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Northwestern Tharsis Latent Outflow Activity Mars

Authors :
Dohm, J. M
Anderson, R. C
Baker, V. R
Ferris, J. C
Hare, T. M
Strom, R. G
Rudd, L
Rice, J. W., Jr
Scott, D. H
Source :
International Conference on Mars Polar Science and Exploration.
Publication Year :
2000
Publisher :
United States: NASA Center for Aerospace Information (CASI), 2000.

Abstract

Previously defined outflow channels, which are indicated by relict landforms similar to those observed on Earth, signify ancient catastrophic flood events on Mars. These conspicuous geomorphic features are some of the most remarkable yet profound discoveries made by geologists to date. These outflow channels, which debouched tremendous volumes of water into topographic lows such as Chryse, Utopia, Elysium, and Hellas Planitiae, may represent the beginning of warmer and wetter climatic periods unlike the present-day cold and dry Mars. In addition to the previously identified outflow channels, observations permitted by the newly acquired Mars Orbiter Laser Altimeter (MOLA) data have revealed a system of gigantic valleys, referred to as the northwestern slope valleys (NSV), that are located to the northwest of a huge shield volcano, Arsia Mons, western hemisphere of Mars. These features generally correspond spatially to gravity lows similar to the easternmost, circum-Chryse outflow channel systems. Geologic investigations of the Tharsis region suggest that the large valley system pre-dates the construction of Arsia Mons and its extensive associated lava flows of mainly Late Hesperian and Amazonian age and coincides stratigraphically with the early development of the circum-Chryse outflow channel systems that debouch into Chryse Planitia. This newly identified system, the NSV, potentially signifies the largest flood event(s) ever recorded for the solar system. Additional information is contained in original extended abstract.

Details

Language :
English
Database :
NASA Technical Reports
Journal :
International Conference on Mars Polar Science and Exploration
Publication Type :
Report
Accession number :
edsnas.20010002439
Document Type :
Report