Refolding of thin-skinned thrust sheets by active basement-involved thrust faults in the Eastern Precordillera of western Argentina

Devastating earthquakes like the 1944 San Juan earthquake reflect active deformation in western Argentina. Although the earthquake caused considerable damage to San Juan, the source of the earthquake remains uncertain. Potential source faults occur in the thin-skinned fold-and-thrust belt Precordill...

Descripción completa

Guardado en:
Detalles Bibliográficos
Publicado: 2006
Materias:
1944 earthquake
Flexural slip fault
La Laja
Neotectonics
San Juan
Villicum
active fault
deformation
earthquake event
fault geometry
fold and thrust belt
folding
landform evolution
monocline
neotectonics
red bed
river terrace
San Juan earthquake 1944
thrust fault
Argentina
Precordillera
San Juan [Argentina]
Sierras Pampeanas
South America
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00044822_v61_n4_p589_Meigs
http://hdl.handle.net/20.500.12110/paper_00044822_v61_n4_p589_Meigs
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_00044822_v61_n4_p589_Meigs
record_format dspace
spelling paper:paper_00044822_v61_n4_p589_Meigs2023-06-08T14:26:01Z Refolding of thin-skinned thrust sheets by active basement-involved thrust faults in the Eastern Precordillera of western Argentina 1944 earthquake Flexural slip fault La Laja Neotectonics San Juan Villicum active fault deformation earthquake event fault geometry fold and thrust belt folding landform evolution monocline neotectonics red bed river terrace San Juan earthquake 1944 thrust fault Argentina Precordillera San Juan [Argentina] Sierras Pampeanas South America Devastating earthquakes like the 1944 San Juan earthquake reflect active deformation in western Argentina. Although the earthquake caused considerable damage to San Juan, the source of the earthquake remains uncertain. Potential source faults occur in the thin-skinned fold-and-thrust belt Precordillera province and in the thick-skinned Sierras Pampeanas province, to the west and east, respectively of Sierra de Villicum, a thrust sheet in the eastern Precordillera northwest of San Juan. Sierra de Villicum is a west-vergent thrust sheet bound on the northwest by the Villicum thrust, which juxtaposes a southeast dipping panel of Cambro-Ordovician and Neogene strata in the hanging wall with Neogene red beds in the footwall. A series of Late Pleistocene fluvial terraces developed across the Villicum thrust show no evidence of active fold or fault deformation. Terraces are deformed by active folds and faults in the middle of the southeastern flank of the Sierra de Villicum thrust sheet. A southeast-facing, southwest-plunging monocline characterizes the Neogene red beds in the region of active folding. Co- and post-seismic surface rupture along roughly 6 km of the La Laja fault in 1944 occurred in the limb of the monocline. Evidence that surface deformation in the 1944 earthquake was dominated by folding includes terrace's fold geometry, which is consistent with kink-band models for fold growth, and bedding-fault relationships that indicate that the La Laja fault is a flexural slip fault. A blind basement reverse fault model for the earthquake source and for active deformation reconciles the zone of terrace deformation, coseismic surface rupture on the La Laja fault, refolding of the Villicum thrust sheet, a basement arch between the Precordillera and eastern Precordillera, and microseismicity that extends northwestward from a depth of ∼5 km beneath Sierra de Villicum to ∼35 km depth. Maximum horizontal shortening rate is estimated to be ∼3.0 mmyr-1 from the terrace fold model and correlation of the terraces with dated terraces located to the southwest of the study area. Basement rocks beneath Cerro Salinas, another eastern Precordillera thrust sheet to the southwest, are also characterized by an east-facing monoclinal geometry, which suggests that blind thrust faulting on east-vergent basement faults represents a significant, underappreciated seismic hazard in western Argentina. © 2006 Revista de la Asociación Geológica Argentina. 2006 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00044822_v61_n4_p589_Meigs http://hdl.handle.net/20.500.12110/paper_00044822_v61_n4_p589_Meigs
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic 1944 earthquake
Flexural slip fault
La Laja
Neotectonics
San Juan
Villicum
active fault
deformation
earthquake event
fault geometry
fold and thrust belt
folding
landform evolution
monocline
neotectonics
red bed
river terrace
San Juan earthquake 1944
thrust fault
Argentina
Precordillera
San Juan [Argentina]
Sierras Pampeanas
South America
spellingShingle 1944 earthquake
Flexural slip fault
La Laja
Neotectonics
San Juan
Villicum
active fault
deformation
earthquake event
fault geometry
fold and thrust belt
folding
landform evolution
monocline
neotectonics
red bed
river terrace
San Juan earthquake 1944
thrust fault
Argentina
Precordillera
San Juan [Argentina]
Sierras Pampeanas
South America
Refolding of thin-skinned thrust sheets by active basement-involved thrust faults in the Eastern Precordillera of western Argentina
topic_facet 1944 earthquake
Flexural slip fault
La Laja
Neotectonics
San Juan
Villicum
active fault
deformation
earthquake event
fault geometry
fold and thrust belt
folding
landform evolution
monocline
neotectonics
red bed
river terrace
San Juan earthquake 1944
thrust fault
Argentina
Precordillera
San Juan [Argentina]
Sierras Pampeanas
South America
description Devastating earthquakes like the 1944 San Juan earthquake reflect active deformation in western Argentina. Although the earthquake caused considerable damage to San Juan, the source of the earthquake remains uncertain. Potential source faults occur in the thin-skinned fold-and-thrust belt Precordillera province and in the thick-skinned Sierras Pampeanas province, to the west and east, respectively of Sierra de Villicum, a thrust sheet in the eastern Precordillera northwest of San Juan. Sierra de Villicum is a west-vergent thrust sheet bound on the northwest by the Villicum thrust, which juxtaposes a southeast dipping panel of Cambro-Ordovician and Neogene strata in the hanging wall with Neogene red beds in the footwall. A series of Late Pleistocene fluvial terraces developed across the Villicum thrust show no evidence of active fold or fault deformation. Terraces are deformed by active folds and faults in the middle of the southeastern flank of the Sierra de Villicum thrust sheet. A southeast-facing, southwest-plunging monocline characterizes the Neogene red beds in the region of active folding. Co- and post-seismic surface rupture along roughly 6 km of the La Laja fault in 1944 occurred in the limb of the monocline. Evidence that surface deformation in the 1944 earthquake was dominated by folding includes terrace's fold geometry, which is consistent with kink-band models for fold growth, and bedding-fault relationships that indicate that the La Laja fault is a flexural slip fault. A blind basement reverse fault model for the earthquake source and for active deformation reconciles the zone of terrace deformation, coseismic surface rupture on the La Laja fault, refolding of the Villicum thrust sheet, a basement arch between the Precordillera and eastern Precordillera, and microseismicity that extends northwestward from a depth of ∼5 km beneath Sierra de Villicum to ∼35 km depth. Maximum horizontal shortening rate is estimated to be ∼3.0 mmyr-1 from the terrace fold model and correlation of the terraces with dated terraces located to the southwest of the study area. Basement rocks beneath Cerro Salinas, another eastern Precordillera thrust sheet to the southwest, are also characterized by an east-facing monoclinal geometry, which suggests that blind thrust faulting on east-vergent basement faults represents a significant, underappreciated seismic hazard in western Argentina. © 2006 Revista de la Asociación Geológica Argentina.
title Refolding of thin-skinned thrust sheets by active basement-involved thrust faults in the Eastern Precordillera of western Argentina
title_short Refolding of thin-skinned thrust sheets by active basement-involved thrust faults in the Eastern Precordillera of western Argentina
title_full Refolding of thin-skinned thrust sheets by active basement-involved thrust faults in the Eastern Precordillera of western Argentina
title_fullStr Refolding of thin-skinned thrust sheets by active basement-involved thrust faults in the Eastern Precordillera of western Argentina
title_full_unstemmed Refolding of thin-skinned thrust sheets by active basement-involved thrust faults in the Eastern Precordillera of western Argentina
title_sort refolding of thin-skinned thrust sheets by active basement-involved thrust faults in the eastern precordillera of western argentina
publishDate 2006
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00044822_v61_n4_p589_Meigs
http://hdl.handle.net/20.500.12110/paper_00044822_v61_n4_p589_Meigs
_version_ 1768544574720966656

Ejemplares similares