Structural and tectonic investigation of a transpressional system, Chugach metamorphic complex, southern Alaska

Late Cretaceous to Eocene ridge subduction beneath the Mesozic Chugach terrane accretionary complex resulted in the formation of the Chugach metamorphic complex, and anomolus near trench plutonism of the Sanak-Baranof plutonic belt. The Chugach metamorphic complex (CMC), southern Alaska, is a high-t...

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Main Author: Scharman, Mitchell Ryan
Format: Text
Language:English
Published: ScholarWorks@UTEP 2011
Subjects:
Geology|Plate Tectonics
Yakutat
Alaska
Online Access:https://scholarworks.utep.edu/dissertations/AAI3457760
id ftutep:oai:scholarworks.utep.edu:dissertations-6947
record_format openpolar
spelling ftutep:oai:scholarworks.utep.edu:dissertations-6947 2023-05-15T18:44:39+02:00 Structural and tectonic investigation of a transpressional system, Chugach metamorphic complex, southern Alaska Scharman, Mitchell Ryan 2011-01-01T08:00:00Z https://scholarworks.utep.edu/dissertations/AAI3457760 ENG eng ScholarWorks@UTEP https://scholarworks.utep.edu/dissertations/AAI3457760 ETD Collection for University of Texas, El Paso Geology|Plate Tectonics text 2011 ftutep 2023-01-23T21:11:20Z Late Cretaceous to Eocene ridge subduction beneath the Mesozic Chugach terrane accretionary complex resulted in the formation of the Chugach metamorphic complex, and anomolus near trench plutonism of the Sanak-Baranof plutonic belt. The Chugach metamorphic complex (CMC), southern Alaska, is a high-temperature/low-pressure metamorphic belt, that offers a down plunge view of the mid- to lower-crust of a dextral transpression system. A distinct progression of deformation is recognized in the complex: 1) D1 contraction throughout the Chugach accretionary complex, 2) D2 margin parallel extension and horizontal simple shear, associated with subduction of higher ridge topography, followed by 3) D3 dextral transpression associated with oblique plate subduction. Patterns of D3 folations do not mimic the symmetric pattern adjacent to the shear zones, as predicted by previous attachment zone models (e.g. Teyssier and Cruz, 2004). An asymmetric foliation pattern is observed, indicating that an attachment zone model is not applicable to deformation in the CMC. The steeply oriented dextral shear zones, which are 10's of m to 2–3 km in width in the overlying schist, however, become cryptic in the gneiss core of the complex. Two as yet indistinguishable hypotheses are discussed to explain the deep crustal structure of the CMC: 1) presence of a narrow detachment model where a detachement zone at the schist-gneiss transition and 2) a differential folding model where shear zones penetrate across the schist-gneiss transition, but are masked by variations in folding mechanisms. This distinct progression of deformation, prograde metamorphism and intrusive activity recrystallizing the curst, and formation of a thick mafic root as a result of ridge subduction have also acted to strengthen and ultimately stabilize the CMC crust relative to the Neogene Yakutat terrane currently colliding with southern Alaska. The CMC's stabile behavior is supported by present day evidence of relatively small amount of seismic and deformation activity, ... Text Yakutat Alaska University of Texas at El Paso: Digital Commons@UTEP
institution Open Polar
collection University of Texas at El Paso: Digital Commons@UTEP
op_collection_id ftutep
language English
topic Geology|Plate Tectonics
spellingShingle Geology|Plate Tectonics
Scharman, Mitchell Ryan
Structural and tectonic investigation of a transpressional system, Chugach metamorphic complex, southern Alaska
topic_facet Geology|Plate Tectonics
description Late Cretaceous to Eocene ridge subduction beneath the Mesozic Chugach terrane accretionary complex resulted in the formation of the Chugach metamorphic complex, and anomolus near trench plutonism of the Sanak-Baranof plutonic belt. The Chugach metamorphic complex (CMC), southern Alaska, is a high-temperature/low-pressure metamorphic belt, that offers a down plunge view of the mid- to lower-crust of a dextral transpression system. A distinct progression of deformation is recognized in the complex: 1) D1 contraction throughout the Chugach accretionary complex, 2) D2 margin parallel extension and horizontal simple shear, associated with subduction of higher ridge topography, followed by 3) D3 dextral transpression associated with oblique plate subduction. Patterns of D3 folations do not mimic the symmetric pattern adjacent to the shear zones, as predicted by previous attachment zone models (e.g. Teyssier and Cruz, 2004). An asymmetric foliation pattern is observed, indicating that an attachment zone model is not applicable to deformation in the CMC. The steeply oriented dextral shear zones, which are 10's of m to 2–3 km in width in the overlying schist, however, become cryptic in the gneiss core of the complex. Two as yet indistinguishable hypotheses are discussed to explain the deep crustal structure of the CMC: 1) presence of a narrow detachment model where a detachement zone at the schist-gneiss transition and 2) a differential folding model where shear zones penetrate across the schist-gneiss transition, but are masked by variations in folding mechanisms. This distinct progression of deformation, prograde metamorphism and intrusive activity recrystallizing the curst, and formation of a thick mafic root as a result of ridge subduction have also acted to strengthen and ultimately stabilize the CMC crust relative to the Neogene Yakutat terrane currently colliding with southern Alaska. The CMC's stabile behavior is supported by present day evidence of relatively small amount of seismic and deformation activity, ...
format Text
author Scharman, Mitchell Ryan
author_facet Scharman, Mitchell Ryan
author_sort Scharman, Mitchell Ryan
title Structural and tectonic investigation of a transpressional system, Chugach metamorphic complex, southern Alaska
title_short Structural and tectonic investigation of a transpressional system, Chugach metamorphic complex, southern Alaska
title_full Structural and tectonic investigation of a transpressional system, Chugach metamorphic complex, southern Alaska
title_fullStr Structural and tectonic investigation of a transpressional system, Chugach metamorphic complex, southern Alaska
title_full_unstemmed Structural and tectonic investigation of a transpressional system, Chugach metamorphic complex, southern Alaska
title_sort structural and tectonic investigation of a transpressional system, chugach metamorphic complex, southern alaska
publisher ScholarWorks@UTEP
publishDate 2011
url https://scholarworks.utep.edu/dissertations/AAI3457760
genre Yakutat
Alaska
genre_facet Yakutat
Alaska
op_source ETD Collection for University of Texas, El Paso
op_relation https://scholarworks.utep.edu/dissertations/AAI3457760
_version_ 1766235438795718656

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