Blog Archive
-
▼
2007
(128)
-
▼
November
(29)
- For other uses of the term, see Zamora Zamora ...
- The Memphis blues is a style of blues music th...
- Anime Weekend Atlanta (AWA) is both the name of ...
- The continental crust is the layer of granitic...
- Coordinates: 47°14′35″N, 06°01′19″E Besançon (pr...
- Riverdale is a river valley neighbourhood loca...
- Messaging spam, sometimes called SPIM, is a ty...
- Electoral region The constituency was created at...
- Irish orthography has evolved over many centurie...
- Aspley is a suburb of the city of Nottingham. ...
- Widowers' Houses (1892) was the first play by ...
- This is a list of Major League Baseball franchis...
- For the Cameroonian court by this name, see Hi...
- Inspiration On 9 October 1968, while John Lenn...
- The Western Women's Hockey League (WWHL) was o...
- Celsius is, or relates to, the Celsius temperatu...
- A revolver is a multishot firearm, usually a han...
- Operation Panzerfaust was a military operation...
- Church Hill is the name of a street and small ...
- Events 570 - Prophet Muhammed, founder of Isl...
- National team caps and goals correct as of 08 F...
- Wolfgang Sawallisch (born August 26, 1923) is ...
- Est. over 600,000 at least 1% of the UK popula...
- The Indian Ocean Commission (COI), known as th...
- John Carroll Lynch (born August 1, 1963) is an A...
- Pest County (IPA: [pɛʃt]) is a county (megye) ...
- Universal history is basic to the Western tradit...
- The A702 is a major road in Scotland, that run...
- This article is part of the series: Politics and...
-
▼
November
(29)
Tuesday, November 27, 2007
The continental crust is the layer of granitic, sedimentary, and metamorphic rocks which form the continents and the areas of shallow seabed close to their shores, known as continental shelves. It is less dense than the material of the Earth's mantle and thus "floats" on top of it. Continental crust is also less dense than oceanic crust, though it is considerably thicker; mostly 35 to 40 km versus the average oceanic thickness of around 7-10 km. About 40% of the Earth's surface is now underlain by continental crust.
As a consequence of the density difference, when active margins of continental crust meet oceanic crust in subduction zones, the oceanic crust is typically subducted back into the mantle. Because of its relative low density, continental crust is only rarely subducted or re-cycled back into the mantle (for instance, where continental crustal blocks collide and overthicken, causing deep melting). For this reason the oldest rocks on Earth are within the cratons or cores of the continents, rather than in repeatedly recycled oceanic crust; the oldest continental rock is the Acasta Gneiss at 4.01 Ga, while the oldest oceanic crust is of Jurassic age.
The height of mountain ranges is usually related to the thickness of crust. This results from the isostasy associated with orogeny (mountain formation). The crust is thickened by the compressive forces related to subduction or continental collision. The buoyancy of the crust forces it upwards, the forces of the collisional stress balanced by gravity and erosion. This forms a keel or mountain root beneath the mountain range, which is where the thickest crust is found.
The thinnest continental crust is found in rift zones, where the crust is thinned by detachment faulting and eventually severed, replaced by oceanic crust. The edges of continental fragments formed this way (both sides of the Atlantic Ocean, for example) are termed passive margins.
The high temperatures and pressures at depth, often combined with a long history of complex distortion, mean that much of the lower continental crust is metamorphic - the main exception to this being recent igneous intrusions. Igneous rock may also be "underplated" to the underside of the crust, i.e. adding to the crust by forming a layer immediately beneath it.
It is a matter of debate whether the amount of continental crust has been increasing, decreasing, or remaining constant over geological time. One model indicates that at prior to 3.7 Bya continental crust constituted less than 10% of the present amount. By 3.0 Bya the amount was about 25% and following a period of rapid crustal evolution it was about 60% of the current amount by 2.6 Bya (Taylor and McLennan, 1995). The growth of continental crust appears to have occurred in spurts of increased activity corresponding to five episodes of increased production through geologic time (see graphic at Butler). New material can be added to the continents by the partial melting of oceanic crust at subduction zones, causing the lighter material to rise as magma, forming volcanoes. Also, material can be accreted "horizontally" when volcanic island arcs, seamounts or similar structures collide with the side of the continent as a result of plate tectonic movements.
Subscribe to:
Post Comments (Atom)
No comments:
Post a Comment