Discovery of a flank caldera and very young glacial activity at Hecates Tholus, Mars

The majority of volcanic products on Mars are thought to be mafic and effusive. Explosive eruptions of basic to ultrabasic chemistry are expected to be common, but evidence for them is rare and mostly confined to very old surface features. Here we present new image and topographic data from the High Resolution Stereo Camera that reveal previously unknown traces of an explosive eruption at 30° N and 149° E on the northwestern flank of the shield volcano Hecates Tholus. The eruption created a large, 10-km-diameter caldera ∼350 million years ago. We interpret these observations to mean that large-scale explosive volcanism on Mars was not confined to the planet's early evolution. We also show that glacial deposits partly fill the caldera and an adjacent depression. Their age, derived from crater counts, is about 5 to 24 million years. Climate models predict that near-surface ice is not stable at mid-latitudes today, assuming a thermo-dynamic steady state. Therefore, the discovery of very young glacial features at Hecates Tholus suggests recent climate changes. We show that the absolute ages of these very recent glacial deposits correspond very well to a period of increased obliquity of the planet's rotational axis.

[1]  Mark I. Richardson,et al.  On the orbital forcing of Martian water and CO2 cycles: A general circulation model study with simplified volatile schemes , 2003 .

[2]  F. Wewel,et al.  High Resolution Stereo Camera (HRSC)-Multispectral 3D-Data Acquisition and Photogrammetric Data Processing , 2000 .

[3]  S. Wall Analysis of condensates formed at the Viking 2 lander site - The first winter , 1981 .

[4]  P. Francis,et al.  Absence of silicic volcanism on Mars: Implications for crustal composition and volatile abundance , 1982 .

[5]  H. Keller,et al.  Stability of water ice under a porous nonvolatile layer: implications to the south polar layered deposits of Mars , 2001 .

[6]  Robert M. Haberle,et al.  Orbital change experiments with a Mars general circulation model , 2003 .

[7]  N. Mangold Geomorphic analysis of lobate debris aprons on Mars at Mars Orbiter Camera scale: Evidence for ice sublimation initiated by fractures , 2003 .

[8]  M. Mellon,et al.  Chaotic obliquity and the nature of the Martian climate , 1995 .

[9]  J. Head,et al.  Explosive volcanism on Hecates Tholus, Mars - Investigation of eruption conditions , 1982 .

[10]  W. Boynton,et al.  Maps of Subsurface Hydrogen from the High Energy Neutron Detector, Mars Odyssey , 2002, Science.

[11]  Steven W. Squyres,et al.  Martian fretted terrain: Flow of erosional debris , 1978 .

[12]  Jacques Laskar,et al.  Long term evolution and chaotic diffusion of the insolation quantities of Mars , 2004 .

[13]  D. Sugden,et al.  Formation of patterned ground and sublimation till over Miocene glacier ice in Beacon Valley, southern Victoria Land, Antarctica , 2002 .

[14]  R. Jaumann,et al.  HRSC: the High Resolution Stereo Camera of Mars Express , 2004 .

[15]  Bruce M. Jakosky,et al.  The persistence of equatorial ground ice on Mars , 1997 .

[16]  David A. Crown,et al.  Volcanic geology of Tyrrhena Patera, Mars , 1990 .

[17]  John F. Mustard,et al.  Recent ice ages on Mars , 2003, Nature.

[18]  Jonas Bylander,et al.  Current measurement by real-time counting of single electrons , 2004, Nature.

[19]  V. Baker Water and the martian landscape , 2001, Nature.

[20]  James W. Head,et al.  Cold-based Mountain Glaciers on Mars: Western Arsia Mons Fan-shaped Deposits , 2003 .

[21]  William V. Boynton,et al.  Global distribution of near-surface hydrogen on Mars , 2004 .

[22]  V. Gulick,et al.  Origin and evolution of valleys on Martian volcanoes , 1990 .

[23]  James W. Head,et al.  Volcanism on Mars , 1981, Nature.

[24]  William K. Hartmann,et al.  Cratering Chronology and the Evolution of Mars , 2001 .

[25]  Bruce M. Jakosky,et al.  The distribution and behavior of Martian ground ice during past and present epochs , 1995 .

[26]  J. Head,et al.  Mars: review and analysis of volcanic eruption theory and relationships to observed landforms. , 1994 .

[27]  A. Basilevsky,et al.  Recent and episodic volcanic and glacial activity on Mars revealed by the High Resolution Stereo Camera , 2004, Nature.

[28]  J. Laskar,et al.  Recent ice-rich deposits formed at high latitudes on Mars by sublimation of unstable equatorial ice during low obliquity , 2004, Nature.

[29]  Thomas H. Prettyman,et al.  Gamma-Ray, Neutron, and Alpha-Particle Spectrometers for the Lunar Prospector mission , 2004 .