TY - JOUR
T1 - Characterization of the Monument Hill fault system and implications for the active tectonics of the Red Rock Valley, Southwestern Montana
AU - Regalla, Christine A.
AU - Anastasio, David J.
AU - Pazzaglia, Frank J.
N1 - Funding Information:
Funding for this project was provided by EDMAP Program of the National Cooperative Geologic Mapping Program of the US Geological Survey under Contract Numbers 05HQAG0015 and 04HQAG0099. A special thanks to editor William Dunne, reviewer David Lageson and especially reviewer Christopher Menges for their comments which improved the clarity of the manuscript, Karen Porter and the reviewers at the Montana Bureau of Mines and geology for suggestions and edits to the geologic map, UNAVCO for providing GPS equipment, Jim Greenburg for assistance with GPS equipment and data processing, Daryn Reyman and Michael Newton for field assistance, Nathan Harkins for fault scarp profile data, and Danny and Kristen Johnson for hospitality and land access permissions for two field seasons. The following programs were used in this study: ArcGIS, Trimble Geometrics Office, and SlopeAge.
PY - 2007/8
Y1 - 2007/8
N2 - New geologic mapping, morphologic fault scarp modeling, and geomorphic metrics in the Red Rock Valley, southwestern Montana, help characterize the Quaternary history of the virtually unstudied Monument Hill fault and tectonics of the youthful and seismically active Red Rock graben. Two generations of Pleistocene surface ruptures are preserved along the Monument Hill fault. Similarity in rupture ages along multiple strands, determined from offset alluvial surfaces and morphologic modeling, suggest earthquake clusters at 22-32 ka and possibly >160 ka. Quaternary activity along the Monument Hill fault is also reflected in elongate drainage basins and channel profiles with anomalously steep reaches coincident with mapped faults. An anticlinal accommodation zone at Kidd accommodates a change in fault polarity between the en echelon Monument Hill and Red Rock faults and a northward decrease in extension within the Red Rock graben. The unique rupture histories of the Monument Hill and Red Rock faults, however, suggest the systems are not seismogenically linked and that the accommodation zone serves as a rupture barrier. The geometry, interconnectivity, and kinematics of faults in the Red Rock Valley may represent a snapshot of the early stages of extension applicable to the evolution of other Northern Basin and Range grabens.
AB - New geologic mapping, morphologic fault scarp modeling, and geomorphic metrics in the Red Rock Valley, southwestern Montana, help characterize the Quaternary history of the virtually unstudied Monument Hill fault and tectonics of the youthful and seismically active Red Rock graben. Two generations of Pleistocene surface ruptures are preserved along the Monument Hill fault. Similarity in rupture ages along multiple strands, determined from offset alluvial surfaces and morphologic modeling, suggest earthquake clusters at 22-32 ka and possibly >160 ka. Quaternary activity along the Monument Hill fault is also reflected in elongate drainage basins and channel profiles with anomalously steep reaches coincident with mapped faults. An anticlinal accommodation zone at Kidd accommodates a change in fault polarity between the en echelon Monument Hill and Red Rock faults and a northward decrease in extension within the Red Rock graben. The unique rupture histories of the Monument Hill and Red Rock faults, however, suggest the systems are not seismogenically linked and that the accommodation zone serves as a rupture barrier. The geometry, interconnectivity, and kinematics of faults in the Red Rock Valley may represent a snapshot of the early stages of extension applicable to the evolution of other Northern Basin and Range grabens.
KW - Active tectonics
KW - Basin and Range
KW - Montana
KW - Tectonic geomorphology
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U2 - 10.1016/j.jsg.2007.04.006
DO - 10.1016/j.jsg.2007.04.006
M3 - Article
AN - SCOPUS:34547673684
SN - 0191-8141
VL - 29
SP - 1339
EP - 1352
JO - Journal of Structural Geology
JF - Journal of Structural Geology
IS - 8
ER -