Guyot

From Wikipedia, the free encyclopedia

Please help improve this article or section by expanding it.
Further information might be found on the talk page or at requests for expansion. (February 2008)

For the French viticulturist, see Jules Guyot.

The Bear Seamount, a Guyot

A guyot, also known as a tablemount, is a flat-topped seamount. Guyots are most commonly found in the Pacific Ocean. Guyots show evidence of having been above the surface with gradual subsidence through stages from fringed reefed mountain, coral atoll, and finally a flat topped submerged mountain. Their flatness is due to erosion by waves, winds, and atmospheric processes. The surfaces of some of the largest guyots measure 10 km (6 mi).^[1] The steepness gradient of most guyots is about 20 degrees. To technically be considered a guyot or tablemount, they must stand at least 3000 ft (900 m) tall. However, there are many undersea mounts that can range from just less than 3000 ft to around 300 ft. Very large oceanic volcanic constructions, hundreds of kilometers across, are called oceanic plateaus. ^[2] Seamounts are made by extrusion of lavas piped upward in stages from sources within the Earth's mantle to vents on the seafloor. Seamounts provide data on movements of tectonic plates on which they ride, and on the rheology of the underlying lithosphere. The trend of a seamount chain traces the direction of motion of the lithospheric plate over a more or less fixed heat source in the underlying asthenosphere part of the Earth's mantle. ^[3]There are thought to be an estimated 50,000 seamounts in the Pacific basin. The Emperor Seamounts are an excellent example of an entire volcanic chain undergoing this process and contain many guyots among their other examples.

We know that underwater guyots were originally above water due to the extensive amount of fossils discovered on the top of guyots. Another factor contributing to the guyots being underwater has to do with the oceanic ridges, such as the Mid-Atlantic Ridge in the Atlantic Ocean. Mid-ocean ridges gradually spread apart overtime, due to molten lava being pushed up under the surface of the earth and creating new rock. As the mid-ocean ridges spread apart, the guyots move with them, thus continually sinking deeper into the depths of the ocean. Thus, the greater amount of time that passes, the deeper the guyots become.^[4] Although guyots can be hundreds of millions of years old, there have been some recently discovered guyots that were only formed within the last 1 million years.

One guyot in particular, the Great Meteor Tablemount in the Northeast Atlantic Ocean, stands at more than 4,000 m (13,120 ft). The guyot's diameter is 110 km (70 mi).^[5] Guyots are also associated with specific lifeforms and varying amounts of organic matter. Local increases in chlorophyll a, enhanced carbon incorporation rates and changes in phytoplankton species composition were associated with the seamount.^[6]

Guyots were first seen by Harry Hammond Hess in 1945 who collected data using echo-sounding equipment on a ship he commanded during World War II.^{[citation needed]} The data showed the configuration of the seafloor where he saw that some undersea mountains had flat tops. The geology building at Princeton University is, and was, called Guyot Hall (being named after the 19th century geographer Arnold Henry Guyot^[7]. Guyot Hall has a flat roof, so Hess called these undersea mountains guyots (because they resembled Guyot Hall). Hess postulated they were once volcanic islands that were beheaded by wave action yet they are now deep under sea level. This idea was used to help bolster the theory of plate tectonics.^{[citation needed]}

More recently, seamounts have been used as an international effort to protect marine ecosystems.^{[citation needed]}

[edit] See also

[edit] References

^ guyot - Britannica Online Encyclopedia
^ Seamount and guyot: Information and Much More from Answers.com
^ Seamounts are made by extrusion of lavas piped upward in stages from sources within the Earth's mantle to vents on the seafloor. Seamounts provide data on movements of tectonic plates on which they ride, and on the rheology of the underlying lithosphere. The trend of a seamount chain traces the direction of motion of the lithospheric plate over a more or less fixed heat source in the underlying asthenosphere part of the Earth's mantle.
^ Guyot
^ Great Meteor Tablemount (volcanic mountain, Atlantic Ocean) - Britannica Online Encyclopedia
^ ||Sahfos||
^ http://etcweb.princeton.edu/CampusWWW/Companion/guyot_arnold.html Guyot, Arnold in A Princeton Companion

This article or section is missing citations or needs footnotes.
Using inline citations helps guard against copyright violations and factual inaccuracies. (October 2007)