Geologic map of Cleveland Peninsula, Revillagigedo and adjacent islands, Southeastern Alaska - U-Pb zircon sample locations: Supplement 2 from "Structural, stratigraphic, and geochronologic analysis of the Alexander-Taku terrane boundary and the overlapping upper Jurassic to lower Cretaceous gravina sequence, southeast Alaska" (Thesis)

An imbricate thrust belt that extends along strike for over 2000 km overprints the tectonic boundary between two of the largest allochthonous crustal fragments (Intermontane and Insular superterranes) in the North American Cordillera and affects rocks west of the Coast Plutonic Complex in southeast...

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Main Author: Rubin, Charles Martin
Format: Still Image
Language:English
Published: CaltechDATA 1991
Subjects:
Alaska
geochronology
structural geology
tectonics
North American Cordillera
Coast Plutonic Complex
gps
thesis
phd
Yukon
Pacific
Taku
Stikine
Rubin
Ramp The
Online Access:https://dx.doi.org/10.22002/d1.1076
https://data.caltech.edu/records/1076
id ftdatacite:10.22002/d1.1076
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
topic Alaska
geochronology
structural geology
tectonics
North American Cordillera
Coast Plutonic Complex
gps
thesis
phd
spellingShingle Alaska
geochronology
structural geology
tectonics
North American Cordillera
Coast Plutonic Complex
gps
thesis
phd
Rubin, Charles Martin
Geologic map of Cleveland Peninsula, Revillagigedo and adjacent islands, Southeastern Alaska - U-Pb zircon sample locations: Supplement 2 from "Structural, stratigraphic, and geochronologic analysis of the Alexander-Taku terrane boundary and the overlapping upper Jurassic to lower Cretaceous gravina sequence, southeast Alaska" (Thesis)
topic_facet Alaska
geochronology
structural geology
tectonics
North American Cordillera
Coast Plutonic Complex
gps
thesis
phd
description An imbricate thrust belt that extends along strike for over 2000 km overprints the tectonic boundary between two of the largest allochthonous crustal fragments (Intermontane and Insular superterranes) in the North American Cordillera and affects rocks west of the Coast Plutonic Complex in southeast Alaska, western British Columbia and northern Washington. Deformation was broadly coeval with mid-Cretaceous magmatism and involved the emplacement of west-directed thrust nappes over a structurally intact and relatively unmetamorphosed basement. The Paleozoic and lower Mesozoic Alexander terrane forms structural basement for much of the thrust belt, along a moderately northeast-dipping ramp. The western metamorphic belt of the Coast Plutonic Complex consists of the Alexander and Taku terranes, and the Upper Jurassic and Lower Cretaceous Gravina sequence. The Alexander terrane consists of lower Paleozoic metavolcanic and metasedimentary rocks (Descon Formation) and dioritic plutons that are unconformably overlain by Lower Devonian clastic strata (Karheen Formation). These rocks are overlain locally by Upper Triassic basalt rhyolite and marine clastic strata (Hyd Group). The Taku terrane consists of polydeformed and metamorphosed strata that are divided into anupper Paleozoic and lower Mesozoic assemblage (Alava sequence) and a lower Paleozoic assembtage (Kah Shakes sequence). The lower Paleozoic Kah Shakes sequence consists of Devonian orthogneiss, quartz-rich metasedimentary rocks, metabasalt, meta-silicic tuff, marble, cate-silicate, and quartzite. The quartz-rich metasedimentary rocks may be correlative with the lower Paleozoic and mid-Paleozoic Yukon-Tanana terrane, which represents an east-Pacific fringing arc complex built on continental slope and rise deposits. The upper Paleozoic and lower Mesozoic Alava sequence consists of crinoidal and argillaceous marble, carbonaceous phyllite, argillite, mafic flows, pillow breccia, pyroclastic tuff, and minor quartz-rich metasedimentary rocks. The upper Paleozoic part of the Alava sequence is probably correlative with the mid- to late Paleozoic portion of the Yukon-Tanana terrane. The Middle and Upper Triassic portion of the Alava sequence may represent a metamorphiC vestige of the Stuhini Group, now exposed on the western flank of the Coast Batholitic belt. Upper Jurassic and Lower Cretaceous metavolcanic and metasedimentary strata of the Gravina sequence unconformably overlie both the Alexander and Taku terranes. These rocks form two distinct lithotectonic units in southern southeast Alaska. The lower unit consists of coarse marine pyroclastic and volcaniclastic strata, mafic flows, breccia, and fine-grained tuff which are locally intruded by hypabyssal bodies of diorite and quartz diorite. Fine- to coarse-grained turbidites and related channel-fill deposits comprise the epiclastic part of the Gravina sequence. Conglomerate units contain mostly volcanic and plutonic lithic clasts that suggest they were derived from a composite igneous source. Clasts from the channel-fill deposits yield Pb-U zircon ages of 154 to 158 Ma. The pyroclastic and volcaniclastic rocks represent remnants of a Late Jurassic oceanic arc system that was constructed on a composite basement consisting of the Alexander and Taku terranes; the Taku terrane is inferred to represent the westernmost extent of the Stikine and Yukon-Tanana terranes. These data suggest that the Intermontane (Stikine and Yukon-Tanana terranes) and Insular (Alexander terrane) superterranes were juxtaposed prior deposition of the Upper Jurassic and Lower Cretaceous Gravina sequence. The lower Paleozoic to Early Cretaceous rocks were deformed in the mid-Cretaceous and tectonism was broadly coeval with arc magmatism. Deformation involved the emplacement of west-directed thrust nappes over a structurally intact and relatively unmetamorphosed basement. Mid-Cretaceous tonalite, granodiorite, and quartz diorite intrude rocks of the thrust belt and were locally affected by the deformation. Mid-Cretaceous deformation occurred during two episodes that were contemporaneous with the emplacement of sill-like plutonic bodies. Older structures record ductile southwest-vergent folding and faulting, regional metamorphism and contain a well developed axial-planar foliation. The second generation structures developed during the later stages of southwest-directed reverse faulting that juxtaposes rocks of contrasting metamorphic pressures and temperatures. The presence of syntectonic kyanite-staurolite-garnet-biotite assemblages in the more eastern high-strain zones indicates that at least some of the reverse faults were generated at depths in excess of 20 km during the later stages of thrust faulting and associated uplift. Paleocene and younger (?) deformation has also affected rocks on the western margin of the Coast Plutonic Complex. Younger fabrics are dominated by low to moderate west-dipping foliation surfaces that are axial planar to asymmetric east-vergent folds. The east-verging fabrics have transposed earlier mid-Cretaceous fabrics . Late Paleocene pegmatite dikes are highly deformed and are affected by the west-dipping structures. Exposure of mid-crustal level rocks might be related to a reversal in vergence during Paleocene time, in which deep levels of the mid-Cretaceous thrust system were transported upward along east-vergent structures. A swarm of hornblende-bearing diabase dikes cross-cut all structures and fabrics. These dikes trend northeast and mark a regional change in the overall regional strain patterns during Miocene time. Structural, stratigraphic and geochronologic data suggest that regional-scale deformation in southeast Alaska occurred between 113 Ma and 89 Ma. Rocks in the thrust belt were regionally uplifted by 70 Ma, at an average minimum rate of ≈ 0.9 mm/yr. Mid-Cretaceous deformation involved the collapse of marginal basin(s) and a magmatic arc, overprinting the older tectonic boundary between the Insular superterrane and the late Mesozoic western margin of North America (i.e., the Intermontane superterrane). Contractional deformation along the length of the thrust belt was broadly coeval with arc magmatism, and thus records intra-arc tectonism. Late Paleocene to Early Eocene deformation and uplift may mark the transition from contractional to extensional tectonism, and perhaps records the collapse of tectonically thickened crust. : Cite this record as: Rubin, C. M. (1991). Geologic map of Cleveland Peninsula, Revillagigedo and adjacent islands, Southeastern Alaska - U-Pb zircon sample locations: Supplement 2 from "Structural, stratigraphic, and geochronologic analysis of the Alexander-Taku terrane boundary and the overlapping upper Jurassic to lower Cretaceous gravina sequence, southeast Alaska" (Thesis) (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.1076 or choose a different citation style. Download Citation : Unique Views: 3 Unique Downloads: 0 between August 31, 2018 and July 12, 2021 More info on how stats are collected
format Still Image
author Rubin, Charles Martin
author_facet Rubin, Charles Martin
author_sort Rubin, Charles Martin
title Geologic map of Cleveland Peninsula, Revillagigedo and adjacent islands, Southeastern Alaska - U-Pb zircon sample locations: Supplement 2 from "Structural, stratigraphic, and geochronologic analysis of the Alexander-Taku terrane boundary and the overlapping upper Jurassic to lower Cretaceous gravina sequence, southeast Alaska" (Thesis)
title_short Geologic map of Cleveland Peninsula, Revillagigedo and adjacent islands, Southeastern Alaska - U-Pb zircon sample locations: Supplement 2 from "Structural, stratigraphic, and geochronologic analysis of the Alexander-Taku terrane boundary and the overlapping upper Jurassic to lower Cretaceous gravina sequence, southeast Alaska" (Thesis)
title_full Geologic map of Cleveland Peninsula, Revillagigedo and adjacent islands, Southeastern Alaska - U-Pb zircon sample locations: Supplement 2 from "Structural, stratigraphic, and geochronologic analysis of the Alexander-Taku terrane boundary and the overlapping upper Jurassic to lower Cretaceous gravina sequence, southeast Alaska" (Thesis)
title_fullStr Geologic map of Cleveland Peninsula, Revillagigedo and adjacent islands, Southeastern Alaska - U-Pb zircon sample locations: Supplement 2 from "Structural, stratigraphic, and geochronologic analysis of the Alexander-Taku terrane boundary and the overlapping upper Jurassic to lower Cretaceous gravina sequence, southeast Alaska" (Thesis)
title_full_unstemmed Geologic map of Cleveland Peninsula, Revillagigedo and adjacent islands, Southeastern Alaska - U-Pb zircon sample locations: Supplement 2 from "Structural, stratigraphic, and geochronologic analysis of the Alexander-Taku terrane boundary and the overlapping upper Jurassic to lower Cretaceous gravina sequence, southeast Alaska" (Thesis)
title_sort geologic map of cleveland peninsula, revillagigedo and adjacent islands, southeastern alaska - u-pb zircon sample locations: supplement 2 from "structural, stratigraphic, and geochronologic analysis of the alexander-taku terrane boundary and the overlapping upper jurassic to lower cretaceous gravina sequence, southeast alaska" (thesis)
publisher CaltechDATA
publishDate 1991
url https://dx.doi.org/10.22002/d1.1076
https://data.caltech.edu/records/1076
long_lat ENVELOPE(-133.854,-133.854,59.633,59.633)
ENVELOPE(-131.803,-131.803,56.699,56.699)
ENVELOPE(65.493,65.493,-73.438,-73.438)
ENVELOPE(166.433,166.433,-77.633,-77.633)
geographic Yukon
Pacific
Taku
Stikine
Rubin
Ramp The
geographic_facet Yukon
Pacific
Taku
Stikine
Rubin
Ramp The
genre Alaska
Yukon
genre_facet Alaska
Yukon
op_relation http://resolver.caltech.edu/CaltechTHESIS:04132011-115331837
http://resolver.caltech.edu/CaltechTHESIS:04132011-115331837
https://dx.doi.org/10.7907/zq82-2077
op_rights other
https://data.caltech.edu/caltechthesis-license
op_doi https://doi.org/10.22002/d1.1076
https://doi.org/10.7907/zq82-2077
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spelling ftdatacite:10.22002/d1.1076 2023-05-15T18:48:48+02:00 Geologic map of Cleveland Peninsula, Revillagigedo and adjacent islands, Southeastern Alaska - U-Pb zircon sample locations: Supplement 2 from "Structural, stratigraphic, and geochronologic analysis of the Alexander-Taku terrane boundary and the overlapping upper Jurassic to lower Cretaceous gravina sequence, southeast Alaska" (Thesis) Rubin, Charles Martin 1991 application/pdf https://dx.doi.org/10.22002/d1.1076 https://data.caltech.edu/records/1076 en eng CaltechDATA http://resolver.caltech.edu/CaltechTHESIS:04132011-115331837 http://resolver.caltech.edu/CaltechTHESIS:04132011-115331837 https://dx.doi.org/10.7907/zq82-2077 other https://data.caltech.edu/caltechthesis-license Alaska geochronology structural geology tectonics North American Cordillera Coast Plutonic Complex gps thesis phd Image graphic ImageObject 1991 ftdatacite https://doi.org/10.22002/d1.1076 https://doi.org/10.7907/zq82-2077 2021-11-05T12:55:41Z An imbricate thrust belt that extends along strike for over 2000 km overprints the tectonic boundary between two of the largest allochthonous crustal fragments (Intermontane and Insular superterranes) in the North American Cordillera and affects rocks west of the Coast Plutonic Complex in southeast Alaska, western British Columbia and northern Washington. Deformation was broadly coeval with mid-Cretaceous magmatism and involved the emplacement of west-directed thrust nappes over a structurally intact and relatively unmetamorphosed basement. The Paleozoic and lower Mesozoic Alexander terrane forms structural basement for much of the thrust belt, along a moderately northeast-dipping ramp. The western metamorphic belt of the Coast Plutonic Complex consists of the Alexander and Taku terranes, and the Upper Jurassic and Lower Cretaceous Gravina sequence. The Alexander terrane consists of lower Paleozoic metavolcanic and metasedimentary rocks (Descon Formation) and dioritic plutons that are unconformably overlain by Lower Devonian clastic strata (Karheen Formation). These rocks are overlain locally by Upper Triassic basalt rhyolite and marine clastic strata (Hyd Group). The Taku terrane consists of polydeformed and metamorphosed strata that are divided into anupper Paleozoic and lower Mesozoic assemblage (Alava sequence) and a lower Paleozoic assembtage (Kah Shakes sequence). The lower Paleozoic Kah Shakes sequence consists of Devonian orthogneiss, quartz-rich metasedimentary rocks, metabasalt, meta-silicic tuff, marble, cate-silicate, and quartzite. The quartz-rich metasedimentary rocks may be correlative with the lower Paleozoic and mid-Paleozoic Yukon-Tanana terrane, which represents an east-Pacific fringing arc complex built on continental slope and rise deposits. The upper Paleozoic and lower Mesozoic Alava sequence consists of crinoidal and argillaceous marble, carbonaceous phyllite, argillite, mafic flows, pillow breccia, pyroclastic tuff, and minor quartz-rich metasedimentary rocks. The upper Paleozoic part of the Alava sequence is probably correlative with the mid- to late Paleozoic portion of the Yukon-Tanana terrane. The Middle and Upper Triassic portion of the Alava sequence may represent a metamorphiC vestige of the Stuhini Group, now exposed on the western flank of the Coast Batholitic belt. Upper Jurassic and Lower Cretaceous metavolcanic and metasedimentary strata of the Gravina sequence unconformably overlie both the Alexander and Taku terranes. These rocks form two distinct lithotectonic units in southern southeast Alaska. The lower unit consists of coarse marine pyroclastic and volcaniclastic strata, mafic flows, breccia, and fine-grained tuff which are locally intruded by hypabyssal bodies of diorite and quartz diorite. Fine- to coarse-grained turbidites and related channel-fill deposits comprise the epiclastic part of the Gravina sequence. Conglomerate units contain mostly volcanic and plutonic lithic clasts that suggest they were derived from a composite igneous source. Clasts from the channel-fill deposits yield Pb-U zircon ages of 154 to 158 Ma. The pyroclastic and volcaniclastic rocks represent remnants of a Late Jurassic oceanic arc system that was constructed on a composite basement consisting of the Alexander and Taku terranes; the Taku terrane is inferred to represent the westernmost extent of the Stikine and Yukon-Tanana terranes. These data suggest that the Intermontane (Stikine and Yukon-Tanana terranes) and Insular (Alexander terrane) superterranes were juxtaposed prior deposition of the Upper Jurassic and Lower Cretaceous Gravina sequence. The lower Paleozoic to Early Cretaceous rocks were deformed in the mid-Cretaceous and tectonism was broadly coeval with arc magmatism. Deformation involved the emplacement of west-directed thrust nappes over a structurally intact and relatively unmetamorphosed basement. Mid-Cretaceous tonalite, granodiorite, and quartz diorite intrude rocks of the thrust belt and were locally affected by the deformation. Mid-Cretaceous deformation occurred during two episodes that were contemporaneous with the emplacement of sill-like plutonic bodies. Older structures record ductile southwest-vergent folding and faulting, regional metamorphism and contain a well developed axial-planar foliation. The second generation structures developed during the later stages of southwest-directed reverse faulting that juxtaposes rocks of contrasting metamorphic pressures and temperatures. The presence of syntectonic kyanite-staurolite-garnet-biotite assemblages in the more eastern high-strain zones indicates that at least some of the reverse faults were generated at depths in excess of 20 km during the later stages of thrust faulting and associated uplift. Paleocene and younger (?) deformation has also affected rocks on the western margin of the Coast Plutonic Complex. Younger fabrics are dominated by low to moderate west-dipping foliation surfaces that are axial planar to asymmetric east-vergent folds. The east-verging fabrics have transposed earlier mid-Cretaceous fabrics . Late Paleocene pegmatite dikes are highly deformed and are affected by the west-dipping structures. Exposure of mid-crustal level rocks might be related to a reversal in vergence during Paleocene time, in which deep levels of the mid-Cretaceous thrust system were transported upward along east-vergent structures. A swarm of hornblende-bearing diabase dikes cross-cut all structures and fabrics. These dikes trend northeast and mark a regional change in the overall regional strain patterns during Miocene time. Structural, stratigraphic and geochronologic data suggest that regional-scale deformation in southeast Alaska occurred between 113 Ma and 89 Ma. Rocks in the thrust belt were regionally uplifted by 70 Ma, at an average minimum rate of ≈ 0.9 mm/yr. Mid-Cretaceous deformation involved the collapse of marginal basin(s) and a magmatic arc, overprinting the older tectonic boundary between the Insular superterrane and the late Mesozoic western margin of North America (i.e., the Intermontane superterrane). Contractional deformation along the length of the thrust belt was broadly coeval with arc magmatism, and thus records intra-arc tectonism. Late Paleocene to Early Eocene deformation and uplift may mark the transition from contractional to extensional tectonism, and perhaps records the collapse of tectonically thickened crust. : Cite this record as: Rubin, C. M. (1991). Geologic map of Cleveland Peninsula, Revillagigedo and adjacent islands, Southeastern Alaska - U-Pb zircon sample locations: Supplement 2 from "Structural, stratigraphic, and geochronologic analysis of the Alexander-Taku terrane boundary and the overlapping upper Jurassic to lower Cretaceous gravina sequence, southeast Alaska" (Thesis) (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.1076 or choose a different citation style. Download Citation : Unique Views: 3 Unique Downloads: 0 between August 31, 2018 and July 12, 2021 More info on how stats are collected Still Image Alaska Yukon DataCite Metadata Store (German National Library of Science and Technology) Yukon Pacific Taku ENVELOPE(-133.854,-133.854,59.633,59.633) Stikine ENVELOPE(-131.803,-131.803,56.699,56.699) Rubin ENVELOPE(65.493,65.493,-73.438,-73.438) Ramp The ENVELOPE(166.433,166.433,-77.633,-77.633)

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