Global documentation of gullies with the Mars Reconnaissance Orbiter Context Camera and implications for their formation

•We mapped the global distribution of gullies with CTX data covering ∼85% of Mars.•Mapping confirms gullies are confined to martian mid- to high-latitudes.•Gullies are strongly correlated with regions of distinct thermophysical properties.•Preferred orientation shifts from pole- to equator-facing wi...

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Published inIcarus (New York, N.Y. 1962) Vol. 252; pp. 236 - 254
Main Authors Harrison, Tanya N., Osinski, Gordon R., Tornabene, Livio L., Jones, Eriita
Format Journal Article
LanguageEnglish
Published Elsevier Inc 15.05.2015
Subjects
Cameras
Formations
Gullies
Latitude
Mars
Mars surface
Mars, climate
Reconnaissance
Thermal properties
Mars, surface
Mars
Mars, climate
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Abstract •We mapped the global distribution of gullies with CTX data covering ∼85% of Mars.•Mapping confirms gullies are confined to martian mid- to high-latitudes.•Gullies are strongly correlated with regions of distinct thermophysical properties.•Preferred orientation shifts from pole- to equator-facing with increasing latitude.•Our observations support ground ice or snowmelt as water source for gully formation. Hypotheses ranging from fluvial processes and debris flows to CO2 frost-lubricated or entirely dry flows have been proposed for the formation of martian gullies. In order to constrain these potential formation mechanisms, we mapped the global distribution of gullies on Mars using >54,000 images from the Mars Reconnaissance Orbiter (MRO) Context Camera (CTX) covering ∼85% of the martian surface at a resolution of ∼6m/pixel. The results of this mapping effort confirm the results of studies using lower resolution and/or less areally extensive datasets that gullies are confined to the martian mid- to high-latitudes (∼30–80° in both hemispheres). We also find a clear transition in gully orientation with increasing latitude, going from poleward-facing to equator-facing preference. In general, gullies are more developed on poleward-facing walls, and mid-latitude gullies are more developed than those at higher latitudes. Gullies are also found to be strongly correlated with regions of distinct thermophysical properties of sand- to pebble-sized grains, low albedo, and higher thermal inertia. These observations all point to climate, insolation, and thermal properties of the substrate playing key factors in gully formation on Mars, supporting either a melting ground ice or snowpack hypothesis as the source for water involved in gully formation.
AbstractList Hypotheses ranging from fluvial processes and debris flows to CO2 frost-lubricated or entirely dry flows have been proposed for the formation of martian gullies. In order to constrain these potential formation mechanisms, we mapped the global distribution of gullies on Mars using >54,000 images from the Mars Reconnaissance Orbiter (MRO) Context Camera (CTX) covering 85% of the martian surface at a resolution of 6m/pixel. The results of this mapping effort confirm the results of studies using lower resolution and/or less areally extensive datasets that gullies are confined to the martian mid- to high-latitudes (30-80 degree in both hemispheres). We also find a clear transition in gully orientation with increasing latitude, going from poleward-facing to equator-facing preference. In general, gullies are more developed on poleward-facing walls, and mid-latitude gullies are more developed than those at higher latitudes. Gullies are also found to be strongly correlated with regions of distinct thermophysical properties of sand- to pebble-sized grains, low albedo, and higher thermal inertia. These observations all point to climate, insolation, and thermal properties of the substrate playing key factors in gully formation on Mars, supporting either a melting ground ice or snowpack hypothesis as the source for water involved in gully formation.
•We mapped the global distribution of gullies with CTX data covering ∼85% of Mars.•Mapping confirms gullies are confined to martian mid- to high-latitudes.•Gullies are strongly correlated with regions of distinct thermophysical properties.•Preferred orientation shifts from pole- to equator-facing with increasing latitude.•Our observations support ground ice or snowmelt as water source for gully formation. Hypotheses ranging from fluvial processes and debris flows to CO2 frost-lubricated or entirely dry flows have been proposed for the formation of martian gullies. In order to constrain these potential formation mechanisms, we mapped the global distribution of gullies on Mars using >54,000 images from the Mars Reconnaissance Orbiter (MRO) Context Camera (CTX) covering ∼85% of the martian surface at a resolution of ∼6m/pixel. The results of this mapping effort confirm the results of studies using lower resolution and/or less areally extensive datasets that gullies are confined to the martian mid- to high-latitudes (∼30–80° in both hemispheres). We also find a clear transition in gully orientation with increasing latitude, going from poleward-facing to equator-facing preference. In general, gullies are more developed on poleward-facing walls, and mid-latitude gullies are more developed than those at higher latitudes. Gullies are also found to be strongly correlated with regions of distinct thermophysical properties of sand- to pebble-sized grains, low albedo, and higher thermal inertia. These observations all point to climate, insolation, and thermal properties of the substrate playing key factors in gully formation on Mars, supporting either a melting ground ice or snowpack hypothesis as the source for water involved in gully formation.
Author Harrison, Tanya N.
Jones, Eriita
Tornabene, Livio L.
Osinski, Gordon R.
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  givenname: Gordon R.
  surname: Osinski
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  organization: Centre for Planetary Science and Exploration, Department of Earth Sciences, University of Western Ontario, 1151 Richmond St, London, ON N6A 5B7, Canada
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  givenname: Livio L.
  surname: Tornabene
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  organization: Centre for Planetary Science and Exploration, Department of Earth Sciences, University of Western Ontario, 1151 Richmond St, London, ON N6A 5B7, Canada
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  givenname: Eriita
  orcidid: 0000-0002-8952-1982
  surname: Jones
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  organization: Centre for Planetary Science and Exploration, Department of Earth Sciences, University of Western Ontario, 1151 Richmond St, London, ON N6A 5B7, Canada
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Snippet •We mapped the global distribution of gullies with CTX data covering ∼85% of Mars.•Mapping confirms gullies are confined to martian mid- to...
Hypotheses ranging from fluvial processes and debris flows to CO2 frost-lubricated or entirely dry flows have been proposed for the formation of martian...
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StartPage 236
SubjectTerms Cameras
Formations
Gullies
Latitude
Mars
Mars surface
Mars, climate
Reconnaissance
Thermal properties
Title Global documentation of gullies with the Mars Reconnaissance Orbiter Context Camera and implications for their formation
URI https://dx.doi.org/10.1016/j.icarus.2015.01.022
https://search.proquest.com/docview/1732822123
https://search.proquest.com/docview/1770278842
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