Difference between revisions of "Lithosphere" - New World Encyclopedia
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===Composition of oceanic crust=== | ===Composition of oceanic crust=== | ||
| − | The oceanic crust is composed of '''mafic''' and '''ultramafic''' rocks, or '''sima'''. The term ''mafic'' is applied to silicate minerals, | + | The oceanic crust is composed of '''mafic''' and '''ultramafic''' rocks, or '''sima'''. The term ''mafic'' is applied to silicate minerals, magmas, and rocks that have relatively high concentrations of the heavier [[Chemical element|element]]s, particularly [[magnesium]] and [[iron]]. The word "mafic" is derived by combining letters from ''[[magnesium]]'' and ''ferrum'', the [[Latin]] word for [[iron]] [http://dictionary.reference.com/search?q=mafic]. Mafic magmas also are rich in [[calcium]] and [[sodium]]. |
<<EXPLAIN "SIMA">> | <<EXPLAIN "SIMA">> | ||
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Mafic minerals are usually dark in color and have a [[specific gravity]]* (density relative to the density of water) greater than 3. Common rock-forming mafic minerals include [[olivine]]*, [[pyroxene]]*, [[amphibole]]*, [[biotite]]* and other [[mica]]s, [[augite]]* and calcium-rich [[plagioclase]]* [[feldspar|feldspars]]*. Common mafic rocks include [[basalt]] and [[gabbro]]*. | Mafic minerals are usually dark in color and have a [[specific gravity]]* (density relative to the density of water) greater than 3. Common rock-forming mafic minerals include [[olivine]]*, [[pyroxene]]*, [[amphibole]]*, [[biotite]]* and other [[mica]]s, [[augite]]* and calcium-rich [[plagioclase]]* [[feldspar|feldspars]]*. Common mafic rocks include [[basalt]] and [[gabbro]]*. | ||
| − | === | + | ===Composition of continental crust=== |
[[Image:North america craton nps.gif|right|250px|thumb|North American craton.]] | [[Image:North america craton nps.gif|right|250px|thumb|North American craton.]] | ||
Revision as of 00:41, 19 June 2006
The lithosphere (from the Greek for "rocky" sphere) is the solid, outermost shell of a rocky planet. In the case of the Earth, the lithosphere includes the crust and the upper layer of the mantle that is joined to the crust. As the cooling surface of the Earth's internal convection system, the lithosphere thickens over time.
Plate tectonics
The chemical composition of the Earth's crust differs from that of the upper mantle, although the two are attached to each other and together form the lithosphere. The boundary that marks this change in chemical composition is known as the Mohorovičić discontinuity (or the Moho discontinuity).
Thus the distinguishing characteristic of the lithosphere is not its composition but its flow properties. It floats on the asthenosphere, which is the heat-softened layer of the mantle below the lithosphere. The lithosphere is fragmented into relatively strong pieces called tectonic plates, which move independently relative to one another. This movement of lithospheric plates over the asthenosphere is described as plate tectonics.
Two types of lithosphere
There are two types of lithosphere: the oceanic lithosphere, or oceanic crust, and the continental lithosphere, or continental crust. The oceanic crust is the part of Earth's lithosphere that surfaces in the ocean basins. The continental crust is the layer of rocks that form the continents and areas of shallow seabed close to their shores, known as continental shelves. The two types of crust differ in composition, density, and thickness. As a whole, the oceanic crust is thinner but denser than the continental crust.
The oceanic crust is generally less than 10 kilometers (km) thick, and its mean density is about 3.3 grams per cubic centimeter (g/cm3). The thickness of the continental crust ranges from 20 to 80 km.
As a consequence of the density difference, when active margins of continental crust meet oceanic crust in regions known as subduction zones, the oceanic crust typically sinks beneath the continental crust and is recycled back into the mantle. At the same time, new oceanic crust is continually being produced at mid-ocean ridges from mantle material. In addition, as the oceanic lithosphere grows older, it gets cooler and denser, with the result that if two oceanic plates converge, the older one will subduct below the younger one. As a consequence of these processes, most of the present-day oceanic crust is less than 200 million years old.
By contrast, the continental crust is rarely subducted or recycled back into the mantle. 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, with an estimated age of 4.01 billion (4.01x109) years.
Composition of oceanic crust
The oceanic crust is composed of mafic and ultramafic rocks, or sima. The term mafic is applied to silicate minerals, magmas, and rocks that have relatively high concentrations of the heavier elements, particularly magnesium and iron. The word "mafic" is derived by combining letters from magnesium and ferrum, the Latin word for iron [1]. Mafic magmas also are rich in calcium and sodium.
<<EXPLAIN "SIMA">>
Mafic minerals are usually dark in color and have a specific gravity (density relative to the density of water) greater than 3. Common rock-forming mafic minerals include olivine, pyroxene, amphibole, biotite and other micas, augite and calcium-rich plagioclase feldspars. Common mafic rocks include basalt and gabbro.
Composition of continental crust
The continental lithosphere consists predominantly of felsic rocks, which are enriched in silica and light elements such as oxygen, aluminium, sodium, and potassium. Felsic minerals are usually light in color and have specific gravities less than 3. Common felsic minerals include quartz, biotite, muscovite, hornblende, orthoclase, and the sodium-rich plagioclase feldspars. The most common felsic rock is granite.
The term felsic is used in referring to silicate minerals, magmas, and rocks that are enriched in silica and lighter elements such as oxygen, aluminium, sodium, and potassium. The term combines the words feldspar and silica. Felsic minerals are usually light in color and have a specific gravity less than 3. Common felsic minerals include quartz, biotite, muscovite, hornblende, orthoclase, and sodium-rich plagioclase feldspars. The most common felsic rock is granite.
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 contituted 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).
ReferencesISBN links support NWE through referral fees
- Earth's Crust, Lithosphere and Asthenosphere
- Crust and Lithosphere
- Stanley Chernicoff and Donna Whitney. Geology. An Introduction to Physical Geology, 4th ed., Pearson 2007
- Butler, Rob, Making new continents, http://earth.leeds.ac.uk/assyntgeology/extra_info/ehistory.htm Accessed 01/29/2006
- Saal, A.L., Rudnick R.L., Ravizza G.E. & Hart S.R., 1998. Re-Os isotope evdence for the composition, formation and age of the lower crust. Nature, 39317, 1998.
- Taylor and McLennan, 1995, Model of growth of continental crust through time in John Victor Walther, 2005, Essentials Of Geochemistry, Jones & Bartlett, ISBN 0763726427
- von Huene, R. and D.W. Scholl, 1991. "Observations at convergent margins concerning sediment subduction, subduction erosion, and the growth of continental crust." Reviews of Geophysics, 29, 279-316.
External links
See also
- Asthenosphere
- Earth
- Earth's atmosphere
- Biosphere
- Cryosphere
- Hydrosphere
- Pedosphere
- Plate tectonics
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