JCG ship in the the open ocean. Impressive video. The wave height and speed would suggest shallower waters, and that likely the ship was close to land mass when the video was filmed rather than open ocean (in the sense of being far out to sea). Not being there of course I could easily be incorrect.
Anyway we digress :)
Gav
On Mar 28, 2011, at 11:28 AM, Marshall Eubanks wrote:
On Mar 28, 2011, at 10:57 AM, Gavin Pearce wrote:
You guys forget a lot of folks on the list are working on cabling ships and off shore platforms, its not all about what happens on shore in this industry.
Valid point ... however in deep ocean, these things are pretty imperceptible. The effect on ships on the surface are nominal, and off shore platforms are (generally) built with these things in mind: http://www.msnbc.msn.com/id/27324535/ns/technology_and_science-innovatio n/ Here is a video of the recent Japanese tsunami from a JCG ship in the the open ocean. The waves (@ ~4:20 and 6:40 into the video) caused them no trouble, but they were certainly not imperceptible. With the video :
http://www.youtube.com/watch?v=4XSBrrueVoQ&feature=player_embedded#at=19 Thanks for the link... Very impressive, though strong storm waves get higher. This is not an open-ocean tsunami, it is probably either direct from the quake source or reflected from the nearby coast (I'm fairly sure it is the latter, though there isn't a good time reference in the video, since there appears to be land visible in the frame; if the white mass is really land, this definitely does not qualify as open-ocean, which for tsunami purposes has to be an open-ocean wavelength or so from
Marshall
Regards Marshall
At the other extreme, Lituya Bay is a good example of a Mega Tsunami
(1,720 feet):
http://en.wikipedia.org/wiki/1958_Lituya_Bay_megatsunami This one lists landsliding (or perhaps calving) as the generation mechanism, and both the source and the bay outlet were small enough that
On 03/28/2011 01:22 PM, Gavin Pearce wrote: the nearest land or shallow water (600-800 miles; you wouldn't see the land...) Cable damage from tsunamis mostly comes from bulk motion up or down a sloping ocean bottom, or from primary or secondary turbidity currents (basically an underwater avalanche) (unless you are unlucky enough to have the fault break itself cut the cable; this isn't too likely but with this fault geometry it could have happened.) Also, this quake (the 8.9 "main" one, not either the foreshocks or aftershocks, several of each were strong enough to trigger a tsunami watch in Hawaii by themselves) had a very extended energy-release time; the ground motion went for several minutes (see the graph in http://earthquake.usgs.gov/earthquakes/eqinthenews/2011/usc0001xgp/finite_fa...). That can complicate wave generation a lot. Various mechanisms contribute to tsunami generation; the majority of wave generation in the 1960 Chile event came from landslides secondary to the main earthquake (which was very deep and centered under land...) My memory of papers about the 1964 Alaska quake involved both ground motion and landslides as contributors. Note that in this case, the resulting waves can go different directions from the same quake. Aside: I worked for the U of Hawaii tsunami reasearch program in the 1960's for a while, we were mainly working on very early prototypes of the deep-ocean pressure sensors that are now deployed. Decent embedded microprocessors didn't exist then (for that matter, *any* microprocessors, even the 1802 or 8008, either of which would have been a grand luxury :-( Those finally made these sensors practical. (ours was set up with a write-only 7-track tape drive, using discrete-transistor logic modules (no practical ICs yet either). It was to be placed on Ocean Station November (about 2/3 of the way from San Francisco to Honolulu), kicked overboard on request from the research people (after a "suitable" earthquake), then retrieved using a low-power radio beacon a few days later when the cable release timer tripped.) Modern electronics has improved things :-) -- Pete the wave probably didn't propagate too far once in the open ocean.