Troughs in Ice Sheets and Other Icy Deposits on Mars: Analysis of Their Radiative Balance

Details Troughs in Ice Sheets and Other Icy Deposits on Mars: Analysis of Their Radiative Balance Troughs in Ice Sheets and Other Icy Deposits on Mars: Analysis of Their Radiative Balance

Aug 2000

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2000mpse.conf...44f&link_type=abstract

International Conference on Mars Polar Science and Exploration, p. 44

Mathematics

Mars (Planet), Mars Surface, Planetary Geology, Ice, Solar Radiation, Geochronology, Mars Environment, Atmospheric Radiation, Glaciers, Solar Position, Carbon Dioxide, Dust, Climate, Flat Surfaces, Infrared Spectra, Mathematical Models, Deposits, Escarpments, V Grooves

Scientific paper

It has long been known that groove-like structures in glaciers and ice sheets can trap more incoming solar radiation than is the case for a 'normal' flat, smooth surface. In this presentation, we shall describe the radiative regimes of typical scarps and troughs on icy surfaces of Mars, and suggest how these features originate and evolve through time. The basis of our analysis is the radiation balance model presented by Pfeffer and Bretherton. Their model considers the visible band radiation regime of a V-shaped groove on a terrestrial ice surface, and shows that absorbed energy can be enhanced by up to 50 percent for grooves with small opening angles and with typical polar values of the solar zenith angle. Our work extends this model by considering: (a) departures from V-shaped geometry, (b) both englacial and surficial dust and debris, and (c) the infrared spectrum. We apply the extended model to various features on the Martian surface, including the spiral-like scarps on the Northern and Southern ice sheets, the large-scale chasms (e.g., Chasm Borealis), and groove-like lineations on valley floors thought to be filled with mixtures of dust and icy substances. In conjunction with study of valley-closure experiments, we suggest that spiral-like scarps and chasms are stable features of the Martian climate regime. We also suggest that further study of scarps and chasms may shed light on the composition (i.e., relative proportions of water ice, carbon-dioxide ice and dust) of the Martian ice sheets and valley fills.

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