Volcano Evolution on Mars
Abstract
The diversity of volcanic activity on Mars throughout geologic time was one of the major factors that has controlled the spatial distribution of surface mineralogies. The traditional view of Martian volcanism is one in which effusive activity has dominated the entire preserved geologic history of the planet, with the minor exception of phreatomagnetic activity and associated volcano ground-ice interactions. However, two lines of evidence have caused reconsidering of this view, and have led to the possible role of explosive volcanism on Mars. First, detailed analysis of high resolution Viking Orbiter images has provided good evidence for explosive activity on Hecates Tholus and Alba Patera. Secondly, the problems believed to exist in associating explosive volcanism with silicic magmas on Mars, and the consequent unusual magmatic evolutionary trend for Martian volcanoes from silica-rich to silica-poor, may now be circumvented by the consideration of basatic plinian activity similar in kind to terrestrial eruptions such as the 1886 Tarawera eruption. The morphologic evidence for an early phase of explosive activity on Mars is briefly reviewed, and a model is presented for the emplacement of ash-flow deposits on Martian volcanoes. The volcanoes Alba Patera and Olympus Mons are considered in this context, along with some of the older Martian tholi and paterae
- Publication:
-
Nature and Composition of Surface Units on Mars
- Pub Date:
- 1988
- Bibcode:
- 1988ncsu.work...97M
- Keywords:
-
- Effusives;
- Evolution (Development);
- Igneous Rocks;
- Mars Volcanoes;
- Mineralogy;
- Morphology;
- Remote Sensing;
- Satellite Imagery;
- Spatial Distribution;
- Topography;
- Viking Orbiter Spacecraft;
- Lunar and Planetary Exploration