An alternative Mesozoic geodynamic model for the evolution of the Central Coastal ranges of Peru: the Rio Cañete Basin
Integration of detailed stratigraphic, sedimentologic and tectonic studies of the Río Cañete Basin with opening and divergence rates of the South Atlantic Ocean, overriding plate velocity, trench migration, subducting age (Fig. 1) etc. and the protracted Mesozoic Farallon Plate oblique convergence p...
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Sociedad Geológica del Perú - SGP
2021
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ftinstgemmet:oai:repositorio.ingemmet.gob.pe:20.500.12544/4317 2024-09-15T18:36:30+00:00 An alternative Mesozoic geodynamic model for the evolution of the Central Coastal ranges of Peru: the Rio Cañete Basin Aleman R., Antenor M. León Lecaros, Walther Ricardo 2021-11 application/pdf 8 páginas https://hdl.handle.net/20.500.12544/4317 eng eng Sociedad Geológica del Perú - SGP https://hdl.handle.net/20.500.12544/4317 info:eu-repo/semantics/openAccess Repositorio Institucional INGEMMET Instituto Geológico, Minero y Metalúrgico – INGEMMET Geodinámica Evolución del paisaje Estratigrafía Sedimentología Tectónica info:eu-repo/semantics/conferenceObject 2021 ftinstgemmet https://doi.org/20.500.12544/4317 2024-08-30T03:17:33Z Integration of detailed stratigraphic, sedimentologic and tectonic studies of the Río Cañete Basin with opening and divergence rates of the South Atlantic Ocean, overriding plate velocity, trench migration, subducting age (Fig. 1) etc. and the protracted Mesozoic Farallon Plate oblique convergence parameters provide new lines of evidence to suggest an alternative model for the evolution of the Peruvian margin. These unorthodox model departures significantly from the classic and simplistic Andean Model used in the literature. The western margin of Gondwana experience severe lithosphere extension coeval with arc magmatism since at least Middle Triassic. Actually, only the uppermost Jurassic unit is displayed along the Río Cañete Basin, however, it is important to take into account that northward the Jurassic arc sequence terminates against the accreted Amotape/Olmos Terrain and it overlies the Late Triassic to Jurassic Pucara Group. Slab stagnation in the mantle transition zone near the upper and lower mantle boundary perhaps triggered shallow subduction, which in turn caused drowning and Jurassic arc volcanism termination. Slab flattening increased upper plate stress coupling transferring the stresses eastward and causing basement-core block uplift and changing provenance to quartz-rich. Slab breakoff occurred soon after the water-bearing serpentinized slab changed to denser eclogite facies as recorded by linear alkaline volcanism with strong mantle source (low La/Nb ratio) along the high Andes. Locally, transform fault subduction enhanced fracturing during slab bending permitting the tapping of undepleted mantle by these deep faults and causing trench parallel extension coeval with explosive subaqueous volcanism with strong OIB signature (low La/Nb ratio). Higher South Atlantic spreading rates than the trench normal convergence imparted the mechanism for trench rollback, thus enhancing the upper plate extensional deformation. Aptian increase in spreading rates coeval with protracted increase in the normal ... Conference Object South Atlantic Ocean Repositorio Institucional del INGEMMET |
institution |
Open Polar |
collection |
Repositorio Institucional del INGEMMET |
op_collection_id |
ftinstgemmet |
language |
English |
topic |
Geodinámica Evolución del paisaje Estratigrafía Sedimentología Tectónica |
spellingShingle |
Geodinámica Evolución del paisaje Estratigrafía Sedimentología Tectónica Aleman R., Antenor M. León Lecaros, Walther Ricardo An alternative Mesozoic geodynamic model for the evolution of the Central Coastal ranges of Peru: the Rio Cañete Basin |
topic_facet |
Geodinámica Evolución del paisaje Estratigrafía Sedimentología Tectónica |
description |
Integration of detailed stratigraphic, sedimentologic and tectonic studies of the Río Cañete Basin with opening and divergence rates of the South Atlantic Ocean, overriding plate velocity, trench migration, subducting age (Fig. 1) etc. and the protracted Mesozoic Farallon Plate oblique convergence parameters provide new lines of evidence to suggest an alternative model for the evolution of the Peruvian margin. These unorthodox model departures significantly from the classic and simplistic Andean Model used in the literature. The western margin of Gondwana experience severe lithosphere extension coeval with arc magmatism since at least Middle Triassic. Actually, only the uppermost Jurassic unit is displayed along the Río Cañete Basin, however, it is important to take into account that northward the Jurassic arc sequence terminates against the accreted Amotape/Olmos Terrain and it overlies the Late Triassic to Jurassic Pucara Group. Slab stagnation in the mantle transition zone near the upper and lower mantle boundary perhaps triggered shallow subduction, which in turn caused drowning and Jurassic arc volcanism termination. Slab flattening increased upper plate stress coupling transferring the stresses eastward and causing basement-core block uplift and changing provenance to quartz-rich. Slab breakoff occurred soon after the water-bearing serpentinized slab changed to denser eclogite facies as recorded by linear alkaline volcanism with strong mantle source (low La/Nb ratio) along the high Andes. Locally, transform fault subduction enhanced fracturing during slab bending permitting the tapping of undepleted mantle by these deep faults and causing trench parallel extension coeval with explosive subaqueous volcanism with strong OIB signature (low La/Nb ratio). Higher South Atlantic spreading rates than the trench normal convergence imparted the mechanism for trench rollback, thus enhancing the upper plate extensional deformation. Aptian increase in spreading rates coeval with protracted increase in the normal ... |
format |
Conference Object |
author |
Aleman R., Antenor M. León Lecaros, Walther Ricardo |
author_facet |
Aleman R., Antenor M. León Lecaros, Walther Ricardo |
author_sort |
Aleman R., Antenor M. |
title |
An alternative Mesozoic geodynamic model for the evolution of the Central Coastal ranges of Peru: the Rio Cañete Basin |
title_short |
An alternative Mesozoic geodynamic model for the evolution of the Central Coastal ranges of Peru: the Rio Cañete Basin |
title_full |
An alternative Mesozoic geodynamic model for the evolution of the Central Coastal ranges of Peru: the Rio Cañete Basin |
title_fullStr |
An alternative Mesozoic geodynamic model for the evolution of the Central Coastal ranges of Peru: the Rio Cañete Basin |
title_full_unstemmed |
An alternative Mesozoic geodynamic model for the evolution of the Central Coastal ranges of Peru: the Rio Cañete Basin |
title_sort |
alternative mesozoic geodynamic model for the evolution of the central coastal ranges of peru: the rio cañete basin |
publisher |
Sociedad Geológica del Perú - SGP |
publishDate |
2021 |
url |
https://hdl.handle.net/20.500.12544/4317 |
genre |
South Atlantic Ocean |
genre_facet |
South Atlantic Ocean |
op_source |
Repositorio Institucional INGEMMET Instituto Geológico, Minero y Metalúrgico – INGEMMET |
op_relation |
https://hdl.handle.net/20.500.12544/4317 |
op_rights |
info:eu-repo/semantics/openAccess |
op_doi |
https://doi.org/20.500.12544/4317 |
_version_ |
1810480167775109120 |