TY - JOUR
T1 - Exhumation and structural evolution of the high-elevation Malcante Range, Eastern Cordillera, NW Argentina
AU - Payrola, Patricio
AU - Zapata, Sebastian
AU - Sobel, Edward R.
AU - Papa, Cecilia del
AU - Pingel, Heiko
AU - Glodny, Johannes
AU - Ledesma, Jonathan
N1 - Funding Information:
This work was supported by PICT 2245–15, Strategy CONICET Potsdam University, PICT 2016-1274 grants. CONICET-La.Te. Andes are thanked for AFT analytical results. Additional support came from DFG grant STR 373/34–1 and the Brandenburg Ministry of Sciences, Research and Cultural Affairs, Germany, within the framework of the international research training group IGK2018 SuRfAce processes, TEctonics and Georesources: The Andean foreland basin of Argentina (StRATEGy). We also acknowledge the support for S. Zapata from the MST-STRI Bytnar Postdoctoral Fellowship. We thank the Colque family from the foothills of the Malcante Range for their kindness and hospitality during our fieldwork and the Administración de Parques Nacionales and its guards for granting access to the Parque Nacional Los Cardones. Carolina Montero and Francisco Figueroa collaborate during the fieldwork. We are also grateful to V. García and F. Hongn for constructive and motivating discussions.
Funding Information:
This work was supported by PICT 2245–15, Strategy CONICET Potsdam University, PICT 2016-1274 grants. CONICET-La.Te. Andes are thanked for AFT analytical results. Additional support came from DFG grant STR 373/34–1 and the Brandenburg Ministry of Sciences, Research and Cultural Affairs , Germany, within the framework of the international research training group IGK2018 SuRfAce processes, TEctonics and Georesources: The Andean foreland basin of Argentina (StRATEGy). We also acknowledge the support for S. Zapata from the MST-STRI Bytnar Postdoctoral Fellowship. We thank the Colque family from the foothills of the Malcante Range for their kindness and hospitality during our fieldwork and the Administración de Parques Nacionales and its guards for granting access to the Parque Nacional Los Cardones. Carolina Montero and Francisco Figueroa collaborate during the fieldwork. We are also grateful to V. García and F. Hongn for constructive and motivating discussions.
Publisher Copyright:
© 2020 Elsevier Ltd
PY - 2021/1
Y1 - 2021/1
N2 - As an integral part of the Eastern Cordillera, the fault-bounded Malcante mountain range (up to 5100 m) in the NW Argentine Andes (ca. 25°S) is located in the transition between the arid Puna Plateau to the west and the humid broken foreland to the east. At this latitude, the topographic gradient of the eastern Andean margin forms an efficient orographic barrier that causes pronounced east–west rainfall and surface-process gradients. In this setting, the Malcante Range is an important, yet poorly studied structural high formed during the Cenozoic topographic growth of the Central Andes. In this study, we combine (a) detailed field observations, (b) a two-dimensional structural reconstruction, (c) apatite fission track and (U–Th-Sm)/He thermochronology of bedrock samples from a vertical transect across the western flank of the Malcante Range, and (d) inverse thermal modelling using QTQt software with the aim of deciphering the exhumation history of this mountain range. Field data indicate the presence of an angular unconformity between Cenozoic foreland deposits and older sedimentary strata, suggesting an initial episode of deformation during the middle-late Eocene, while our thermal model constrains the onset of exhumation at ~10 Ma. We suggest that exhumation was related to the unroofing of the easily erodible sedimentary cover, which prevented significant initial surface uplift. This may have changed as more resilient bedrock was exposed at ~5 Ma according to the thermal model, promoting rapid rock uplift. In combination with published data, our thermochronology allows us to speculate on the existence of a zone of deformation concentrated in the area of the present-day Pasha (24.5°S), Malcante (25°S), and Agua de Castilla (25.4°S) mountain ranges by ca. 10 Ma.
AB - As an integral part of the Eastern Cordillera, the fault-bounded Malcante mountain range (up to 5100 m) in the NW Argentine Andes (ca. 25°S) is located in the transition between the arid Puna Plateau to the west and the humid broken foreland to the east. At this latitude, the topographic gradient of the eastern Andean margin forms an efficient orographic barrier that causes pronounced east–west rainfall and surface-process gradients. In this setting, the Malcante Range is an important, yet poorly studied structural high formed during the Cenozoic topographic growth of the Central Andes. In this study, we combine (a) detailed field observations, (b) a two-dimensional structural reconstruction, (c) apatite fission track and (U–Th-Sm)/He thermochronology of bedrock samples from a vertical transect across the western flank of the Malcante Range, and (d) inverse thermal modelling using QTQt software with the aim of deciphering the exhumation history of this mountain range. Field data indicate the presence of an angular unconformity between Cenozoic foreland deposits and older sedimentary strata, suggesting an initial episode of deformation during the middle-late Eocene, while our thermal model constrains the onset of exhumation at ~10 Ma. We suggest that exhumation was related to the unroofing of the easily erodible sedimentary cover, which prevented significant initial surface uplift. This may have changed as more resilient bedrock was exposed at ~5 Ma according to the thermal model, promoting rapid rock uplift. In combination with published data, our thermochronology allows us to speculate on the existence of a zone of deformation concentrated in the area of the present-day Pasha (24.5°S), Malcante (25°S), and Agua de Castilla (25.4°S) mountain ranges by ca. 10 Ma.
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U2 - 10.1016/j.jsames.2020.102990
DO - 10.1016/j.jsames.2020.102990
M3 - Research Article
AN - SCOPUS:85096374291
SN - 0895-9811
VL - 105
JO - Journal of South American Earth Sciences
JF - Journal of South American Earth Sciences
M1 - 102990
ER -