Planning for VRM: Radar and Sonar Studies of Volcanic Terrains on Earth, Venus, and Mars
Abstract
Venera 15 and 16 radar images of Venus, together with Earth based data from the Arecibo Observatory, indicate that volcanism has played an important role in the evolution of the Venusian landscape. At the end of this decade, NASA's Venus Radar Mapper (VRM) spacecraft will return near global information that will further constrain the planet's geologic history. Due to the diversity of volcano/tectonic features that have already been identified on Venus, and the intrinsic differences between radar images and conventional photography, additional expertise is being developed with which to interpret the VRM images of this unusual environment. Several attempts to better understand the physical characteristics of volcanic terrains are described here. Pioneer Venus radar altimeter measurements of topographic variability and surface roughness are compared with Goldstone radar measurements of volcanic terrains on Mars. Synthetic aperture radar images obtained by the SIR-B Space Shuttle experiment over Kilauea Volcano, Hawaii, are employed to investigate the differences in radar returns from pahoehoe, aa and sheet lava flows. Four polarization, multiple incidence angle, aircraft radar images of the Medicine Lake area of N. California are used to address the unusually high cross-polarization ratio of lobate flows around Beta Regio on Venus, as measured by the Arecibo radar.
- Publication:
-
Terrestrial Planets: Comparative Planetology
- Pub Date:
- 1985
- Bibcode:
- 1985LPICo.569...18M
- Keywords:
-
- Earth (Planet);
- Mars (Planet);
- Radar Geology;
- Sonar;
- Terrain Analysis;
- Venus (Planet);
- Volcanology;
- Planetary Evolution;
- Radar Imagery;
- Synthetic Aperture Radar;
- Tectonics;
- Topography;
- Venera Satellites;
- Lunar and Planetary Exploration