Showing posts with label kyanite. Show all posts
Showing posts with label kyanite. Show all posts

Sunday, December 18, 2016

Where to find iolite gemstones in nature

Group of faceted iolites set in a golden cross.
Iolites are some of the more attractive

gemstones, but few jewelers keep them on
hand because of relatively low-value and
rarity.
Finding iolite gemstones is not easy as there are not many guides. But if your region of exploration has the right metamorphic conditions, such as in the central Laramie Mountains and possibly the Copper Mountain in the Owl Creek Mountains, you might consider searching for the gemstone. The conditions for metamorphic iolite deposits are favorable in regions where aluminum-rich schists and gneisses are found and where the metamorphic triple point was reached to produce regional kyanite schists, andalusite schists and sillimanite schists. 

Cordierite mica schist, Palmer Canyon. Three faceted iolites
 sit on the edge of a large iolite porphyroblast. 
First check to see if there are metapelites (also referred to as pelitic schists). These schists are aluminum-rich schists with aluminum-rich minerals such as mica, garnet, staurolite, andalusite, kyanite, sillimanite, cordierite and/or corundum. Mica schists are typically strongly foliated and may contain some large porphyroblasts within the matrix. If you find any mention of cordierite in a geological description in an area, you may have chance of finding gem iolite in those rocks, as most geologists have little to no background in gemstones and iolite is often overlooked.

Cordierite (iolite) has a low-specific gravity (2.57 to 2.66) similar to quartz, so panning streams for this gem will not be effective. The gem has a good hardness of 7 to 7.5 on Moh's scale, making it slightly harder than window glass. Its crystal habit is typically massive to granular and may occur as pseudo-hexagonal crystals, and rarely as prismatic twins. Twinning planes are common in the crystals, and cleavage is typically fair to poor. It breaks in a conchoidal fracture (like glass) and has greasy to vitreous luster. Specimens are strongly pleochroic that is visible in thin, transparent grains when viewed at different angles in sunlight, or viewed with polarized light.

To find this gemstone, search  favorable metamorphic terrains. Good places to start searching are geological reports that describe the presence of mica schist containing blue cordierite. Geologists, who are not taught to recognized gemstones, often describe the mineral but seldom mention transparency or gem-character. SO it is likely there are cordierite deposits described in various university geological theses and survey reports, that may have gem-quality iolite. Even the Laramie Mountains in Wyoming, which has an abundance of metapelites near the central to northern part of the range west of Wheatland

Large porphyroblast of iolite with distinct parting planes and pseudo-hexagonal crystal habit,
Palmer Canyon, Laramie Mountains, Wyoming (photo by author).

Another important characteristic is to search the literature for descriptions of kyanite, sillimanite and/or andalusite. These minerals form under similar conditions as metamorphic iolite gemstones.

Group of faceted iolites and rubies from Palmer Canyon, Wyoming

Beautiful, large iolite porphyroblast in mica gneiss from
Palmer Canyon, Wyoming.

Reaction rim at edge of large, 1,720-carat iolite gemstone, Palmer Canyon, Wyoming (photo by
author)
.

Outcrop of iolite gem cut by milky quartz vein, Grizzly Creek
Wyoming. Photo by author.




Thursday, October 3, 2013

Iolite Gemstones Discovered in the Rocky Mountains


Beautiful water sapphire, also known as iolite, found in the central Laramie Mountains by the author.
Cordierite had been known in metamorphic rocks in the cores of some of Wyoming mountain ranges; but it wasn’t until 1996, that the gem variety of the mineral, referred to as iolite, was discovered in the cowboy state. When gem-quality; cordierite is known as iolite or water sapphire and also referred to as 'dichroite'. The initial discovery of iolite in Wyoming was made when the author began searching for ruby in a rock known as vermiculite schist that is sometimes referred to as glimmerite by Russian geologists.

The Palmer Canyon Blue Star - 1,720 carat flawless gemstone. This was the largest iolite in the world in 1996. However, a
 few years later, the GemHunter (a.k.a. Dan Hausel) recovered the Grizzly Creek Blue Giant, a gem of more than
24,000  carats, and left specimens in outcrop estimated to weigh potentially a million carats and more.
Some were similar in size to  a VW bug!
Gemologists and mineralogists have no problem distinguishing iolite from similar minerals, but the highest quality iolite is difficult for the lay-person to distinguish from oriental (blue) sapphire and tanzanite, as all three yield beautiful, bluish gems. However, if you search your local jewelry store for these three, it will be a rare jeweler who has iolite, simply because of its rarity, even though the gemstone is considerably lower value.

Beginning with the discovery of iolite at Palmer Canyon in 1996 (Hausel, 1998b) followed by discovery of giant gemstones in the Grizzly Creek area in 2004 and iolite in the Ragged Top-Sherman Mountain area and Owen Creek in 2005 (Hausel, 2004, 2005) in the central Laramie Mountains, it became clear, Wyoming was no longer just a 3rd rate gem state. It was the premier gemstone state in the US! No other state could boast of having such a variety of gemstones - many were discovered by the author over 3 decades and added to the already spectacular jade deposits and diamond deposits in the state. But soon polytickans stuck their nose into these research projects and by 2006 the research ended - even though it is pretty much guaranteed there are dozens of more gemstone deposits in Wyoming. By the time I left the Wyoming Geological Survey in 2007, I had evidence for more diamond, gold, iolite, ruby, sapphire, opal, spinel, garnet, apatite and even emerald deposits in Wyoming. What is a poly-tick-an you ask? Jay Leno set us straight when he indicated it meant 'poly' = 'many' and 'tick' = 'little blood sucker'. But to be honest, I did meet some very good republicans in Wyoming.

The discovery of gem-quality cordierite in Wyoming was thought to be one of the great gemstone discoveries in the United States in many decades. Even though four separate iolite deposits were discovered, beginning with the 1996 discovery, little effort has been made to research, mine, facet and market these attractive gemstones. With good marketing strategy, it should be possible to produce a tanzanite-like frenzy of this rare gemstone primarily mined in Sri Lanka from placer deposits. Because of the lack of iolite mining worldwide, iolite is difficult to find in jewelry stores in North America. Go ahead, visit a local jeweler and ask if they have any iolite jewelry. The answer is often - "no, but we wish we had some because we get many requests". Wyoming appears to have the largest known iolite resources in the world and Wyoming’s geology is favorable for discovery of more!
Fractured but transparent iolite from Palmer Canyon. This
stone could easily produce several high-quality gemstones.

Cordierite is an alumino-silicate found in a region with other alumino-silicates such as andalusite, kyanite and sillimanite. These porphyroblasts occur in alumina-rich mica schists known as metapelites. In Wyoming, cordierite has been reported in several areas including Copper Mountain in the Owl Creek Mountains (Hausel and others, 1985), South Pass in the Wind River Mountains (Hausel, 1991a), the Seminoe Mountains (Hausel, 1994b), the Laramie anorthosite complex, and the Elmers Rock greenstone belt in the central Laramie Mountains of southeastern Wyoming (Graff and others, 1982). Only four deposits to date have yielded gemstones, but no exploration has occurred other than by the author.

Cordierite (Mg,Fe3+)2Al4Si5O18, is an orthorhombic mineral that typically forms short prismatic pseudo-hexagonal crystals with rectangular cross sections, as well as massive, compact minerals of various shades of blue, bluish-violet, grey, or brown. According to Sinkankas (1964), repeated twinning on a crystal surface (mineralogists refer to this surface as m{110}) results in cordierite having near hexagonal (6-sided) cross sections when a crystal shape can be recognized. However, some cordierite will have district crystal shapes and others are found as granular to massive specimens. Cordierite has poorly developed cleavage, but parting parallel to crystallographic c-axis [m{001}] may occur in altered crystals.

Much cordierite in Wyoming is poor-quality, opaque to translucent, white-grey to brown porphyroblasts found in mica schist. When found as a gemstone, the mineral will be translucent to transparent cordierite known to gemologists as iolite or dichroite. The first documented and verified discovery of iolite in Wyoming occurred in the Palmer Canyon area of the Laramie Mountains west of Wheatland in eastern Wyoming. The mineral was found near outcrops of vermiculite schist filled with sapphire, some ruby, and considerable kyanite.

The iolite has oily to vitreous luster, is sapphire-blue in color with marked pleochroism that changes from sapphire-blue to violet-blue depending on the direction the mineral is viewed in light.  Pleochroism is the result of absorption of different wavelengths of light along different crystallographic  directions. Minerals (uniaxial minerals) such as iolite that have pronounced dichroism that produces two pleochroic colors and are said to be dichroic. For those of us who are not mineralogists, this simply means that the color of the mineral will appear to change as the transparent to translucent crystal is rotated in light.

Cordierite is often found in pelitic schists in Wyoming. Pelitic schists are simply schists that have abundant aluminum-rich minerals such as biotite and muscovite. It has also been found as mineral replacements of other alumino-silicate minerals such as andalusite, sillimanite and/or kyanite (under the right conditions, certain minerals will replace others over time). When unaltered, cordierite will have a hardness of 7 and low specific gravity (2.55 to 2.75). The specific gravity of cordierite increases with increasing iron content. Sinkankas (1964) reported the specific gravity for transparent gem-quality cordierite (similar in weight to quartz) to lie within the range of 2.57-2.61.

Iolite in outcrop. You can see the gem-quality blue stone and the yellow or tawny-colored oxidation coating on more iolite.
Also note that iolite continues in every direction from the center of the photo to several feet off of the photo. This one
 outcrop here has several hundred thousand carats of gemstones and likely more than a million carats!
This 100+ carat gemstone was one of hundreds found at Palmer Canyon in the central Laramie Mountains by the author.
Some of the gemstones discovered by the author -
include ruby, brown sapphire and water sapphire.
Photo of the author after discovery of gem-quality
iolite in the Palmer Canyon area of the central
Laramie Mountains. My foot is on kyanite schist (photo by Wayne
Sutherland.


About Me

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The Gemhunter, a polymath of rocks, martial arts, stars, pencil, written word & public speaking. Hall-of-Fame Martial Artist, Geologist; Author, Public Speaker, Astronomer, Artist