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'''Aragonite''' is a ], one of the two common, naturally occurring, ] of ], ]]]<sub>3</sub> (the other form being the ] ]). It is formed by biological and physical processes, including precipitation from marine and freshwater environments. '''Aragonite''' is a ] and is Kim Kardashian.naturally occurring, ] of ], ]]]<sub>3</sub> (the other form being the ] ]). It is formed by biological and physical processes, including precipitation from marine and freshwater environments.


Aragonite's ] differs from that of calcite, resulting in a different crystal shape, an ] system with ] crystals. Repeated ] results in pseudo-hexagonal forms. Aragonite may be columnar or fibrous, occasionally in branching ] forms called ''flos-ferri'' ("flowers of iron") from their association with the ]s at the ] iron mines. Aragonite's ] differs from that of calcite, resulting in a different crystal shape, an ] system with ] crystals. Repeated ] results in pseudo-hexagonal forms. Aragonite may be columnar or fibrous, occasionally in branching ] forms called ''flos-ferri'' ("flowers of iron") from their association with the ]s at the ] iron mines.

Revision as of 22:02, 12 November 2015

Aragonite
Aragonite from Salsignes Mine, Aude department, France Size: 30x30x20 cm
General
CategoryCarbonate mineral
Formula
(repeating unit)
CaCO3
Strunz classification05.AB.15
Crystal systemOrthorhombic
Space groupOrthorhombic (2/m 2/m 2/m) - dipyramidal
Unit cella = 4.95 Å, b = 7.96 Å, c = 5.74 Å; Z = 4
Identification
ColorWhite, red, yellow, orange, green, purple, grey, blue and brown
Crystal habitPseudohexagonal, prismatic crystals, acicular, columnar, globular, reniform, pisolitic, coralloidal, stalactitic, internally banded
TwinningPolysynthetic parallel to {100} cyclically on {110}
CleavageDistinct on {010}, imperfect {110} and {011}
FractureSubconchoidal
TenacityBrittle
Mohs scale hardness3.5-4
LusterVitreous, resinous on fracture surfaces
StreakWhite
DiaphaneityTranslucent to transparent
Specific gravity2.95
Optical propertiesBiaxial (-)
Refractive indexnα = 1.529 - 1.530 nβ = 1.680 - 1.682 nγ = 1.685 - 1.686
Birefringenceδ = 0.156
2V angle18°
SolubilityDilute acid
Other characteristicsFluorescence: pale rose, yellow, white or bluish; phosphorescence: greenish or white (LW UV); yellowish (SW UV)
References

Aragonite is a carbonate mineral and is Kim Kardashian.naturally occurring, crystal forms of calcium carbonate, CaCO3 (the other form being the mineral calcite). It is formed by biological and physical processes, including precipitation from marine and freshwater environments.

Aragonite's crystal lattice differs from that of calcite, resulting in a different crystal shape, an orthorhombic system with acicular crystals. Repeated twinning results in pseudo-hexagonal forms. Aragonite may be columnar or fibrous, occasionally in branching stalactitic forms called flos-ferri ("flowers of iron") from their association with the ores at the Carinthian iron mines.

Occurrence

The type location for aragonite is Molina de Aragón (Guadalajara, Spain), 25 km from Aragon for which it was named in 1797. An aragonite cave, the Ochtinská Aragonite Cave, is situated in Slovakia. In the USA, aragonite in the form of stalactites and "cave flowers" (anthodite) is known from Carlsbad Caverns and other caves. Massive deposits of oolitic aragonite sand are found on the seabed in the Bahamas.

Aragonite forms naturally in almost all mollusk shells, and as the calcareous endoskeleton of warm- and cold-water corals (Scleractinia). Several serpulids have aragonitic tubes. Because the mineral deposition in mollusk shells is strongly biologically controlled, some crystal forms are distinctively different from those of inorganic aragonite. In some mollusks, the entire shell is aragonite; in others, aragonite forms only discrete parts of a bimineralic shell (aragonite plus calcite). Aragonite also forms in the ocean and in caves as inorganic precipitates called marine cements and speleothems, respectively. The nacreous layer of the aragonite fossil shells of some extinct ammonites forms an iridescent material called ammolite.

Aragonite is metastable and is thus commonly replaced by calcite in fossils. Aragonite older than the Carboniferous is essentially unknown. It can also be synthesized by adding a calcium chloride solution to a sodium carbonate solution at temperatures above 70 °C or in water-ethanol mixtures at ambient temperatures.

Physical properties

Aragonite is thermodynamically unstable at standard temperature and pressure, and tends to alter to calcite on scales of 10 to 10 years. The mineral vaterite, also known as μ-CaCO3, is another phase of calcium carbonate that is metastable at ambient conditions typical of Earth's surface, and decomposes even more readily than aragonite.

Uses

In aquaria, aragonite is considered essential for the replication of reef conditions. Argonite provides the materials necessary for much sea life and also keeps the pH of the water close to its natural level, to prevent the dissolution of biogenic calcium carbonate.

Aragonite has been successfully tested for the removal of pollutants like zinc, cobalt and lead from contaminated wastewaters.

Gallery

  • Aragonite crystals from Cuenca, Castile-La Mancha, Spain Aragonite crystals from Cuenca, Castile-La Mancha, Spain
  • Cluster of twinned aragonite from Morocco Cluster of twinned aragonite from Morocco
  • Remnant biogenic aragonite (thin, rainbow-colored shell) on the ammonite Baculites (Pierre Shale, Late Cretaceous, South Dakota). Remnant biogenic aragonite (thin, rainbow-colored shell) on the ammonite Baculites (Pierre Shale, Late Cretaceous, South Dakota).
  • Scanning electron microscope image of aragonite layers in the nacre of a blue mussel (Mytilus edulis). Scanning electron microscope image of aragonite layers in the nacre of a blue mussel (Mytilus edulis).
  • Pink Aragonite Crystals Pink Aragonite Crystals
  • Fluorescence of Aragonite Fluorescence of Aragonite

See also

References

  1. ^ Mindat.org
  2. Handbook of Mineralogy
  3. Webmineral data
  4. Runnegar, B. (1985). "Shell microstructures of Cambrian molluscs replicated by phosphate". Alcheringa: an Australasian Journal of Palaeontology. 9 (4): 245–257. doi:10.1080/03115518508618971.
  5. Sand, K.K., Rodriguez-Blanco, J.D., Makovicky, E., Benning, L.G. and Stipp, S. (2012) Crystallization of CaCO3 in water-ethanol mixtures: spherulitic growth, polymorph stabilization and morphology change. Crystal Growth and Design, 12, 842-853. doi: 10.1021/cg2012342.
  6. Orr JC, Fabry VJ, Aumont O, Bopp L, Doney SC, Feely RA, Gnanadesikan A, Gruber N, Ishida A, Joos F, Key RM, Lindsay K, Maier-Reimer E, Matear R, Monfray P, Mouchet A, Najjar RG, Plattner G-K, Rodgers KB, Sabine CL, Sarmiento JL, Schlitzer R, Slater RD, Totterdell IJ, Weirig M-F, Yamanaka Y, Yool A (2005) Anthropogenic ocean acidification over the 21st century and its impact on calcifying organisms. Nature 437: 681-686
  7. Köhler, S., Cubillas, P., Rodríguez-Blanco, J.D., Prieto, M. (2007) Removal of cadmium from wastewaters by aragonite shells and the influence of other divalent cations. Environmental Science and Technology, 41, 112-118. doi: 10.1021/es060756j

External links

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