Wind-driven Modification of Small Bedforms in Gusev Crater, Mars

abstract: ABSTRACT The Spirit landing site in Gusev Crater has been imaged by the Mars Reconnaissance Orbiter High Resolution Imaging Science Experiment (HiRISE) camera more than thirty times since 2006. The breadth of this image set allowed a study of changes to surface features, covering four Ma...

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Other Authors: Pendleton-Hoffer, Mary C. (Author)
Format: Dissertation
Language:English
Published: 2016
Subjects:
Online Access:http://hdl.handle.net/2286/R.I.40328
id ndltd-asu.edu-item-40328
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spelling ndltd-asu.edu-item-403282018-06-22T03:07:48Z Wind-driven Modification of Small Bedforms in Gusev Crater, Mars abstract: ABSTRACT The Spirit landing site in Gusev Crater has been imaged by the Mars Reconnaissance Orbiter High Resolution Imaging Science Experiment (HiRISE) camera more than thirty times since 2006. The breadth of this image set allowed a study of changes to surface features, covering four Mars years. Small fields of bedforms comprised of dark material, and dark dust devil tracks are among the features revealed in the images. The bedforms are constrained within craters on the plains, and unconstrained in depressions less than 200m wide within the topography of the Columbia Hills, a ~120m-high structure in center of Gusev. Dust devil tracks appear in many images of the bedforms. Within the Columbia Hills, three bedform fields approximately 180m2 and composed of fine dark basaltic sand were studied, using five HiRISE images taken from 2006 to 2014. Both bedform crests and the dust devil tracks superimposed on them were evaluated for change to azimuth and length, and for correlation between the features. The linear to slightly sinuous transverse crests ranging from less than 1m to 113m in length and two to three meters in wavelength, are primary bedforms. During the study they shifted as much as 33 degrees in azimuth, and individual crests moved on the surface as much as 0.75m. The greatest changes corresponded to a global dust storm in 2007. Average crest movement was documented at the rate of 0.25m per year. Rather than moving progressively, the crests eventually returned to near their original orientation after the storm. The dust devil tracks, reflecting a more complex wind regime, including vortex development during diurnal heating, maintained predominantly NW-SE orientations but also reflected the effects of the storm. The observed modifications were neither progressive, nor strictly seasonal. The apparent stability of the bedform geometry over four seasons supports the predictions of the Mars Regional Atmospheric Modeling System (MRAMS): low speed (1-7.5 ms-1), daily alternating winds of relatively equal force. Crest profiles were found to be nearly symmetrical, without slipfaces to indicate a preferential wind direction; this finding also is supported by the MRAMS model. Dissertation/Thesis Pendleton-Hoffer, Mary C. (Author) Christensen, Philip (Advisor) Whipple, Kelin (Committee member) Knauth, Paul (Committee member) Arizona State University (Publisher) Geology Planetology Geomorphology aeolian bedforms dust devil tracks Mars sand eng 58 pages Masters Thesis Geological Sciences 2016 Masters Thesis http://hdl.handle.net/2286/R.I.40328 http://rightsstatements.org/vocab/InC/1.0/ All Rights Reserved 2016
collection NDLTD
language English
format Dissertation
sources NDLTD
topic Geology
Planetology
Geomorphology
aeolian
bedforms
dust devil tracks
Mars
sand
spellingShingle Geology
Planetology
Geomorphology
aeolian
bedforms
dust devil tracks
Mars
sand
Wind-driven Modification of Small Bedforms in Gusev Crater, Mars
description abstract: ABSTRACT The Spirit landing site in Gusev Crater has been imaged by the Mars Reconnaissance Orbiter High Resolution Imaging Science Experiment (HiRISE) camera more than thirty times since 2006. The breadth of this image set allowed a study of changes to surface features, covering four Mars years. Small fields of bedforms comprised of dark material, and dark dust devil tracks are among the features revealed in the images. The bedforms are constrained within craters on the plains, and unconstrained in depressions less than 200m wide within the topography of the Columbia Hills, a ~120m-high structure in center of Gusev. Dust devil tracks appear in many images of the bedforms. Within the Columbia Hills, three bedform fields approximately 180m2 and composed of fine dark basaltic sand were studied, using five HiRISE images taken from 2006 to 2014. Both bedform crests and the dust devil tracks superimposed on them were evaluated for change to azimuth and length, and for correlation between the features. The linear to slightly sinuous transverse crests ranging from less than 1m to 113m in length and two to three meters in wavelength, are primary bedforms. During the study they shifted as much as 33 degrees in azimuth, and individual crests moved on the surface as much as 0.75m. The greatest changes corresponded to a global dust storm in 2007. Average crest movement was documented at the rate of 0.25m per year. Rather than moving progressively, the crests eventually returned to near their original orientation after the storm. The dust devil tracks, reflecting a more complex wind regime, including vortex development during diurnal heating, maintained predominantly NW-SE orientations but also reflected the effects of the storm. The observed modifications were neither progressive, nor strictly seasonal. The apparent stability of the bedform geometry over four seasons supports the predictions of the Mars Regional Atmospheric Modeling System (MRAMS): low speed (1-7.5 ms-1), daily alternating winds of relatively equal force. Crest profiles were found to be nearly symmetrical, without slipfaces to indicate a preferential wind direction; this finding also is supported by the MRAMS model. === Dissertation/Thesis === Masters Thesis Geological Sciences 2016
author2 Pendleton-Hoffer, Mary C. (Author)
author_facet Pendleton-Hoffer, Mary C. (Author)
title Wind-driven Modification of Small Bedforms in Gusev Crater, Mars
title_short Wind-driven Modification of Small Bedforms in Gusev Crater, Mars
title_full Wind-driven Modification of Small Bedforms in Gusev Crater, Mars
title_fullStr Wind-driven Modification of Small Bedforms in Gusev Crater, Mars
title_full_unstemmed Wind-driven Modification of Small Bedforms in Gusev Crater, Mars
title_sort wind-driven modification of small bedforms in gusev crater, mars
publishDate 2016
url http://hdl.handle.net/2286/R.I.40328
_version_ 1718701259629789184