Map showing lava flows in the northeast part of the Memnonia Quadrangle of Mars
Dates
Publication Date
1981-01-01
Time Period
1981-01-01
Citation
D. H. Scott, USGS, and G. G. Schaber, USGS, 19810101, Map showing lava flows in the northeast part of the Memnonia Quadrangle of Mars: , https://doi.org/10.5066/P9LFG4FS.
Summary
The Systematic mapping of lava flow units in the Tharsis region has been compiled into a series of 16 maps at 1:2,000,000 scale. This work provides information on the sources and areal extent of the lava flows, on their eruptive sequences and relative ages, and on relations between the flows and geologic structure in the largest, most active tectonic and volcanic province on Mars. Some of the maps were made from controlled Viking photomosaics published as quarter quadrangles in the Atlas of Mars Topographic Series (U.S. Geological Survey, 1979) and tied to the Viking control net. Where these photomosaics were not available, larger scale catalog photomosaics tied to the Mariner 9 control net were used. These maps were subsequently reduced [...]
Summary
The Systematic mapping of lava flow units in the Tharsis region has been compiled into a series of 16 maps at 1:2,000,000 scale. This work provides information on the sources and areal extent of the lava flows, on their eruptive sequences and relative ages, and on relations between the flows and geologic structure in the largest, most active tectonic and volcanic province on Mars. Some of the maps were made from controlled Viking photomosaics published as quarter quadrangles in the Atlas of Mars Topographic Series (U.S. Geological Survey, 1979) and tied to the Viking control net. Where these photomosaics were not available, larger scale catalog photomosaics tied to the Mariner 9 control net were used. These maps were subsequently reduced to the 1:2,000,000 scale, but slight discrepencies may occur in places between features referred to coordinates on the two types of bases.
Digitized 1:2,000,000-scale geologic map of the MC16NE - Memnonia Quadrangle of the Mars. The scanned map sheet was imported into ArcMap and georeferenced to the more current Thermal Emission Imaging System (THEMIS) images from the 2001 Mars Odyssey orbiter mission. Contacts and geologic units were digitized and attributed based on type and unit name.