Crater degradation in the Martian highlands: Morphometric analysis of the Sinus Sabaeus region and simulation modeling suggest fluvial processes

Crater degradation in the Martian highlands: Morphometric analysis of the Sinus Sabaeus region and simulation modeling suggest fluvial processes

Results from simulation modeling of crater degradation by fluvial and eolian processes are compared with size‐frequency and depth of infilling statistics for the heavily cratered Sinus Sabaeus quadrangle of Mars. The fractional degree of infilling of craters greater than 10 km in diameter in this re...

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Bibliographic Details
Published in:Journal of Geophysical Research - Planets Vol. 109; no. E5; pp. E05002 - n/a
Main Authors: Forsberg‐Taylor, Nancy K., Howard, Alan D., Craddock, Robert A.
Format: Journal Article
Language:English
Published: American Geophysical Union 01-05-2004
Blackwell Publishing Ltd
Subjects:
craters
degradation
Erosion and sedimentation
Erosion and weathering
Geomorphology
Hydrology
Impact phenomena (includes cratering)
Mars
Planetology
Solar System Objects
Solid Surface Planets
craters
degradation
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Summary:Results from simulation modeling of crater degradation by fluvial and eolian processes are compared with size‐frequency and depth of infilling statistics for the heavily cratered Sinus Sabaeus quadrangle of Mars. The fractional degree of infilling of craters greater than 10 km in diameter in this region is bimodal, with a small population of post‐Noachian craters with little infilling, whereas most Noachian craters are strongly infilled. This pattern is most consistent with fluvial erosion of craters, because modeling indicates that craters fill rapidly at first, but the rate of infilling diminishes through time as crater wall heights diminish and the area of deposition on the crater floor increases. Simulated rates of crater infilling by eolian processes are more constant, which would be expected to produce craters equally distributed in degree of infilling, which is not observed. The small slope of the size‐frequency distribution in the 10–30 km size range is also consistent with the more rapid fluvial erosion of smaller craters. The analysis also suggests that rates of crater production and of crater degradation were in rough balance during the Noachian epoch in the 10–30 km size range.
Bibliography:istex:87322F6CA974E796CFAD8F39BFCE44488E90196E
ArticleID:2004JE002242
ark:/67375/WNG-51NMKJN6-B
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ISSN:0148-0227
2156-2202
DOI:10.1029/2004JE002242