, San Juan, Argentina

Rothis

Haro

Perucca

et al. 2019

Advances in Geomorphology and Quaternary Studies in Argentina

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Análisis Morfotectónico en El Piedemonte Suroccidental Del Antepais Andino, Sierras Pampeanas Occidentales, San Juan, Argentina

Cited by 7 publications

References 12 publications

Late Quaternary Intraplate Deformation Defined by the Las Chacras Fault Zone, West‐Central Argentina

Late Quaternary Intraplate Deformation Defined by the Las Chacras Fault Zone, West‐Central Argentina

Geomorphological analysis of the Antinaco‐Los Colorados valley, La Rioja province, Argentina

Morphotectonic Analysis in the Eastern Piedmont of the Sierra de La Huerta, Western Sierras Pampeanas, San Juan, Argentina

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