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A conceptual model for explanation of Albedo changes in Martian craters |
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| Authors: | H. Xie H. Guan M. Zhu M. Thueson S.F. Ackley Z. Yue |
| Affiliation: | aLaboratory for Remote Sensing and Geoinformatics, Department of Geological Sciences, University of Texas at San Antonio, San Antonio, TX 78249, USA bSchool of Chemistry, Physics and Earth Sciences, Flinders University, Australia cResearch Center for GIS and RS, East China Institute of Technology, Fuzhou, Jiangxi, China |
| Abstract: | We propose a conceptual model to interpret AM/PM high albedo events (HAEs) in crater interiors at the Martian seasonal polar caps. This model consists of two components: (1) a relatively permanent high-albedo water–ice body exposed in a crater interior and (2) a variable crater albedo in response to aerosol optical depth, dust contamination, and H2O/CO2 frost deposits or sublimes in four phases, based on temperature and solar longitude changes. Two craters (Korolev crater of fully exposed water–ice layer and ‘Louth’ crater of partially exposed water–ice layer) are used to demonstrate the model. This model explains the HAEs and their seasonal changes and suggests that many crater-like features formed in the last episodic advance of the polar ice cap in the last high obliquity period should have water–ice exposed or covered. For the AM-only HAEs craters, there seems no need of a water–ice layer to be fully exposed, but a subsurface water–ice layer (or ice-rich regolith) is a necessary condition. |
| Keywords: | Mars crater High albedo event Frost deposition and sublimation Water–ice |
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