Unusual magnetic signature of the Hadriaca Patera Volcano: Implications for early Mars
نویسندگان
چکیده
[1] Typically, Martian volcanoes show either a total absence of crustal magnetism or a local magnetic mimimum. Hadriaca Patera is the only volcano on Mars with a clear positive magnetic anomaly directly over the volcanic edifice, as determined by electron reflection magnetometry. Hadriaca’s topography, lava flow crater ages, gravity anomaly, position relative to the Hellas rim and past aqueous environment provide geological constraints on possible scenarios to explain this unusual magnetic signature. The two most probable scenarios are a) pre-Hellas thermoremanent magnetization (TRM) of a deepseated magma body followed by post-Hellas intrusive partial thermal demagnetization and b) post-Hellas emplacement of the volcano and TRM in a global magnetic field. It is thus likely that Mars had at least one of the following: highland volcanism in pre-Hellas times (older than any datable volcanic feature on the planet) or an active dynamo some time after the Hellas impact. Citation: Lillis, R. J., M. Manga, D. L. Mitchell, R. P. Lin, and M. H. Acuna (2006), Unusual magnetic signature of the Hadriaca Patera Volcano: Implications for early Mars, Geophys. Res. Lett., 33, L03202, doi:10.1029/2005GL024905.
منابع مشابه
Mevtv Workshop on the Evolution of Magma B©dies on Mars
A Comparison of Theoretical Inferences for Magmatic Supply on Mars S. Baloga Relative Ages of Martian Volcanoes N. G. Barlow Martian Mantle Primary Melts C M. Bertka, Z R. Holloway, and V. Pan Magmatic Sulfides on Mars R. G. Bums Constraints on Eruption Rates and Cooling of Three Lava Flows at Alba Z Crisp Hadriaca Patera: Evidence for Pyroclastic Volcanism in the Hellas Region of Mars D.A. Cro...
متن کاملAnother Look at the Summit Caldera of Apollinaris Patera
Introduction: Highland paterae [1-2] represent one of the most distinctive landforms on the Martian surface. The term patera (paterae if plural) was originally applied to any large, flat-floored depression with irregular margins identified in Mariner 9 and Viking imagery and included volcanoes as well as impact craters [3]. However, highland paterae represent an individual class of patera that ...
متن کاملGravity Evidence for Extinct Magma Chambers on Mars: Tyrrhena Patera and Hadriaca Patera
The Mars Global Surveyor mission has vastly improved our knowledge of the topography and gravity of Mars [1,2,3], permitting detailed geophysical modeling of subsurface structures such as magma chambers for the first time. I have recently presented a gravity model for Syrtis Major [4] and showed that the gravity data requires the presence of a buried, high-density body. The spatial association ...
متن کاملFormation of Martian Paterae: Insights from Terrestrial Ignimbrite
Introduction: The formation of Martian paterae is poorly understood. ÒTypicalÓ paterae are considered to be constructed primarily of pyroclastic deposits (e.g. Tyrrhena Patera [1], Hadriaca Patera [2], and Apollinaris Patera [3-4]), whereas others are suggested to be constructed primarily of numerous lava flows (e.g. Biblis and Ulysses Paterae [5] and Uranius Patera [6]). Alba Patera is interpr...
متن کاملThe gravity field of Mars: results from Mars Global Surveyor.
Observations of the gravity field of Mars reveal a planet that has responded differently in its northern and southern hemispheres to major impacts and volcanic processes. The rough, elevated southern hemisphere has a relatively featureless gravitational signature indicating a state of near-isostatic compensation, whereas the smooth, low northern plains display a wider range of gravitational ano...
متن کامل