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      Tourmaline Value, Price, and Jewelry Information

      Tri-Color Tourmaline from Nigeria by Daniel Stair of customgemstones.com


      Tourmaline is one of our most popular gems. No other mineral comes in more colors and some of the combinations are in a class by themselves.

      Tourmaline Value

      Tourmaline is readily available, which keeps prices reasonable. It is not until you get into large sizes, or extremely rare colors, that the prices go over a few hundred dollars per carat. Most colors are fairly common but pure blues and reds are rare and color-change is exceptionally rare.

      You may also wish to visit?the following articles:

      The International Gem Society (IGS) has a list of businesses offering gemstone appraisal services.

      Tourmaline Value via Gem Price Guide

      Brazilian Cuprian (Paraíba) Tourmaline
      Carat Weight Low Average Good Great Superb
      0.20-0.99 -,000 / ct ,000-,000?/ ct ,850-,000?/ ct ,000-,000?/ ct ,000-,500?/ ct
      1.00-1.99 -,000 / ct ,000-,500?/ ct ,000-,000?/ ct ,000-,000?/ ct ,000-,000?/ ct
      2.00-2.99 -,000 / ct ,500-,500?/ ct ,000-,000?/ ct ,000-,000?/ ct ,000+?/ ct
      3.00-4.99 ,100-,500 / ct ,000-,000?/ ct ,000-,000?/ ct ,000-,000?/ ct ,000+?/ ct
      5.00+ ,000+?/ ct ,000+?/ ct ,000+?/ ct ,000+?/ ct ,000+?/ ct
      African Cuprian (Paraíba) Tourmaline
      Carat Weight Low Average Good Great Superb
      0.20-0.99 -,000?/ ct -,700?/ ct ,700-,500?/ ct ,000-,000?/ ct ,000-,500?/ ct
      1.00-2.99 -,450 / ct ,400-,500 / ct ,900-,000?/ ct ,500-,000?/ ct ,000-,000?/ ct
      3.00-4.99 -,800?/ ct ,550-,000?/ ct ,000-,500?/ ct ,000-,000?/ ct ,000-,000?/ ct
      5.00-9.99 -,500?/ ct ,000-,500?/ ct ,500-,000?/ ct ,000-,500?/ ct ,000-,000?/ ct
      10.00+ -,000?/ ct ,000-,500?/ ct ,500-,000?/ ct ,500-,500?/ ct ,000-,000?/ ct
      Fine Color Blue: B 5/4
      Indicolite .4 to 2 carats 2 to 10 plus carats
      Faceted to /ct to /ct
      Cabochons to /ct
      Fine Color Red: R, slpR 6/5
      Rubellite .5 to 1 carat 1 to 5 carats 5 carats plus
      Reds to /ct to /ct to /ct
      Pinks to /ct to /ct to /ct
      Fine Color Green: vstbG, BG, vslbG 5/4
      Chrome .5 to 1 carat 1 to 5 carats
      to /ct to /ct
      Other greens .5 to 2 carats 2 to 5 carats 5 carats plus
      to /ct to /ct to /ct
      Other Faceted Tourmaline .5 to 1 carat 1 to 5 carats 5 plus carats
      Fancy Colors: - Yellow - Orange (Top Color Orange: O 4/5) - Purple to /ct to /ct to /ct
      Watermelon to to /ct to /ct
      Other Multicolor to to /ct to /ct
      Cat’s Eye .5 to 1 carat 1 to 5 carats 5 plus carats
      to /ct to /ct to /ct
      Other Cabochons 1 to 5 carats 5 plus carats
      All colors to /ct to /ct

      Tourmaline Information

      Data Value
      Name Tourmaline
      Varieties Achroite, Chrome-Tourmaline, Dravite, Elbaite, Cuprian Elbaite, Paraíba Tourmaline, Fluor-buergerite, Indicolite, Liddicoatite, Rossmanite, Rubellite, Schorl, Uvite, Verdelite, Watermelon Tourmaline
      Colors All
      Crystallography Hexagonal (trigonal). Crystals common, usually long prismatic, heavily striated along length, various terminations; also equant, acicular.
      Refractive Index Varies by species, 1.603–1.820.
      Luster Vitreous.
      Polish Luster Vitreous.
      Fracture Luster Vitreous.
      Hardness 7-7.5
      Wearability Very Good
      Fracture Conchoidal, Uneven
      Specific Gravity 2.82-3.9. See table below.
      Birefringence Varies by species, 0.006–0.080, but usually around 0.020. Also note that the absorption of the O ray is sometimes strong enough to plane polarize light. At times it is totally absorbed and will show a single line in a refractometer.
      Cleavage None
      Dispersion 0.017
      Stone Sizes To very large
      Heat Sensitivity Some
      Luminescence Tourmalines are usually weak to inert in UV light. Pink stones: inert to very weak red to violet. Other colors, generally inert. Stones may be chalky blue to strong blue in SW (Newry, Maine). Pink gems from Brazil may be blue or lavender in SW, and gems from Tanzania (golden yellow, brown, and green stones) are strong yellow in SW.
      Luminescence Present Yes
      Luminescence Type Fluorescent, UV-Short
      Enhancements Heating, irradiation, acid treatment (bleaching), plastic or epoxy fillers.
      Typical Treatments Bleaching, Fracture/Cavity Filling, Heat Treatment, Irradiation
      Special Care Instructions Multicolored gems are often weak where the colors meet
      Transparency Transparent to opaque.
      Absorption Spectrum Not diagnostic; usually weak spectra observed. Blue and Green, near total absorption to 640 nm, strong narrow band at 498 nm. Red and Pink, broad band in green, lines at 458 and 451 nm.
      Phenomena Chatoyancy, color change. Iridescence, schiller (buergerite).
      Identifying Characteristics All, may contain hollow tubes, irregular threadlike liquid or gas inclusions, often in mesh like pattern. Cat?s Eye, dense concentration of hollow tubes.
      Birthstone October.

      Moderate to strong, may be two shades of body color or two separate colors. Single colors are always stronger down the C axis. See table under “Pleochroism” below.


      Uniaxial (-).

      Optic Sign Uniaxial -

      Comments by Donald Clark, CSM IMG

      Tourmaline is a group of minerals that all have the same crystal structure, but vary in chemical make up, color, and other properties. Nine species are all you will find in older reference books. Fourteen are now known and there are still others being considered for new species.

      Elbaite is the most common gem species, followed by schorl, dravite, and uvite. While rare, other species occasionally show up as gems as well. The properties of some species are so close that it is often difficult to make a distinction. For gemological purposes, it is sufficient to distinguish them all as tourmaline.

      In most gemological literature, you will only find a limited range of properties for tourmaline. This is done to simplify the identification process. However, it has the significant disadvantage in that you cannot identify a gem that is not in your reference material.

      Here is a complete range of properties for tourmaline:

      Source Hardhigh Hardlow SGhigh SGlow RIhigh RIlow Birefringence O Dispersion
      Natural &Lab created 7.5 7 3.90 2.82 1.820 1.603 .006 – .080 U – .017

      Here is a breakdown of the properties by species. The ones most commonly used as gems are listed in bold italic type. Note that all tourmaline has the same hardness, optic sign, and dispersion.

      Species SG high SG low RI high RI low Birefringence
      Buergerite 3.32 3.29 1.735 1.655 .065 – .080
      Chromdravite 3.41 3.39 1.778 1.772 .006
      Dravite 3.90 3.10 1.675 1.604 .016 – .032
      Elbaite 3.10 2.82 1.648 1.603 .013 ? .024
      Feruvite ~3.20 ~3.20 1.687 1.669 .018
      Foitite ~3.17 ~3.17 1.664 1.642 .022
      Liddicoatite ~3.02 ~3.02 1.737 1.621 .016
      Magnesiofoitite 2.96? 2.96? 1.650 1.624 .026
      Olenite ~3.01 ~3.01 1.654 1.635 .019
      Povondraite 3.33 3.18 1.820 1.734 .057
      Rossmanite ~3 ~3 1.645 1.642 .021
      Schorl 3.24 2.82 1.698 1.620 .016 – .046
      Tsiliaisite ~3.13 ~3.13 1.648 1.622 .023 – .028
      Uvite 3.01 3.09 1.660 1.612 .017 – .021
      Vanadiumdravite ~3.32 ~3.32 1.786 1.729 .057


      • Buergerite: Dark brown to black crystals with bronze colored iridescence. Rare, found primarily in San Luis Potosi, Mexico.
      • Chromdravite:?Green to black. Rare, primary source is central Karelia, Russia.
      • Dravite: Brown, black, greenish-black, dark red, and pale bluish-green to emerald green. Many sources.
      • Elbaite: Most common tourmaline, with many sources. Comes in all colors.
      • Tsiliaisite is a manganese-rich variety of Elbaite.
      • Feruvite: Dark brown to black. Rare, primary source Cuvier Island, New Zealand.
      • Foitite: Bluish-black, uncommon found primarily in California.
      • Liddicoatite: Known for its complex multi-colored zoning. Uncommon, found primarily in Madagascar.
      • Magnesiofoitite: Greenish brown, bluish gray. Rare, primary Honshu, Japan.
      • Olenite: Pale pink. Rare, found primarily in Kola Peninsula, Russia.
      • Povondraite: Also called Ferridravite. Black, nearly opaque. Rare, primary source Cochabamba, Bolivia.
      • Rossmanite: Pink to tan. Rare, primary source Strázek Moldanubicum, Czech Republic.
      • Schorl: Black, brown, blue or blue green. Common, many sources.
      • Uvite: Black, green, brown, occasionally other colors. Common, several sources.
      • Vanadiumdravite: Dark green to black.


      • Heating, lightens blue and green stones, common, stable, undetectable. Can produce other colors, rare, stable, undetectable
      • Irradiation produces red, deep pink, yellow, orange colors, and parti-colors, common, may fade on heating or prolonged exposure to bright light, undetectable
      • Acid treatment, bleaches dark inclusions, primarily used on cats eyes, occasional, stable, undetectable
      • Plastic or Epoxy fillers, seals hollow tubes to prevent dirt from entering, occasional, stable, detect with hot point, magnification

      Variety and Trade Names

      • Achorite, colorless tourmaline
      • Canary, bright yellow tourmaline from Malawi
      • Cat’s Eye ? chatoyant tourmaline in a variety of colors
      • Chrome tourmaline, colored by chromium, exhibits intense green coloring. Check with Chelsea filter; red or pink indicates chromium content.
      • Color-Change ? distinct color change from daylight to incandescent light
      • Dravite, often applied to yellow and brown tourmaline even if not of the dravite species
      • Indicolite, blue tourmaline
      • Paraíba, intense colors caused by copper. (See Paraíba for more detail.)
      • Parti-Colored, having more than one color
      • Rubellite, loosely applied to gems in the pink to red range, often strongly purplish, orangish, or brownish
      • Verdelite, green tourmaline
      • Watermellon, pink with a green border


      • Brazilian emerald, green tourmaline
      • Brazilian sapphire, blue tourmaline
      • Ceylonese peridot, green tourmaline

      Comments by Dr. Joel Arem

      Tourmaline is a name applied to a family of related minerals, all having essentially the same crystal structure but varying widely in chemical composition, color, and properties. The nomenclature of tourmalines is complex because there are nine distinct mineral species in the group, as well as a wide variety of names that have been applied to specific color varieties. Tourmaline crystals are abundant worldwide, are sometimes large and well terminated, and often are cuttable.

      Tourmaline is one of the most popular of gems among collectors because it is usually inexpensive and occurs in a vast array of colors. The colors are due to an almost unbelievable complexity of chemical composition, to which John Ruskin‘s quip (1890) still applies: “the chemistry of [tourmaline] is more like a mediaeval doctor‘s prescription than the making of a respectable mineral”. Schorl, the black tourmaline, was used in mourning jewelry during the Victorian era, a practice little used today. Such material is seldom seen in jewelry at all in modern times. Tourmaline crystals are often cracked and flawed, which puts a premium on clean gemstones, especially those over about 10 carats in size. The only acceptable types of inclusions are the tubes that, when densely packed, produce a chatoyancy and catseye effect in cabochons. The eye in catseye tourmalines can be very strong, set against a richly colored gem. Tourmalines occur in a wide enough range of colors to satisfy just about any fashion requirement. There is no cleavage, and the slight brittleness of the material is not a major problem in wear. Small tourmalines (under 5 carats) are fairly easy to obtain at modest cost. Very large, fine-colored stones are both rare and costly, however.


      • Dravite: NaMg3Al6B3Si6O27(OH)3(OH,F)
      • Uvite: CaMg3(Al5Mg)B3Si6O27(OH)3(OH,F)
      • Schorl:Na(Fe,Mn)3Al6B3Si6O27(OH)3(OH,F)
      • Elbaite: Na(Li,Al) 3Al6B3Si6O27 (OH)3(OH,F)
      • Liddicoatite: Ca(Li,Al) 3Al6B3Si6O27(OH)3(OH,F)
      • Buergerite: NaFe3Al6B3Si6O30F
      • Chromdravite: NaMg3Cr6(BO3)3Si6,O18(OH)4
      • Tsililisite: Na(Mn,Al)3Al6(BO3)3Si6O18(O,OH,F)4
      • Ferridravite: (Na,K)(Mg,Fe+2)3Fe6+3(BO3)3Si6O18(O,OH)4


      Tourmalines come in all colors from colorless to black. Crystals are frequently color zoned along their length (bicolor, tricolor, particolor, and so forth) or concentrically zoned (watermelon tourmaline). Dravite is usually black to brown, may be colorless. Uvite is black, brown, and green, usually dark colors. Schorl tends to be black, blue, or blue-green. Buergerite is always dark brown to black, with a bronze-colored iridescence or Schiller under the crystal surface. The gem tourmaline, elhaite, occurs in a huge range of colors and shades.

      Liddicoatite is a relatively newly described species that was for years considered to be elbaite (from Madagascar) but when investigated turned out to be a calcium analogy of elbaite. Chromdravize, as might be expected, is an intense dark green color from the USSR. Gemmy, bright yellow manganiferous elbaite, close to tsilaisite in composition, has been found in Zambia.

      Certain color varieties of tourmaline have widely used names. Achroite is colorless tourmaline; rubellite refers to pink and red shades, and blue tourmaline is generally referred to as indicolite.


      The absorption of the 0-ray in tourmaline is strong enough to plane-polarize light. Sometimes this ray is totally absorbed and a tourmaline may appear to be isotropic because it shows only one absorption edge on the refractometer. Pleochroism is especially strong in dark green and brown tourmalines. Pale colors have weak dichroism. Light traveling along the length of a prismatic crystal always shows a deeper color than at right angles to this direction.

      Typical Pleochroic Colors for Tourmaline Species

      Specimen o e
      Buergerite yellow-brown very pale yellow
      Dravite yellow colorless
      orange-yellow pale yellow
      dark green olive green
      bluis green yellowish green
      medium to dark brown yellowish to light brown
      Elbaite medium pink light pink or colorless
      green yellow to olive green
      blue-green light green to purplish
      blue colorless to pink to purple
      Ferridravite dark brown to dark olive gree light olive green to light brown

      like elbaite but type specimen is dark brown to light brown

      Schorl blue to greenish blue yellow, yellow-brown, pale violet or colorless
      green-brown rose-yellow
      dark brown yellow, light brown, or yellowish blue-green
      Uvite (like dravite)
      Chromdravite dark green yellow-green
      Tsilaisite yellow-brown intense yellow
      Source: From R.V. Dietrich, The Tourmaline Group, Van Nostrand Reinhold, New York, 1985, p.144; copyright 1985 by Van Nostrand


      Differentiated according to tourmaline color (approximate values):

      • Pink and red: 3.01-3.06.
      • Pale green: 3.05.
      • Brown: 3.06.
      • Dark green: 3.08-3.11.
      • Blue: 3.05-3.11.
      • Yellow-orange: 3.10.
      • Black: 3.11—3. 12.


      Tourmaline displays elongated or threadlike cavities, sometimes with two-phase inclusions. The tubes usually run parallel to the length of crystals and, when densely packed, may produce a chatoyant effect that yields catseye gems in cabochons. There may be gas-filled fractures in red tourmalines; also flat films that reflect light and appear black. Also: hornblende; mica crystals; apatite; zircon.




      Tourmaline occurs in crystalline schists; in granites and granite pegmatites (especially elbaite); in gneiss, marbles and other contact metamorphic rocks (especially dravite, uvite). Tourmaline is also found as inclusions in quartz.

      • Sri Lanka: Yellow and brown crystals; this is the original source of gem tourmaline, now known to be uvite rather than dravite.
      • Burma: The Mogok area produces red tourmalines, also some pink elbaites and brown uvites.
      • Mursinka, Urals, USSR: also at Nerchinsk, blue, red, and violet crystals in a decomposed granite.
      • Central Karelia, USSR: chromdravite (dark green).
      • Brazil: In Minas Gerais and other states, usually elbaite, in a huge variety of colors and sometimes large crystals; also bicolor, catseye,watermelon tourmaline. Especially noteworthy are the immense cranberry-red crystals from the Jonas Lima Mine and the superb dark red material from Ouro Fino.
      • Kashmir, India: Green elbaite crystals (refractive indices 1.643, 1.622; S.G. 3.05, birefringence 0.021).
      • Nuristan, Afghanistan: superb gem elbaite in shades of blue, pink, green, even emerald green.
      • Usakos, Namibia: Fine elbaite of rich green color (chrome tourmaline).
      • Klein Spitzkopje, Otavi, Namibia: Tourmaline in many shades of green and other colors (elbaite).
      • Zimbabwe: In the Somabula Forest area, fine elbaite.
      • Mozambique: At Alta Ligonha, pale-colored elbaite in various shades; bicolors.
      • Madagascar: Liddicoatite (previously thought to be elbaite) in a huge range of colors, shades; crystals often concentrically zoned with many color zones, triangular in outline; many crystals very large. Also fine rubellite.
      • Tanzania: Elbaite containing Cr and V, resulting in rich green shades.
      • Kenya: Fine, deep red and other colors; the red is dravite; (also yellow shades).






















      • Glenbuchat, Aberdeenshire, Scotland: color-zoned elbaite up to several cm, suitable for cutting.
      • California: Elbaite in abundance at Pala and other localities, in both fine crystals and gemmy material. The pink elbaite from here is a unique pastel shade.
      • Maine: At Newry, huge deposit of fine elbaite, with exquisite gem material in green, blue-green, blue, and pink to red colors.
      • Connecticut: At Haddam, elbaite in small but fine crystals, color-zoned.
      • Mexico: Buergerite occurs in rhyolite at San Luis Potosi.
      • New York: New Jersey: At Franklin, and Hamburg, New Jersey, and at Gouverneur and DeKaIb, New York, uvite crystals, some with gem potential. This material had?always been regarded as dravite.
      • Zambia: At Chipata, dark red crystals similar to Kenyan dravite. lndices 1.624—1.654; birefringence = 0.030; S.G. = 3.03-3.07 (average 3.05). Also tsilaisite, gemmy yellow material with MnO up to 9.2%, very rare.

      There are many other tourmaline localities, but the above are the major gem-producing ones.

      Stone Sizes

      Tourmalines weighing hundreds of carats have been cut out of material from various localities. Brazil and Mozambique produce some of the largest stones, but Maine and California crystals of very large size have been discovered. Most larger museums have fine tourmaline collections and display very large gems.

      A representative collection of tourmaline colors would have to encompass well over 100 stones.

      • ?Smithsonian Institution (Washington, D.C): 246 (pink, faceted egg, California); 116.2, 100 (pink, California); 172.7, 124.8 (champagne color, Mozambique); 122.9 (green, Mozambique); 117, 110 (green, Brazil); 110.8 (pink, USSR); 75 (rose-red. Brazil); 62.4 (pink, Brazil); 18.4 (pink, Maine); 103.8 (rose, Mozambique); 60 (blue-green, Brazil); 41.6 (brown, Sri Lanka); 23.5 (pale brown, Brazil); 17.9 (green, South Africa); 17.7 (yellow-green, Elba, Italy).
      • ?Private Collection: 258.08 (green catseye); 256 (green, Maine— very large for locality).


      Tourmaline is from the Singhalese word turamali, meaning mixed-colored stones because tourmalines were often confused with other gems. Dravite is named after the Carinthian district of Drave, Austria. Schorl is an old German mining term for unwanted minerals associated with ore. Elbaite is after the Isle of Elba, Italy. Buergerite is named after Professor Martin J. Buerger, crystallographer and well-known research scientist. Liddicoatite is named after Richard T. Liddicoat, director of the Gemological Institute of America. Chromdravite is named for its composition. Uvite is named after the Sri Lankan locality.