- Skarn
Skarn is a
metamorphic rock that is usually variably colored green or red, occasionally grey, black, brown or white.It usually forms by chemical
metasomatism of rocks duringmetamorphism and in the contact zone ofmagma tic intrusions likegranite s withcarbonate -rich rocks such aslimestone ordolostone .
Skarns in the igneous environment are associated withhornfels ,marble hornfels and wider zones ofcalc-silicate rocks.Petrology and types
Skarns are in their broadest sense formed by mass and chemical transport and reactions between adjacent lithologies. They need not be igneous in origin; two adjacent sedimentary layers such as a
banded iron formation and alimestone may react to exchange metals and fluids during metamorphism, creating a skarn.However, the widest use of the word is in describing the metasomatised zones of wall rock adjacent to
granite s. Skarns which are created by reaction between metamorphic-sedimentary layers are also known as chemical skarns or skarnoids. Skarns must also be distinguished from calc-silicatehornfels , usually by field relationships.Skarns of igneous origin are classified as "exoskarns" or "endoskarns". Exoskarns occur at and outside the granite which produced them, and are alterations of wall rocks. Endoskarns, including
greisen s form within the granite mass itself, usually late in the intrusive emplacement and consist of cross-cuttingstockwork s, cooling joints and around the margins and uppermost sections of the granite itself.Typical skarn
mineral s includepyroxene ,garnet ,idocrase ,wollastonite ,actinolite ,magnetite orhematite , andepidote . Because skarns are formed from incompatible-element rich, siliceous aqueous fluids a variety of uncommon mineral types are found in the skarn environment, such as:tourmaline ,topaz ,beryl ,corundum ,fluorite ,apatite ,barite ,strontianite ,tantalite ,anglesite , and others. Often,feldspathoid s and rare calc-silicates such asscapolite are found in more marginal areas.Formation
Skarns are a class of
calc-silicate rocks and are intimately associated withgranite intrusions, usually of sedimentary-metamorphic origin (S-type). Skarns are rarely seen with other types of granites, because of the fluid chemistry and crystallization behaviour of M-type (mantle origin) and I-type (igneous-metamorphic origin) granites. S-type granites are more prone to generating late-stage fluid rich insilica , incompatible elements andhalides because they are generally more potassic, oxidised and hydrous.Exoskarns are formed when fluids left over from the crystallisation of the granite are ejected from the mass at the waning stages of emplacement. When these fluids come into contact with reactive rocks, usually carbonates such as
limestone ordolostone , the fluids react with them, producing alteration (metasomatism).Because these fluids carry dissolved silica, iron, metals, halides and sulfur, the resulting rock is usually a highly complex combination of calcium, magnesium and carbonate rich minerals.
Uncommon types of skarns are formed in contact with sulfidic or carbonaceous rocks such as
black shale s,graphite shales,banded iron formation s and, occasionally,salt orevaporite s. Here, fluids react less via chemical exchange of ions, but because of theredox -oxidation potential of the wall rocks.Endoskarns are rarer, generally because the fluids created by a granite are usually formed in equilibrium with the minerals of the granite. Endoskarns seem to form in granites which lose earlier, more dilute hydrous fluids, thereby creating a less dilute last spurt of exsolved fluids. Boiling of the exsolved fluid is also considered important, as this creates a highly saline, incompatible-element-rich fluid phase and a highly volatile gas phase.
Ore deposits
Skarns are often hosts for
copper ,lead ,zinc ,iron ,gold ,molybdenum ,tin , andtungsten ore deposits. Examples of economic skarn deposits include:* Pine Creek mine (tungsten),
Inyo County, California , USAee also
*
Ore genesis
*Metamorphism
*Metasomatism
*Granite References
Einaudi M.T., & Burt D.M., 1982. "Introduction, terminology, classification and composition of skarn deposits." Economic Geology, 77, pp. 745-754.
Evans, A.M., 1993. "Ore Geology and Industrial Minerals: An Introduction" 3rd ed. Blackwell Publishing ISBN 0632029536
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