Plume overriding triggers shallow subduction and orogeny in the southern Central Andes

Plate tectonic theory implies that mantle plumes may be eventually overridden by lithosphere during continental drift. These events have particular tectonomagmatic consequences for active margins and hence related orogenic processes. Since the first documentation of plume overriding and the definiti...

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Detalles Bibliográficos
Publicado:	2017
Materias:	Flat-slab Fold and thrust belt Plume-modified orogenesis Plume-subduction zone interaction
Acceso en línea:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_1342937X_v49_n_p387_Gianni http://hdl.handle.net/20.500.12110/paper_1342937X_v49_n_p387_Gianni
Aporte de:	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires

id	paper:paper_1342937X_v49_n_p387_Gianni
record_format	dspace
spelling	paper:paper_1342937X_v49_n_p387_Gianni2023-06-08T16:10:34Z Plume overriding triggers shallow subduction and orogeny in the southern Central Andes Flat-slab Fold and thrust belt Plume-modified orogenesis Plume-subduction zone interaction Plate tectonic theory implies that mantle plumes may be eventually overridden by lithosphere during continental drift. These events have particular tectonomagmatic consequences for active margins and hence related orogenic processes. Since the first documentation of plume overriding and the definition of the plume-modified orogeny concept, only few examples have been recognized in the geologic record. In this study, we analyze the Neogene tectonic evolution of the Southern Central Andes between 35° and 38°S and its potential relation to the subduction of the Payenia plume as a recent analogue of this process. Through a series of tectonic reconstructions we show that progressive Payenia plume overriding correlates with Neogene arc-front migrations linked to slab shallowing, fold belt reactivation in the Main Cordillera and intraplate contraction in the San Rafael block. Additionally, Nazca slab tear determined from tomographic analyses and subsequent diachronous steepening of the subducted plate may also be an aftermath of plume subduction as often described in the final stages of plume-modified orogeny. Finally, we propose a modern analogue for processes previously described, dating back to the Mesoproterozoic, which provides further insights into these complex settings. © 2017 International Association for Gondwana Research 2017 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_1342937X_v49_n_p387_Gianni http://hdl.handle.net/20.500.12110/paper_1342937X_v49_n_p387_Gianni
institution	Universidad de Buenos Aires
institution_str	I-28
repository_str	R-134
collection	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic	Flat-slab Fold and thrust belt Plume-modified orogenesis Plume-subduction zone interaction
spellingShingle	Flat-slab Fold and thrust belt Plume-modified orogenesis Plume-subduction zone interaction Plume overriding triggers shallow subduction and orogeny in the southern Central Andes
topic_facet	Flat-slab Fold and thrust belt Plume-modified orogenesis Plume-subduction zone interaction
description	Plate tectonic theory implies that mantle plumes may be eventually overridden by lithosphere during continental drift. These events have particular tectonomagmatic consequences for active margins and hence related orogenic processes. Since the first documentation of plume overriding and the definition of the plume-modified orogeny concept, only few examples have been recognized in the geologic record. In this study, we analyze the Neogene tectonic evolution of the Southern Central Andes between 35° and 38°S and its potential relation to the subduction of the Payenia plume as a recent analogue of this process. Through a series of tectonic reconstructions we show that progressive Payenia plume overriding correlates with Neogene arc-front migrations linked to slab shallowing, fold belt reactivation in the Main Cordillera and intraplate contraction in the San Rafael block. Additionally, Nazca slab tear determined from tomographic analyses and subsequent diachronous steepening of the subducted plate may also be an aftermath of plume subduction as often described in the final stages of plume-modified orogeny. Finally, we propose a modern analogue for processes previously described, dating back to the Mesoproterozoic, which provides further insights into these complex settings. © 2017 International Association for Gondwana Research
title	Plume overriding triggers shallow subduction and orogeny in the southern Central Andes
title_short	Plume overriding triggers shallow subduction and orogeny in the southern Central Andes
title_full	Plume overriding triggers shallow subduction and orogeny in the southern Central Andes
title_fullStr	Plume overriding triggers shallow subduction and orogeny in the southern Central Andes
title_full_unstemmed	Plume overriding triggers shallow subduction and orogeny in the southern Central Andes
title_sort	plume overriding triggers shallow subduction and orogeny in the southern central andes
publishDate	2017
url	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_1342937X_v49_n_p387_Gianni http://hdl.handle.net/20.500.12110/paper_1342937X_v49_n_p387_Gianni
_version_	1768543912515862528

Plume overriding triggers shallow subduction and orogeny in the southern Central Andes

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