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Anhydrite is not a common mineral, as it easily alters to the much more common mineral Gypsum from the addition of water into its chemical structure. Anhydrite and Gypsum are chemically similar, except Gypsum has the addition of water. In fact, the name of Anhydrite is derived from " An" and " Hydra" - meaning "without water" - in reference to its similarity to Gypsum but the fact that it lacks water. Some specimens only partly alter to Gypsum, leaving one part Anhydrite and the other part Gypsum. Many deposits that once contained much Anhydrite now contain an abundance of Gypsum which was formed by the alteration of the Anhydrite. Anhydrite also exists as a relic of the past in several traprock occurrences, where the Anydrite dissolves and leaves a hollow cast around its original form. Epimorphs of Quartz and Prehnite over Anhydrite frequently form at certain localities, with the original Anhydrite totally replaced or dissolved. Anhydrite sometimes occurs in arid regions, forming from the dehydration of Gypsum. Fine but usually small crystals may come from the rock area above salt domes, where the domes absorb all underground water and prevent it from entering the structure of the Anhydrite, which would otherwise cause it to alter to Gypsum. Anhydrite specimens in a collection may also alter to Gypsum if kept in moist conditions over a prolonged period of time. |
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Chemical Formula |
CaSO4 |
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Composition |
Calcium sulfate |
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Color |
Colorless, white, yellow, gray, blue, orange-red, red, pink, purple. |
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Streak |
White to light gray |
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Hardness |
3 - 3.5 |
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Crystal System |
Orthorhombic |
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Crystal Forms
and Aggregates |
Individual crystals, which are tabular and prismatic, are uncommon. Often fibrous, in parallel veins that break off into cleavage fragments, and as fan-like groupings. Also grainy, massive, nodular, as rectangular cleavage fragments, and as easily cleavable crystal groupings. |
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Transparency |
Transparent to translucent |
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Specific Gravity |
2.9 - 3.0 |
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Luster |
Vitreous to pearly |
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Cleavage |
2,3 - forming a cube |
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Fracture |
Uneven to splintery |
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Tenacity |
Brittle |
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Other ID Marks |
Many specimens are fluorescent. |
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Complex Tests |
Specimens that are not fluorescent may become fluorescent after heating. |
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In Group |
Sulfates; Anhydrous Sulfates |
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Striking Features |
Cleavage properties, crystal habits, and low specific gravity. |
| Environment |
In sedimentary rock layers, in salt domes, and in igneous traprock.
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| Rock Type |
Igneous, Sedimentary |
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Popularity (1-4)
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2 |
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Prevalence (1-3)
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3 |
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Demand (1-3) |
1 |
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Anhydrite is used for the production of sulfuric acid and as a filler in paper. Good specimens of this mineral are rare and are desirable to collectors.
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European occurrences include Altaussee, Styria, Austria; Leopoldshall, Stassfurt, Germany; and the Campiano Mine in Montieri, Tuscany, Italy. An interesting and famous locality of Anhydrite is the Simpleton Tunnel in Wallis, Switzerland, where it was found in white and lilac crystals during the construction of a railroad tunnel.
At Rio Grande Do Sul, Brazil, very large Quartz pseudomorphs after Anhydrite were found in long and flattened crystals. Some of the best Anhydrite on the mineral market is the light blue dense fibrous veins, some quite large in size, from the mines at Naica, Chihuahua, Mexico. In Canada, Anhydrite comes from Faraday in the Bancroft District, Hastings Co., Ontario.
In the U.S., Quartz, Amethyst and Prehnite pseudomorphs, as well as empty Anydrite casts, are plentiful at Paterson and Prospect Park, Passaic Co., New Jersey. Intact specimens, partially altered to white Gypsum, have also been found nearby at the Braen's in Haledon, Passaic Co., New Jersey. Other significant Anhydrite occurrences are Balmat, Essex Co., New York; Isle Royale, Houghton Co., Michigan; Ajo, Pima Co., Arizona; Bisbee, Cochise Co., Arizona; the Carlsbad District of Eddy Co., New Mexico; Death Valley, Inyo Co., California; and the salt domes of southern Louisiana.
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