Thursday, June 21, 2012



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DOLOMITE [ Carbonates : Dolomite ]

  • May 30, 2012
  • Rino Safrizal
  • Share4

  • CaMg(CO3)2, calcium magnesium Carbonate
    In some cements, as a source of magnesium and as mineral specimens

    Dolomite, which is named for the French mineralogist Deodat de Dolomieu, is a common sedimentary rock-forming mineral that can be found in massive beds several hundred feet thick. They are found all over the world and are quite common in sedimentary rock sequences. These rocks are called appropriately enough dolomite or dolomitic limestone. Disputes have arisen as to how these dolomite beds formed and the debate has been called the "Dolomite Problem". Dolomite at present time, does not form on the surface of the earth; yet massive layers of dolomite can be found in ancient rocks. That is quite a problem for sedimentologists who see sandstones, shales and limestones formed t

    oday almost before their eyes. Why no dolomite? Well there are no good simple answers, but it appears that dolomite rock is one of the few sedimentary rocks that undergoes a significant mineralogical change after it is deposited. They are originally deposited as calcite/aragonite rich limestones, but during a process call diagenesis the calcite and/or aragonite is altered to dolomite. The process is not metamorphism, but something just short of that. Magnesium rich ground waters that have a significant amount of salinity are probably crucial and warm, tropical near ocean environments are probably the best source of dolomite formation.


    Dolomite in addition to the sedimentary beds is also found in metamorphic marbles, hydrothermal veins and replacement deposits. Except in its pink, curved crystal habit dolomite is hard to distinguish from its second cousin, calcite. But calcite is far more common and effervesces easily when acid is applied to it. But this is not the case with dolomite which only weakly bubbles with acid and only when the acid is warm or the dolomite is powdered. Dolomite is also slightly harder, denser and never forms scalenohedrons (calcite’s most typical habit).

    Dolomite differs from calcite, CaCO3, in the addition of magnesium ions to make the formula, CaMg(CO3)2. The magnesium ions are not the same size as calcium and the two ions seem incompatible in the same layer. In calcite the structure is composed of alternating layers of carbonate ions, CO3, and calcium ions. In dolomite, the magnesiums occupy one layer by themselves followed by a carbonate layer which is followed by an exclusively calcite layer and so forth. Why the alternating layers? It is probably the significant size difference between calcium and magnesium and it is more stable to group the differing sized ions into same sized layers. Other carbonate minerals that have this alternating layered structure belong to the Dolomite Group. Dolomite is the principle member of the Dolomite Group of minerals which includes ankerite, the only other somewhat common member.

    Dolomite forms rhombohedrons as its typical crystal habit. But for some reason, possibly twinning, some crystals curve into saddle-shaped crystals. These crystals represent a unique crystal habit that is well known as classical dolomite. Not all crystals of dolomite are curved and some impressive specimens show well formed, sharp rhombohedrons. The luster of dolomite is unique as well and is probably the best illustration of a pearly luster. The pearl-like effect is best seen on the curved crystals as a sheen of light can sweep across the curved surface. Dolomite can be several different colours, but colourless and white are very common. However it is dolomite’s pink colour that sets another unique characteristic for dolomite. Crystals of dolomite are well known for their typical beautiful pink colour, pearly luster and unusual crystal habit and it is these clusters that make very attractive specimens.

    Physical Characteristics

    Colour : often pink or pinkish and can be colourless, white, yellow, gray or even brown or black when iron is present in the crystal
    Luster : pearly to vitreous to dull
    Transparency : crystals are transparent to translucent
    Crystal System : trigonal; bar 3
    Crystal Habits : include saddle shaped rhombohedral twins and simple rhombs some with slightly curved faces, also prismatic, massive, granular and rock forming. Never found in scalenohedrons
    Cleavage : perfect in three directions forming rhombohedrons
    Fracture : conchoidal
    Hardness : 3.5 - 4
    Specific Gravity : 2.86 (average)
    Streak : white
    Other : Unlike calcite, effervesces weakly with warm acid or when first powdered with cold HCl
    Associated Minerals : include calcite, sulfide or minerals, fluorite, barite, quartz and occasionally with gold
    Major Occurrences : include many localities throughout the world, but well known from sites in Midwestern quarries of the USA; Ontario, Canada; Switzerland; Pamplona, Spain and in Mexico
    Best Indicators : typical pink colour, crystal habit, hardness, slow reaction to acid, density and luster

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