The seismic character of mélange zones: record of mega-earthquakes in the Kodiak Accretionary Complex, Pasagshak Point, Kodiak Is., Alaska.

The earth’s largest earthquakes and tsunamis occur in the seismogenic zone of subduction margins, i.e. the seismically active part of the subduction channel that occupies a limited depth range (ca 4-45 km) along the plate interface: nearly all of the large earthquakes (Mw>8) occur along this inte...

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Main Authors: MENEGHINI, FRANCESCA, Di Toro, G, Rowe, C. D, Moore, J. C.
Other Authors: Meneghini, Francesca
Format: Conference Object
Language:English
Published: Geological Society of America 2010
Subjects:
Kodiak
Alaska
Online Access:http://hdl.handle.net/11568/787816
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spelling ftunivpisairis:oai:arpi.unipi.it:11568/787816 2024-04-14T08:14:26+00:00 The seismic character of mélange zones: record of mega-earthquakes in the Kodiak Accretionary Complex, Pasagshak Point, Kodiak Is., Alaska. MENEGHINI, FRANCESCA Di Toro, G Rowe, C. D Moore, J. C. Meneghini, Francesca Di Toro, G Rowe, C. D Moore, J. C. 2010 ELETTRONICO http://hdl.handle.net/11568/787816 eng eng Geological Society of America country:USA place:New York ispartofbook:Tectonic Crossroads: Evolving Orogens of Eurasia-Africa-Arabia: Abstracts The Geological Society of America international section meeting, Tectonic Crossroads: Evolving Orogens of Eurasia-Africa-Arabia firstpage:75 lastpage:75 numberofpages:1 http://hdl.handle.net/11568/787816 info:eu-repo/semantics/conferenceObject 2010 ftunivpisairis 2024-03-21T18:49:46Z The earth’s largest earthquakes and tsunamis occur in the seismogenic zone of subduction margins, i.e. the seismically active part of the subduction channel that occupies a limited depth range (ca 4-45 km) along the plate interface: nearly all of the large earthquakes (Mw>8) occur along this interface at shallow depths, between 10 and 15 km. The plate interface of subduction margins, referred to as décollement zone, is a complex thrust zone involving fluid-rich unconsolidated sediments and hard rocks, through an ever-increasing pressure-temperature-strain regime from the surface down to a depth of ca. 80 km. Mélanges have been classically described as a typical subduction product, representing ancient strands of paleo-décollement zones formed in consequence of high shear strain and dewatering of a sediment pile undergoing progressive underthrusting. Pseudotachylytes are so far the only unambiguously recognized ancient evidence of fault slip at seismic rates. While pseudotachylytes are commonly described in crystalline rocks, mélanges are typically dominated by “weak” pelitic lithotypes and are extensively infused by carbonate and quartz veins, thus suggesting a possible aseismic creeping mode of deformation. Why are pseudotachylytes so rare along subduction mega-thrusts? Is the paucity of pseudotachylytes in the subduction setting due to our failing to recognize them in lithotypes so different from those typically described in continental settings? The present contribution constitutes a first attempt to answer these questions, focusing on a study conducted on a décollement-system thrust fault preserved in an accreted mélange unit of the Kodiak accretionary complex (Alaska). The accretionary complex of Kodiak Island is an ancient analogue of the active Alaskan subduction, a similar setting to the locus of the 1964 Mw9.2 Alaskan earthquake. On Kodiak Island, decimeter-thick black fault rocks (BFR) are at the core of 10's meters-thick foliated cataclasites. The cataclasites belong to mélange zones ... Conference Object Kodiak Alaska ARPI - Archivio della Ricerca dell'Università di Pisa
institution Open Polar
collection ARPI - Archivio della Ricerca dell'Università di Pisa
op_collection_id ftunivpisairis
language English
description The earth’s largest earthquakes and tsunamis occur in the seismogenic zone of subduction margins, i.e. the seismically active part of the subduction channel that occupies a limited depth range (ca 4-45 km) along the plate interface: nearly all of the large earthquakes (Mw>8) occur along this interface at shallow depths, between 10 and 15 km. The plate interface of subduction margins, referred to as décollement zone, is a complex thrust zone involving fluid-rich unconsolidated sediments and hard rocks, through an ever-increasing pressure-temperature-strain regime from the surface down to a depth of ca. 80 km. Mélanges have been classically described as a typical subduction product, representing ancient strands of paleo-décollement zones formed in consequence of high shear strain and dewatering of a sediment pile undergoing progressive underthrusting. Pseudotachylytes are so far the only unambiguously recognized ancient evidence of fault slip at seismic rates. While pseudotachylytes are commonly described in crystalline rocks, mélanges are typically dominated by “weak” pelitic lithotypes and are extensively infused by carbonate and quartz veins, thus suggesting a possible aseismic creeping mode of deformation. Why are pseudotachylytes so rare along subduction mega-thrusts? Is the paucity of pseudotachylytes in the subduction setting due to our failing to recognize them in lithotypes so different from those typically described in continental settings? The present contribution constitutes a first attempt to answer these questions, focusing on a study conducted on a décollement-system thrust fault preserved in an accreted mélange unit of the Kodiak accretionary complex (Alaska). The accretionary complex of Kodiak Island is an ancient analogue of the active Alaskan subduction, a similar setting to the locus of the 1964 Mw9.2 Alaskan earthquake. On Kodiak Island, decimeter-thick black fault rocks (BFR) are at the core of 10's meters-thick foliated cataclasites. The cataclasites belong to mélange zones ...
author2 Meneghini, Francesca
Di Toro, G
Rowe, C. D
Moore, J. C.
format Conference Object
author MENEGHINI, FRANCESCA
Di Toro, G
Rowe, C. D
Moore, J. C.
spellingShingle MENEGHINI, FRANCESCA
Di Toro, G
Rowe, C. D
Moore, J. C.
The seismic character of mélange zones: record of mega-earthquakes in the Kodiak Accretionary Complex, Pasagshak Point, Kodiak Is., Alaska.
author_facet MENEGHINI, FRANCESCA
Di Toro, G
Rowe, C. D
Moore, J. C.
author_sort MENEGHINI, FRANCESCA
title The seismic character of mélange zones: record of mega-earthquakes in the Kodiak Accretionary Complex, Pasagshak Point, Kodiak Is., Alaska.
title_short The seismic character of mélange zones: record of mega-earthquakes in the Kodiak Accretionary Complex, Pasagshak Point, Kodiak Is., Alaska.
title_full The seismic character of mélange zones: record of mega-earthquakes in the Kodiak Accretionary Complex, Pasagshak Point, Kodiak Is., Alaska.
title_fullStr The seismic character of mélange zones: record of mega-earthquakes in the Kodiak Accretionary Complex, Pasagshak Point, Kodiak Is., Alaska.
title_full_unstemmed The seismic character of mélange zones: record of mega-earthquakes in the Kodiak Accretionary Complex, Pasagshak Point, Kodiak Is., Alaska.
title_sort seismic character of mélange zones: record of mega-earthquakes in the kodiak accretionary complex, pasagshak point, kodiak is., alaska.
publisher Geological Society of America
publishDate 2010
url http://hdl.handle.net/11568/787816
genre Kodiak
Alaska
genre_facet Kodiak
Alaska
op_relation ispartofbook:Tectonic Crossroads: Evolving Orogens of Eurasia-Africa-Arabia: Abstracts
The Geological Society of America international section meeting, Tectonic Crossroads: Evolving Orogens of Eurasia-Africa-Arabia
firstpage:75
lastpage:75
numberofpages:1
http://hdl.handle.net/11568/787816
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