Zircon

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Zircon
Zircão.jpeg
Zircon crystal from Tocantins, Brazil (2×2 cm)
General
Category Nesosilicates
Formula
(repeating unit)
zirconium silicate (ZrSiO4)
Strunz classification 09.AD.30
Crystal symmetry Tetragonal ditetragonal dipyramidal
H-M symbol: (4/m 2/m 2/m)
Space group: I 41/amd
Unit cell a = 6.607(1) Å, c = 5.982(1) Å; Z=4
Identification
Color Reddish brown, yellow, green, blue, gray, colorless; in thin section, colorless to pale brown
Crystal habit tabular to prismatic crystals, irregular grains, massive
Crystal system Tetragonal
Twinning On {101}
Cleavage {110} and {111}
Fracture Conchoidal to uneven
Tenacity Brittle
Mohs scale hardness 7.5
Luster Vitreous to adamantine; greasy when metamict.
Streak White
Diaphaneity Transparent to opaque
Specific gravity 4.6–4.7
Optical properties Uniaxial (+)
Refractive index nω = 1.925–1.961
nε = 1.980–2.015, 1.75 when metamict
Birefringence δ = 0.047–0.055
Pleochroism Weak
Fusibility close to 2,550 °C depend on Hf,Th,U,H,etc... concentrations.
Solubility Insoluble
Other characteristics Fluorescent and radioactive, may form pleochroic halos
References [1][2][3][4]

Zircon (/ˈzɜːrkɒn/[5][6] or /ˈzɜːrkən/;[7] including hyacinth or yellow zircon) is a mineral belonging to the group of nesosilicates. Its chemical name is zirconium silicate and its corresponding chemical formula is ZrSiO4. A common empirical formula showing some of the range of substitution in zircon is (Zr1–y, REEy)(SiO4)1–x(OH)4x–y. Zircon forms in silicate melts with large proportions of high field strength incompatible elements. For example, hafnium is almost always present in quantities ranging from 1 to 4%. The crystal structure of zircon is tetragonal crystal system. The natural color of zircon varies between colorless, yellow-golden, red, brown, blue, and green. Colorless specimens that show gem quality are a popular substitute for diamond and are also known as "Matura diamond".

The name derives from the Persian zargun meaning golden-colored.[8] This word is corrupted into "jargoon", a term applied to light-colored zircons. The English word "zircon" is derived from "Zirkon," which is the German adaptation of this word.[9] Red zircon is called "hyacinth", from the flower hyacinthus, whose name is of Ancient Greek origin.

Properties

Optical microscope photograph; the length of the crystal is about 250 µm.

Zircon is ubiquitous in the crust of Earth. It occurs as a common accessory mineral in igneous rocks (as primary crystallization products), in metamorphic rocks and as detrital grains in sedimentary rocks.[1] Large zircon crystals are rare. Their average size in granite rocks is about 0.1–0.3 mm, but they can also grow to sizes of several centimeters, especially in mafic pegmatites and carbonatites.[1] Zircon is also very resistant to heat and corrosion.

Because of their uranium and thorium content, some zircons undergo metamictization. Connected to internal radiation damage, these processes partially disrupt the crystal structure and partly explain the highly variable properties of zircon. As zircon becomes more and more modified by internal radiation damage, the density decreases, the crystal structure is compromised, and the color changes.

Zircon occurs in many colors, including reddish brown, yellow, green, blue, gray and colorless.[1] The color of zircons can sometimes be changed by heat treatment. Common brown zircons can be transformed into colorless and blue zircons by heating to 800 to 1000 °C.[10] In geological settings, the development of pink, red, and purple zircon occurs after hundreds of millions of years, if the crystal has sufficient trace elements to produce color centers. Color in this red or pink series is annealed in geological conditions above the temperature about 350 °C.[citation needed]

Applications

Sand-sized grains of zircon

Zircon is mainly consumed as an opacifier, and has been known to be used in the decorative ceramics industry.[11] It is also the principal precursor not only to metallic zirconium, although this application is small, but also to all compounds of zirconium including zirconium dioxide (ZrO2), one of the most refractory materials known.

Occurrence

World production trend of zirconium mineral concentrates

Zircon is a common accessory to trace mineral constituent of most granite and felsic igneous rocks. Due to its hardness, durability and chemical inertness, zircon persists in sedimentary deposits and is a common constituent of most sands. Zircon is rare within mafic rocks and very rare within ultramafic rocks aside from a group of ultrapotassic intrusive rocks such as kimberlites, carbonatites, and lamprophyre, where zircon can occasionally be found as a trace mineral owing to the unusual magma genesis of these rocks.

Zircon forms economic concentrations within heavy mineral sands ore deposits, within certain pegmatites, and within some rare alkaline volcanic rocks, for example the Toongi Trachyte, Dubbo, New South Wales Australia[12] in association with the zirconium-hafnium minerals eudialyte and armstrongite.

Australia leads the world in zircon mining, producing 37% of the world total and accounting for 40% of world EDR (economic demonstrated resources) for the mineral.[citation needed]

Radiometric dating

Zircon has played an important role during the evolution of radiometric dating. Zircons contain trace amounts of uranium and thorium (from 10 ppm up to 1 wt%) and can be dated using several modern analytical techniques. Because zircons can survive geologic processes like erosion, transport, even high-grade metamorphism, they contain a rich and varied record of geological processes. Currently, zircons are typically dated by uranium-lead (U-Pb), fission-track, and U+Th/He techniques.

Zircons from Jack Hills in the Narryer Gneiss Terrane, Yilgarn Craton, Western Australia, have yielded U-Pb ages up to 4.404 billion years,[13] interpreted to be the age of crystallization, making them the oldest minerals so far dated on Earth. In addition, the oxygen isotopic compositions of some of these zircons have been interpreted to indicate that more than 4.4 billion years ago there was already water on the surface of the Earth.[13][14] This interpretation is supported by additional trace element data,[15][16] but is also the subject of debate.[17][18] In 2015, "remains of biotic life" were found in 4.1 billion-year-old rocks in the Jack Hills of Western Australia.[19][20] According to one of the researchers, "If life arose relatively quickly on Earth ... then it could be common in the universe."[19]

Gallery

Similar minerals

Hafnon (HfSiO4), xenotime (YPO4), béhierite, schiavinatoite ((Ta,Nb)BO4), thorite (ThSiO4), and coffinite (USiO4) all share the same crystal structure (VIIIX IVY O4) as zircon.

See also

References

  1. 1.0 1.1 1.2 1.3 Anthony, John W.; Bideaux, Richard A.; Bladh, Kenneth W. and Nichols, Monte C. (ed.). "Zircon". Handbook of Mineralogy (PDF). II (Silica, Silicates). Chantilly, VA, US: Mineralogical Society of America. ISBN 0962209716. <templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  2. Zircon. Mindat
  3. Zircon. Webmineral
  4. Hurlbut, Cornelius S.; Klein, Cornelis, 1985, Manual of Mineralogy, 20th ed., ISBN 0-471-80580-7
  5. http://www.collinsdictionary.com/dictionary/english/zircon
  6. "zircon". The American Heritage Dictionary of the English Language (5th ed.). Boston: Houghton Mifflin Harcourt. 2014. Retrieved 14 November 2019.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  7. http://www.merriam-webster.com/dictionary/zircon
  8. Stwertka, Albert (1996). A Guide to the Elements. Oxford University Press. pp. 117–119. ISBN 0-19-508083-1.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  9. Harper, Douglas. "zircon". Online Etymology Dictionary.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  10. Zircon on Gemdat
  11. Ralph Nielsen "Zirconium and Zirconium Compounds" in Ullmann's Encyclopedia of Industrial Chemistry, 2005, Wiley-VCH, Weinheim. doi:10.1002/14356007.a28_543
  12. Staff (June 2007). "Dubbo Zirconia Project Fact Sheet June 2007" (PDF). Alkane Resources Limited. Retrieved 2007-09-10.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  13. 13.0 13.1 Lua error in Module:Citation/CS1/Identifiers at line 47: attempt to index field 'wikibase' (a nil value).
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  15. Lua error in Module:Citation/CS1/Identifiers at line 47: attempt to index field 'wikibase' (a nil value).
  16. "Ancient mineral shows early Earth climate tough on continents". Physorg.com. June 13, 2008.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  17. Lua error in Module:Citation/CS1/Identifiers at line 47: attempt to index field 'wikibase' (a nil value).
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  19. 19.0 19.1 Borenstein, Seth (19 October 2015). "Hints of life on what was thought to be desolate early Earth". Excite. Yonkers, NY: Mindspark Interactive Network. Associated Press. Retrieved 2015-10-20.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
  20. Lua error in Module:Citation/CS1/Identifiers at line 47: attempt to index field 'wikibase' (a nil value). Early edition, published online before print.

External links

Further reading

  • John M. Hanchar & Paul W. O. Hoskin (eds.) (2003). "Zircon". Reviews in Mineralogy and Geochemistry, 53. ISBN 0-939950-65-0 (Mineralogical Society of America monograph).
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  • Hermann Köhler (1970). "Die Änderung der Zirkonmorphologie mit dem Differentiationsgrad eines Granits". Neues Jahrbuch Mineralogische Monatshefte. 9: 405–420.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
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  • Gunnar Ries (2001). "Zirkon als akzessorisches Mineral". Aufschluss. 52: 381–383.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
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