Slip partitioning along a continuously curved fault: Quaternary geologic controls on Denali fault system slip partitioning, growth of the Alaska Range, and the tectonics of south-central Alaska

Active transpressional fault systems are typically associated with the development of broad zones of deformation and topographic development; however, the complex geometries typically associated with these systems often make it difficult to isolate the important boundary conditions that control tran...

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Published in:	Lithosphere
Main Authors:	Bemis, Sean P., Weldon, Ray J., Carver, Gary A.
Format:	Article in Journal/Newspaper
Language:	English
Published:	Geological Society of America 2015
Subjects:	Physical Sciences Geochemistry & Geophysics Geology YAKUTAT COLLISION SURFACE RUPTURE EARTHQUAKE DEFORMATION KINEMATICS EASTERN FRAMEWORK EXAMPLE CANADA YUKON 0402 Geochemistry 0403 Geology 0404 Geophysics alaska range Yakutat Alaska Yukon
Online Access:	http://hdl.handle.net/10919/101888 https://doi.org/10.1130/L352.1

id	ftvirginiatec:oai:vtechworks.lib.vt.edu:10919/101888
record_format	openpolar
spelling	ftvirginiatec:oai:vtechworks.lib.vt.edu:10919/101888 2024-05-19T07:27:40+00:00 Slip partitioning along a continuously curved fault: Quaternary geologic controls on Denali fault system slip partitioning, growth of the Alaska Range, and the tectonics of south-central Alaska Lithosphere Bemis, Sean P. Weldon, Ray J. Carver, Gary A. 2015-06-01 Pages 235-246 12 page(s) application/pdf http://hdl.handle.net/10919/101888 https://doi.org/10.1130/L352.1 en eng Geological Society of America 1941-8264 http://hdl.handle.net/10919/101888 https://doi.org/10.1130/L352.1 7 3 Bemis, Sean [0000-0001-7854-6394] 1947-4253 In Copyright (InC) http://rightsstatements.org/vocab/InC/1.0/ Physical Sciences Geochemistry & Geophysics Geology YAKUTAT COLLISION SURFACE RUPTURE EARTHQUAKE DEFORMATION KINEMATICS EASTERN FRAMEWORK EXAMPLE CANADA YUKON 0402 Geochemistry 0403 Geology 0404 Geophysics Article - Refereed Article Journal 2015 ftvirginiatec https://doi.org/10.1130/L352.1 2024-04-24T00:39:48Z Active transpressional fault systems are typically associated with the development of broad zones of deformation and topographic development; however, the complex geometries typically associated with these systems often make it difficult to isolate the important boundary conditions that control transpressional orogenic growth. The Denali fault system is widely recognized as transpressional due to the presence of the Denali fault, a major, active, right-lateral fault, and subparallel zones of thrust faults and fault-related folding along both the north and south flanks of the Alaska Range. Measured Quaternary and Holocene slip rates exist for the Denali fault system and portions of the adjacent thrust system, but the partitioning of fault slip between contractional and translational components of this transpressional system has not been previously studied in detail. Exploiting the relatively simple geometry of the Denali fault, we analyze the style and distribution of active faulting within the Alaska Range to define patterns of strain accommodation and determine how contractional and translational strain is partitioned across the Denali fault system. As the trace of the Denali fault curves by-70 across central Alaska, the mean strike of the thrust system to the north remains subparallel to the Denali fault, while to the south, the few faults with known or suspected Quaternary offset are oblique to the Denali fault. This relationship suggests that as the Denali fault system accommodates local fault-parallel strike slip, it partitions the residual part of the regional NW-directed plate motion into NW-SE shortening south of the Denali fault and shortening perpendicular to the Denali fault to the north. The degree of slip partitioning is consistent with a balanced slip budget for the two primary faults that contribute displacement to the Denali fault system (the eastern Denali fault and Totschunda fault). The current obliquity of displacement south of the Denali fault is the result of the late Cenozoic development ... Article in Journal/Newspaper alaska range Yakutat Alaska Yukon VTechWorks (VirginiaTech) Lithosphere 7 3 235 246
institution	Open Polar
collection	VTechWorks (VirginiaTech)
op_collection_id	ftvirginiatec
language	English
topic	Physical Sciences Geochemistry & Geophysics Geology YAKUTAT COLLISION SURFACE RUPTURE EARTHQUAKE DEFORMATION KINEMATICS EASTERN FRAMEWORK EXAMPLE CANADA YUKON 0402 Geochemistry 0403 Geology 0404 Geophysics
spellingShingle	Physical Sciences Geochemistry & Geophysics Geology YAKUTAT COLLISION SURFACE RUPTURE EARTHQUAKE DEFORMATION KINEMATICS EASTERN FRAMEWORK EXAMPLE CANADA YUKON 0402 Geochemistry 0403 Geology 0404 Geophysics Bemis, Sean P. Weldon, Ray J. Carver, Gary A. Slip partitioning along a continuously curved fault: Quaternary geologic controls on Denali fault system slip partitioning, growth of the Alaska Range, and the tectonics of south-central Alaska
topic_facet	Physical Sciences Geochemistry & Geophysics Geology YAKUTAT COLLISION SURFACE RUPTURE EARTHQUAKE DEFORMATION KINEMATICS EASTERN FRAMEWORK EXAMPLE CANADA YUKON 0402 Geochemistry 0403 Geology 0404 Geophysics
description	Active transpressional fault systems are typically associated with the development of broad zones of deformation and topographic development; however, the complex geometries typically associated with these systems often make it difficult to isolate the important boundary conditions that control transpressional orogenic growth. The Denali fault system is widely recognized as transpressional due to the presence of the Denali fault, a major, active, right-lateral fault, and subparallel zones of thrust faults and fault-related folding along both the north and south flanks of the Alaska Range. Measured Quaternary and Holocene slip rates exist for the Denali fault system and portions of the adjacent thrust system, but the partitioning of fault slip between contractional and translational components of this transpressional system has not been previously studied in detail. Exploiting the relatively simple geometry of the Denali fault, we analyze the style and distribution of active faulting within the Alaska Range to define patterns of strain accommodation and determine how contractional and translational strain is partitioned across the Denali fault system. As the trace of the Denali fault curves by-70 across central Alaska, the mean strike of the thrust system to the north remains subparallel to the Denali fault, while to the south, the few faults with known or suspected Quaternary offset are oblique to the Denali fault. This relationship suggests that as the Denali fault system accommodates local fault-parallel strike slip, it partitions the residual part of the regional NW-directed plate motion into NW-SE shortening south of the Denali fault and shortening perpendicular to the Denali fault to the north. The degree of slip partitioning is consistent with a balanced slip budget for the two primary faults that contribute displacement to the Denali fault system (the eastern Denali fault and Totschunda fault). The current obliquity of displacement south of the Denali fault is the result of the late Cenozoic development ...
format	Article in Journal/Newspaper
author	Bemis, Sean P. Weldon, Ray J. Carver, Gary A.
author_facet	Bemis, Sean P. Weldon, Ray J. Carver, Gary A.
author_sort	Bemis, Sean P.
title	Slip partitioning along a continuously curved fault: Quaternary geologic controls on Denali fault system slip partitioning, growth of the Alaska Range, and the tectonics of south-central Alaska
title_short	Slip partitioning along a continuously curved fault: Quaternary geologic controls on Denali fault system slip partitioning, growth of the Alaska Range, and the tectonics of south-central Alaska
title_full	Slip partitioning along a continuously curved fault: Quaternary geologic controls on Denali fault system slip partitioning, growth of the Alaska Range, and the tectonics of south-central Alaska
title_fullStr	Slip partitioning along a continuously curved fault: Quaternary geologic controls on Denali fault system slip partitioning, growth of the Alaska Range, and the tectonics of south-central Alaska
title_full_unstemmed	Slip partitioning along a continuously curved fault: Quaternary geologic controls on Denali fault system slip partitioning, growth of the Alaska Range, and the tectonics of south-central Alaska
title_sort	slip partitioning along a continuously curved fault: quaternary geologic controls on denali fault system slip partitioning, growth of the alaska range, and the tectonics of south-central alaska
publisher	Geological Society of America
publishDate	2015
url	http://hdl.handle.net/10919/101888 https://doi.org/10.1130/L352.1
genre	alaska range Yakutat Alaska Yukon
genre_facet	alaska range Yakutat Alaska Yukon
op_relation	1941-8264 http://hdl.handle.net/10919/101888 https://doi.org/10.1130/L352.1 7 3 Bemis, Sean [0000-0001-7854-6394] 1947-4253
op_rights	In Copyright (InC) http://rightsstatements.org/vocab/InC/1.0/
op_doi	https://doi.org/10.1130/L352.1
container_title	Lithosphere
container_volume	7
container_issue	3
container_start_page	235
op_container_end_page	246
_version_	1799488153817448448

Slip partitioning along a continuously curved fault: Quaternary geologic controls on Denali fault system slip partitioning, growth of the Alaska Range, and the tectonics of south-central Alaska

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