Data di Pubblicazione:
2011
Abstract:
We discuss in this paper possible roles of methane and carbon dioxide in geological processes on Mars.
These volatiles in the martian crust may migrate upward from their sources either directly or via
various traps (structural, sedimentary, ground ice, gas hydrates). They are then likely emitted to the
atmosphere by seepage or through diverse vent structures. Though gas hydrates have never been
directly detected on Mars, theoretical studies favor their presence in the crust and polar caps; they
could have played an important role as significant gas reservoirs in the subsurface. The martian gas
hydrates would possibly be a binary system of methane and carbon dioxide occupying clathrate
cavities. Landforms such as mud volcanoes with well-known linkage to gas venting are extensively
distributed on Earth, and methane is the primary gas involved. Thus, identification of these landforms
on Mars could suggest that methane and possibly carbon dioxide have contributed to geological
processes of the planet. For example, we present a newly identified field in Chryse Planitia where
features closely resembling terrestrial mud volcanoes occur widely, though with no observable activity.
We also present results of a preliminary search for possible recent or present-day, methane-emission
zones in the regions over which enrichments of atmospheric methane have been reported.
These volatiles in the martian crust may migrate upward from their sources either directly or via
various traps (structural, sedimentary, ground ice, gas hydrates). They are then likely emitted to the
atmosphere by seepage or through diverse vent structures. Though gas hydrates have never been
directly detected on Mars, theoretical studies favor their presence in the crust and polar caps; they
could have played an important role as significant gas reservoirs in the subsurface. The martian gas
hydrates would possibly be a binary system of methane and carbon dioxide occupying clathrate
cavities. Landforms such as mud volcanoes with well-known linkage to gas venting are extensively
distributed on Earth, and methane is the primary gas involved. Thus, identification of these landforms
on Mars could suggest that methane and possibly carbon dioxide have contributed to geological
processes of the planet. For example, we present a newly identified field in Chryse Planitia where
features closely resembling terrestrial mud volcanoes occur widely, though with no observable activity.
We also present results of a preliminary search for possible recent or present-day, methane-emission
zones in the regions over which enrichments of atmospheric methane have been reported.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Mars;
Methane;
Carbon dioxide;
Seepage;
Mud volcano;
Gas hydrate
Elenco autori:
Komatsu, Goro; Ori, Gian Gabriele; Cardinale, M.; Dohm J. M., Baker; V. R., Vaz; D., A.; Ishimaru, R.; Matsui, T.
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