F. Costard scite author profile

The observation of small gullies associated with recent surface runoff on Mars has renewed the question of liquid water stability at the surface of Mars. The gullies could be formed by groundwater seepage from underground aquifers; however, observations of gullies originating from isolated peaks and dune crests question this scenario. We show that these landforms may result from the melting of water ice in the top few meters of the martian subsurface at high obliquity. Our conclusions are based on the analogy between the martian gullies and terrestrial debris flows observed in Greenland and numerical simulations that show that above-freezing temperatures can occur at high obliquities in the near surface of Mars, and that such temperatures are only predicted at latitudes and for slope orientations corresponding to where the gullies have been observed on Mars.

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Standardizing the nomenclature of Martian impact crater ejecta morphologies

Barlow¹,

Boyce²,

Costard³

et al. 2000

J. Geophys. Res.

190

187

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Abstract. The Mars Crater Morphology Consortium recommends the use of a standardized nomenclature system when discussing Martian impact crater ejecta morphologies. The system utilizes nongenetic descriptors to identify the various ejecta morphologies seen on Mars. This system is designed to facilitate communication and collaboration between researchers. Crater morphology databases will be archived through the U.S. Geological Survey in Flagstaff, where a comprehensive catalog of Martian crater morphologic information will be maintained.

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Outwash Plains and Thermokarst on Mars

Costard¹,

Kargel²

1995

Icarus

156

132

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Ice in the Martian Regolith

et al.

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F. Costard

Formation of Recent Martian Debris Flows by Melting of Near-Surface Ground Ice at High Obliquity

Standardizing the nomenclature of Martian impact crater ejecta morphologies

Outwash Plains and Thermokarst on Mars

Ice in the Martian Regolith

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