Data di Pubblicazione:
2014
Abstract:
Large bodies of liquid water ranging from lakes to oceans have been hypothesized to have occupied the
surface of ancient Mars episodically. Such inferences have been founded largely on geomorphological
observations of putative shoreline features during the period ranging from the 1980s to the early 2000s.
High-resolution satellite images obtained during various Mars missions conducted since the early 2000s
have enabled detailed sedimentological studies. One phenomenon that might leave sedimentological
traces of the purported Martian paleo-oceans is a bolide impact and consequent generation of large
tsunami waves. Numerical modeling of impact-induced tsunami waves on a hypothesized northern
plains paleo-ocean was performed to elucidate their potential propagation characteristics on
Mars, including the ranges of wave height and velocity. When considering a tsunami triggered by a
50 km-diameter impact cratering event, the offshore and shore-zone wave heights respectively reached
40–50 m and 120 m. In the same test scenario, the tsunami wave velocity reached 20 m/s near the crater
and 16 m/s at the shore zone. The wave height and velocity in highly cratered regions, such as Arabia
Terra, tend to be relatively low because tsunami inundation is diffused by impact crater rims existing
along the tsunami passage.
surface of ancient Mars episodically. Such inferences have been founded largely on geomorphological
observations of putative shoreline features during the period ranging from the 1980s to the early 2000s.
High-resolution satellite images obtained during various Mars missions conducted since the early 2000s
have enabled detailed sedimentological studies. One phenomenon that might leave sedimentological
traces of the purported Martian paleo-oceans is a bolide impact and consequent generation of large
tsunami waves. Numerical modeling of impact-induced tsunami waves on a hypothesized northern
plains paleo-ocean was performed to elucidate their potential propagation characteristics on
Mars, including the ranges of wave height and velocity. When considering a tsunami triggered by a
50 km-diameter impact cratering event, the offshore and shore-zone wave heights respectively reached
40–50 m and 120 m. In the same test scenario, the tsunami wave velocity reached 20 m/s near the crater
and 16 m/s at the shore zone. The wave height and velocity in highly cratered regions, such as Arabia
Terra, tend to be relatively low because tsunami inundation is diffused by impact crater rims existing
along the tsunami passage.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Mars, Oceans, Tsunami
Elenco autori:
Iijima, Y.; Goto, K.; Minoura, K.; Komatsu, Goro; Imamura, F.
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