Rapid surface uplift and crustal flow in the Central Andes (southern Peru) controlled by lithospheric drip dynamics

Oğuz H. Göğüş*, Kurt Sundell, Ebru Şengül Uluocak, Joel Saylor, Uğurcan Çetiner

*Bu çalışma için yazışmadan sorumlu yazar

Araştırma sonucu: ???type-name???Makalebilirkişi

7 Atıf (Scopus)

Özet

The high flux magmatism, crustal shortening/extension and plateau formation in Cordilleran orogenic systems have been explained by removal of lithosphere (lower crust and the sub-arc mantle lithosphere) that develops beneath the magmatic arc and hinterland regions. However, the primary role of this process driving surface uplift, and crustal deformation is not well understood. Here, reconciling geodynamic model predictions with lithospheric structure and paleoelevation estimates, we suggest that viscous drip-type lithospheric removal from beneath the Central (Peruvian) Andes can explain several tectonic features: (1) “double humped” shaped/axisymmetric topographic profile and rapid surface rise (up to 1.2 km in ~ 4.31 Myrs); (2) thicker crust associated with the lower surface elevation of the Altiplano plateau (Lake Titicaca region) (negative residual topography) and higher topography and thinner crust of Western and Eastern Cordilleras (positive residual topography); and (3) faster wave speed (colder)/sub-Moho anomaly underlying the Altiplano, surrounded by slower speed anomalies on both western arc-forearc areas and parts of the eastern Cordillera and Sub-Andes. Our results emphasize the important role of lithospheric drip and associated mantle dynamics in the transient evolution of Andean orogeny controlling surface uplift and crustal flow and thickening.

Orijinal dilİngilizce
Makale numarası5500
DergiScientific Reports
Hacim12
Basın numarası1
DOI'lar
Yayın durumuYayınlandı - Ara 2022

Bibliyografik not

Publisher Copyright:
© 2022, The Author(s).

Finansman

Numerical calculations were done using a modified version of the SOPALE (2000) software. Phillip Fullsack at Dalhousie University originally developed the SOPALE modeling code with Chris Beaumont and his Geodynamics group. This study was jointly supported by ANATEC (ILP/International Lithosphere Programme) and the 2232 International Fellowship for Outstanding Researchers Program of the Scientific and Technological Research Council of Turkey (118C329). We benefited from constructive reviews by Fabio Capitanio and Martyn Unsworth. Numerical calculations were done using a modified version of the SOPALE (2000) software. Phillip Fullsack at Dalhousie University originally developed the SOPALE modeling code with Chris Beaumont and his Geodynamics group. This study was jointly supported by ANATEC (ILP/International Lithosphere Programme) and the 2232 International Fellowship for Outstanding Researchers Program of the Scientific and Technological Research Council of Turkey (118C329). We benefited from constructive reviews by Fabio Capitanio and Martyn Unsworth.

FinansörlerFinansör numarası
ANATEC
Fabio Capitanio and Martyn Unsworth
Türkiye Bilimsel ve Teknolojik Araştirma Kurumu118C329

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