Evolution of a highly dilatant fault zone in the grabens of Canyonlands National Park, Utah, USA – integrating fieldwork, ground-penetrating radar and airborne imagery analysis

Evolution of a highly dilatant fault zone in the grabens of Canyonlands National Park, Utah, USA – integrating fieldwork, ground-penetrating radar and airborne imagery analysis

The grabens of Canyonlands National Park are a young and active system of sub-parallel, arcuate grabens, whose evolution is the result of salt movement in the subsurface and a slight regional tilt of the faulted strata. We present results of ground-penetrating radar (GPR) surveys in combination with...

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Main Authors: M. Kettermann, C. Grützner, H. W. van Gent, J. L. Urai, K. Reicherter, J. Mertens
Format: Article
Language:English
Published: Copernicus Publications 2015-07-01
Series:Solid Earth
Online Access:http://www.solid-earth.net/6/839/2015/se-6-839-2015.pdf
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spelling doaj-9a56610420ad432b91d47fad44cfa4b22020-11-25T01:48:07ZengCopernicus PublicationsSolid Earth1869-95101869-95292015-07-016383985510.5194/se-6-839-2015Evolution of a highly dilatant fault zone in the grabens of Canyonlands National Park, Utah, USA – integrating fieldwork, ground-penetrating radar and airborne imagery analysisM. Kettermann0C. Grützner1H. W. van Gent2J. L. Urai3K. Reicherter4J. Mertens5Structural Geology, Tectonics and Geomechanics Energy and Mineral Resources Group, RWTH Aachen University, Lochnerstraße 4–20, 52056 Aachen, GermanyNeotectonics and Natural Hazards, RWTH Aachen University, Lochnerstraße 4–20, 52056 Aachen, GermanyStructural Geology, Tectonics and Geomechanics Energy and Mineral Resources Group, RWTH Aachen University, Lochnerstraße 4–20, 52056 Aachen, GermanyStructural Geology, Tectonics and Geomechanics Energy and Mineral Resources Group, RWTH Aachen University, Lochnerstraße 4–20, 52056 Aachen, GermanyNeotectonics and Natural Hazards, RWTH Aachen University, Lochnerstraße 4–20, 52056 Aachen, GermanyStructural Geology, Tectonics and Geomechanics Energy and Mineral Resources Group, RWTH Aachen University, Lochnerstraße 4–20, 52056 Aachen, GermanyThe grabens of Canyonlands National Park are a young and active system of sub-parallel, arcuate grabens, whose evolution is the result of salt movement in the subsurface and a slight regional tilt of the faulted strata. We present results of ground-penetrating radar (GPR) surveys in combination with field observations and analysis of high-resolution airborne imagery. GPR data show intense faulting of the Quaternary sediments at the flat graben floors, implying a more complex fault structure than visible at the surface. Direct measurements of heave and throw at several locations to infer fault dips at depth, combined with observations of primary joint surfaces in the upper 100 m, suggest a highly dilatant fault geometry. Sinkholes observed in the field as well as in airborne imagery give insights in local dilatancy and show where water and sediments are transported underground. Based on correlations of paleosols observed in outcrops and GPR profiles, we argue that either the grabens in Canyonlands National Park are older than previously assumed or that sedimentation rates were much higher in the Pleistocene.http://www.solid-earth.net/6/839/2015/se-6-839-2015.pdf
collection DOAJ
language English
format Article
sources DOAJ
author M. Kettermann
C. Grützner
H. W. van Gent
J. L. Urai
K. Reicherter
J. Mertens
spellingShingle M. Kettermann
C. Grützner
H. W. van Gent
J. L. Urai
K. Reicherter
J. Mertens
Evolution of a highly dilatant fault zone in the grabens of Canyonlands National Park, Utah, USA – integrating fieldwork, ground-penetrating radar and airborne imagery analysis
Solid Earth
author_facet M. Kettermann
C. Grützner
H. W. van Gent
J. L. Urai
K. Reicherter
J. Mertens
author_sort M. Kettermann
title Evolution of a highly dilatant fault zone in the grabens of Canyonlands National Park, Utah, USA – integrating fieldwork, ground-penetrating radar and airborne imagery analysis
title_short Evolution of a highly dilatant fault zone in the grabens of Canyonlands National Park, Utah, USA – integrating fieldwork, ground-penetrating radar and airborne imagery analysis
title_full Evolution of a highly dilatant fault zone in the grabens of Canyonlands National Park, Utah, USA – integrating fieldwork, ground-penetrating radar and airborne imagery analysis
title_fullStr Evolution of a highly dilatant fault zone in the grabens of Canyonlands National Park, Utah, USA – integrating fieldwork, ground-penetrating radar and airborne imagery analysis
title_full_unstemmed Evolution of a highly dilatant fault zone in the grabens of Canyonlands National Park, Utah, USA – integrating fieldwork, ground-penetrating radar and airborne imagery analysis
title_sort evolution of a highly dilatant fault zone in the grabens of canyonlands national park, utah, usa – integrating fieldwork, ground-penetrating radar and airborne imagery analysis
publisher Copernicus Publications
series Solid Earth
issn 1869-9510
1869-9529
publishDate 2015-07-01
description The grabens of Canyonlands National Park are a young and active system of sub-parallel, arcuate grabens, whose evolution is the result of salt movement in the subsurface and a slight regional tilt of the faulted strata. We present results of ground-penetrating radar (GPR) surveys in combination with field observations and analysis of high-resolution airborne imagery. GPR data show intense faulting of the Quaternary sediments at the flat graben floors, implying a more complex fault structure than visible at the surface. Direct measurements of heave and throw at several locations to infer fault dips at depth, combined with observations of primary joint surfaces in the upper 100 m, suggest a highly dilatant fault geometry. Sinkholes observed in the field as well as in airborne imagery give insights in local dilatancy and show where water and sediments are transported underground. Based on correlations of paleosols observed in outcrops and GPR profiles, we argue that either the grabens in Canyonlands National Park are older than previously assumed or that sedimentation rates were much higher in the Pleistocene.
url http://www.solid-earth.net/6/839/2015/se-6-839-2015.pdf
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