• Home
• Artist
• Slide Show
• Building It
• Jewelry Gallery
• Jewelry Care
• Geology
• Glossary
• Purchase Contacts

Geological Information Specimen Content and Origin
The following crystals, gemstones, rocks and minerals listed are the specimens that I have used in my work. Click on the underlined words for the
Glossary of Geological Words and Terms

1. Agate: (silicon dioxide) A form of chalcedony (below) and cryptocrystalline or microcrystalline amorphous variety of quartz. Agates can be found worldwide in an infinite array of colors and textures as well as having an unending amount of designs within. These may include banding, lacing or dendritic formations. There are also many drusy crystals within this family of minerals. The hardest drusy specimens are of agate and quartz origin and they also present themselves in a large array of colors. Agate forms in veins and cavities and as crusts in silica-rich sedimentary rock. Most drusy Agate specimens come from Brazil and I cut freeform shapes from them. Agate is without a doubt the most difficult stone that I have ever cut due to its hardness. The hardness is 7-8 on the Mohs scale. Please see Jewelry Care” notes!

2. Amazonite: (silica potassium) Amazonite is an aqua green variety of microcline feldspar. There is a slight iridescence with the white and aqua banding caused by the crystal structure, orthoclase feldspar and albite minerals. It forms in coarse granite pegmatites. I use this stone to cut freeform cabochons and for inlay work. Amazonite comes from the United States, Russia and Madagascar and Canada as with these specimens. Its hardness is 5-6 on the Mohs scale. Please see “Jewelry Care” notes!

3. Amethyst: (silicon dioxide iron manganese) A variety of quartz in which the color purple is the most sought after. The purple coloring is caused by impurities such as iron and manganese. Amethyst forms inside veins and cavities of pegmatitic and igneous rock. Enormous, volcanic geodes, some much larger than a man, are found filled with dazzling crystals. From giant single crystals to small drusy like formations this beautiful stone is loved and collected worldwide. I work with setting precut faceted and cabochon stones and I cut freeform shapes from crystal specimens. Amethyst can be found in many locals in the United States, Mexico, Brazil, Canada, Africa, Russia, Nova Scotia, South Korea, Germany and Uruguay. The hardness is 7 on the Mohs scale. Please see “Jewelry Care” notes!

4. Apatite: (calcium phosphate hydroxyl fluorine chlorine) This composes the apatite group. Apatite ranges in color from clear, white, yellow, brown, red, pink, purple, blue and the lovely greens and teal greens that you see here. It forms in crystals and as tabular, columnar, stalactitic and massive. Our bones and teeth are made up of this group of minerals. Plants also need these minerals to live. Apatite can be found in Africa, Burma, Brazil, Canada, Germany Czechoslovakia, India, Mexico, Norway and Spain and Madagascar. Its hardness is 5 on the Mohs scale. Please see “Jewelry Care” notes!

5. Aquamarine: (beryllium aluminum silicate) A member of the beryl crystal family the most valuable of all being emerald. Aquamarine forms in pegmatitic granites associated with quartz, feldspar, muscovite, tourmaline (below), lepidolite (below) and other minerals as well as silica-poor schists and marbles. Looking into this stone, as a clear faceted cut or an opaque cabochon, is like looking into a cool, pool of water. Aquamarine comes from many countries such as Brazil, Africa, Madagascar, Pakistan, Afghanistan, Russia and Sri Lanka. Its hardness is 7.5-8 on the Mohs scale. Please see “Jewelry Care” notes!

6. Aventurine: (silicon dioxide) A cryptocrystalline or microcrystalline, amorphous variety of quartz also known as chert due to its opacity. It forms in veins and cavities of silica-rich sedimentary rock. Aventurine contains inclusions of shinny minerals such as mica, goethite, hematite or fuchsite. Hematite gives it a reddish orange color and fuschite a green. The sheen caused by these minerals is called aventurescence, thus the name. Its hardness is 7 on the Mohs scale. Please see “Jewelry Care” notes!

7. Azurite: (copper carbonate hydroxide) Formed in rich copper veins around the world. The beautiful royal and electric blues give it it’s name. Azurite forms like malachite (below) in carbonated swirls with banding of light to dark blue colors in cavities and as crusts and as incredible, sparkling drusy. The most rare specimens are from Bisbee, Arizona. Much drusy Azurite here comes from China. I do my own cutting of these specimens. Azurite is fragile and should only be set into earrings and pendants which can worn with confidence when cared for properly. Its hardness is 3.5-4 on the Mohs scale. Please see “Jewelry Care” notes!

8. Carnelian: (silicon dioxide) A cryptocrystalline or microcrystalline, amorphous variety of quartz. It is also a form of chalcedony (above) and forms as veins and cavities in silica-rich sedimentary rock. Carnelian’s delicious color of reddish orange is caused by hematite (below) iron oxide impurities. This beautiful stone can be translucent or opaque and range in color from light orange to deep reddish brown. In ancient Greek and Roman times it was highly valued and used in signet rings. Most carnelian comes from Australia, South America and India. Its hardness is 6.5-7 on the Mohs scale. Please see “Jewelry Care” notes!

9. Chalcedony: (silicon dioxide) A cryptocrystalline or microcrystalline, amorphous variety of quartz. This beautiful pale blue, translucent stone can be found in many locations worldwide. Its coloring is due to titanium impurities. Chalcedony forms in veins and cavities and as crusts in silica-rich sedimentary rock. It may be massive or botryoidal. Some stones have a slight adularescence due to layers of microscopic inclusions, like a low shimmering light within. Its hardness is 7 on the Mohs scale. Please see “Jewelry Care” notes!

10. Chalcopyrite / Rainbow Pyrite: (copper iron sulfide) This is a natural iridescent copper ore, also known as "bornite and peacock ore" for its beautiful range of colors in golds, blues, greens, reds and purples. Chalcopyrite is found all over the world in metamorphic, Copper deposits. Pyrite is also known as fool’s gold. When cut open it is a gold color on the inside. The colors are gorgeous and fun for jewelry making. I cut freeform shapes only on the edges of these stones. This colorful mineral should only be set into earrings and pendants which can be worn with confidence when cared for properly. Its hardness is 3.5-4 on the Mohs scale. Please see “Jewelry Care” notes!

11. Charoite: (hydrated potassium sodium calcium barium strontium silicate hydroxide fluoride) This lovely stone displays itself with many fibrous, swirly shades of lavender and purple. Its pearly luster is sometimes chatoyant. This mineral forms in massive deposits in syanite and limestone. There are often inclusions of tinacksite which appear as golden fibers running throughout the specimen. I cut my own freeform and cabochon shapes from this stone. Charoite is a rare mineral and found along the Chara River Valley in the Sakha Republic, Siberia, Russia. A very remote area of East Central Siberia in the Lake Baikal region. Its hardness is 5-6 on the Mohs scale. Please see “Jewelry Care” notes!

12. Chrysocolla: (hydrated copper silicate) A mineral which is formed in oxidation zones of copper ore bodies worldwide. It is found as glassy botryoidal or rounded masses and crusts or veins. Chrysocolla is associated with azurite (above) and malachite (below) and can sometimes form with both of them. Sometimes quartz drusy crystals will form over chrysocolla making a much harder and more lovely, sparkling, aqua specimen. I cut my own shapes of this stone. Chrysocolla alone is very soft and should only be set into earrings and pendants which can be worn with confidence when cared for properly. Its hardness is 2.5-3.5 on the Mohs scale. Please see “Jewelry Care” notes!

13. Chrysoprase: (silicon dioxide) A cryptocrystalline or microcrystalline amorphous variety of quartz. This beautiful apple green to deep green color is the most valuable form of chalcedony (above). Its coloring is due to trace amounts of nickel. It forms in veins, cavities and as crusts of silica-rich sedimentary rock associated with limestone and shale. Chrysoprase can be translucent or opaque. Its hardness is 6-7 on the Mohs scale. Please see “Jewelry Care” notes!

14. Citrine, Yellow-Orange and Oro Verde: (silicon dioxide) A yellow to orange and sometimes slightly greenish variety of the quartz family. Citrine forms inside veins and cavities of pegmatitic and igneous rock. Enormous geodes, some much larger than a man, are found filled with dazzling crystals. The crystals range in size from very large to very small drusy like formations. The yellow to orange coloring is due to iron and manganese impurities. Sometimes citrine and amethyst will form together creating ametrine, a beautiful purple and yellow gem. I work with precut faceted and cabochon stones and I cut my own shapes from drusy specimens. Most citrine comes from Brazil. Its hardness is 7 on the Mohs scale. Please see “Jewelry Care” notes!

15. Cobalto Calcite / Cobaltan Dolomite: (calcium carbonate) Calcite has more calcium and dolomite has more magnesium. The color is due to cobalt. This incredible, natural drusy specimen can be found in a large array of pinks, from pastels to mauves to hot pinks. It also presents itself in peach and raspberry. This is by far one of my favorite stones. Cobalto calcite forms as fillings in veins, cavities and as crusts. I buy this mineral in large crystal surfaced chunks. First I slab the crystal surface from the host rock and cut it into shapes that lend themselves best to the formation. Then I trim each piece on the edges making freeform and triangular shapes attempting to save as much of the specimen as possible. Found in metamorphic limestone in the Peoples Republic of the Congo (Zaire). It is getting harder to find this incredible drusy, due to strife in the region. I found less at the Tucson Gem and Mineral Show this year. Cobalto calcite should only be set into earrings and pendants which can be worn with confidence when cared for properly. Its hardness is 3 on the Mohs scale. Please see “Jewelry Care” notes!

16. Corundum: (aluminum oxide) Ruby is a red variety of corundum. It’s coloring is due to chromium impurities. Corundum forms in marbles, metamorphic, igneous, intrusive and sedimentary rocks, mica schists and pegmatites. Small pebbles are found in beach sand and stream beds. Corundum can be found in worldwide. Its hardness is 9 on the Mohs scale. Please see “Jewelry Care” notes!

17. Cr-Amesite: (chromium magnesium aluminum silicon) This is a chromium-rich (Cr) variety of amesite, given the name (Cr-Amasite) which is a low grade metamorphism of aluminum and magnesium-rich rocks. It is in the mica group of minerals. This pearly, metallic, drusy type, crystal formation presents itself in shades of lavender and purple. Cr-amesite is fragile and should only be set into earrings and pendants which can be worn with confidence when cared for properly. I slab the crystal layer from the host rock then cut freeform shapes as the specimen would allow. Triangular shaped cuts produce the least amount of waste of the specimen. This lovely stone comes from the Ural Mountains in Russia. Its hardness is 2.5-3 on the Mohs scale. Please see “Jewelry Care” notes!

18. Diamond: (carbon) diamonds can be found in a vast array of colors. It is the hardest known substance and has the highest melting point and the highest refractive index of all stones. A rough (unpolished) stone has a greasy luster and when properly cut it then has an adamantine luster. Only 20% of diamonds are suitable for cutting as gems. The rest are used in industrial applications such as cutting other Diamonds. There are tiny diamonds on the edge of my lapidary slabbing saw. At 10 on the Mohs scale it is 40 times harder than corundum which is at 9 on the scale. Please see “Jewelry Care” notes!

19. Diopside / Black Star: (calcium magnesium silicate) It is always cut into round or oval cabochons. The asterism (star) has four rays two are straight and two are wavy due to the crystal’s asymmetry. Black star diopside also contains needle like crystals of magnetite (iron oxide). Diopside forms in igneous and metamorphic rock. It comes mainly from India and has a hardness of 5.5 on the Mohs scale. Please see “Jewelry Care” notes!

20. Dioptase: (copper silicate hydroxide) This incredible, deep emerald green, drusy crystal is also one of my favorite mineral specimens to work with. This stone is becoming increasingly rare. It was harder to find at the Tucson Gem and Mineral Show this year in the quality that you see here. It forms in arid regions as a secondary mineral with silica in oxidized, copper sulfide deposits. I cut freeform shapes by slabbing the surface crystal layer off of the host rock. Then I cut the shapes according to what the formation will allow. Dioptase should only be set into earrings and pendants which can be worn with confidence when cared for properly. Dioptase is from Kazakhstan and has a hardness 5 on the Mohs scale. Please see “Jewelry Care” notes!

21. Fluorite: (calcium fluoride) Fluorite occurs in a rainbow of colors and some specimens are multicolored. The wide range of colors are due to various impurities which are usually hydrocarbons. Fluorite forms in veins and cavities of metallic mineral deposits such as lead. It is also associated with quartz and calcite. It is a common mineral in hydrothermal deposits, granites, igneous rock, dolomite and limestone. This crystal has wide industrial uses and it is the only mineral from which the important element fluorine can be obtained. Fluorite can be found all over the world in many geological environments. Its hardness is 4 on the Mohs scale. Please see “Jewelry Care” notes!

22. Fuchsite: (hydrous potassium aluminum silicate hydroxide fluoride) Fuchsite is a chromium-rich variety of muscovite. It belongs to the mica family of sheet silicates. This lovely specimen has shades of soft greens and a glittery iridescence due to its sheet crystalline structure. I cut my own stones in this material but it is difficult cutting, due to it’s tough crystal structure. Fuchsite should only be set into earrings and pendants which can be worn with confidence when cared for properly. Its hardness is 3.5 on the Mohs scale. Please see “Jewelry Care” notes!

23. Garnet: (magnesium iron aluminum silicate) The garnets that you see here are pyrope, which contains magnesium and almandine, which contains iron. Garnets form in metamorphic and igneous rock of pegmatitic granites and rhyolites. Often small garnets can be found mixed in with sand in gravel beds and streams. They are cut in facets, cabochons and beads. The whole garnet group has many colors, red, brown, black, yellow, orange, pink, white and green. They can be found all over the world and have a hardness of 6-7.5 on the Mohs scale. Please see “Jewelry Care” notes!

24. Hematite / Quartz on Hematite: (iron oxide) / (silicon dioxide iron oxide) Hematite is the main source of mined iron ore. Its color range is black, silvery gray, brown, reddish brown and red. It forms as a result of volcanic activity and where there has been standing water or a mineral hot springs in the past. Hematite can be found worldwide and has a hardness of 5.5-6.5 on the Mohs scale. Please see “Jewelry Care” notes!

25. Hemimorphite: (hydrated zinc silicate hydroxide) Hemimorphite is a sorosilicate mineral. This beautiful drusy crystal has a botryoidal formation. It ranges in color from white to pale aqua to a turquoise aqua. Zinc gives it its coloring. It forms in near surface, zinc-rich environments, in veins, cavities and as crusts. It has also been found as stalagmites and stalactites. I slab the crystal surface off of the host rock and cut freeform shapes according to what the specimen will allow. Hememorphite should only be set into earrings and pendants which can be worn with confidence when cared for properly. Its hardness is 5 on the Mohs scale. Please see “Jewelry Care” notes!

26. Iolite / Cordierite: (magnesium aluminum silicate) Iolite is the gem form of cordierite also known as “water sapphire”. Magnesium gives it its blue violet color. It is formed in metamorphic rock and in granites and pegmatites. It also presents itself in shades of yellowish gray (due to iron impurities). Iolite has a strong pleochroism. These lovely faceted and cabochon cuts are from Madagascar and have a hardness of 7-7.5 on the Mohs scale. Please see “Jewelry Care” notes!

27. Kinoite: (hydrated calcium copper silicate) This incredible drusy crystal forms in veins and cavities and as crusts over a host rock. It has incredible, small, sparkling crystals, in an array of true blue color, from pale to deep royal. Kinoite is very rare. This is by far my very favorite drusy formation. I use it sparingly. It is found in only a few locals in the world. Kinoite should only be set into earrings and pendants and can be worn with confidence when cared for properly. I slab the surface crystal formation off of the host rock and then cut freeform shapes as the specimen will allow. Its hardness is between 3-4 on the Mohs scale. Please see “Jewelry Care” notes!

28. Kyanite: (aluminum silicate) The mineral kyanite is usually blue to blueish-green but can also be white, gray or green. It has a pearly, prismatic, translucent luster. A polymorph, silicate mineral commonly found in aluminum-rich, metamorphic pegmatites, sedimentary rock and quartz veins. Its hardness varies depending on its crystallographic direction, this is called anisotropy; (6-7 lengthwise and 4-4.5 crosswise) on the Mohs scale. Most kyanite comes from the United States. Please see “Jewelry Care” notes!

29. Labradorite: (calcium sodium aluminum silicate) Labradorite is a beautiful, splotchy, grayish mineral with a very colorful shiller effect when viewed slightly sideways. This is called labradoresence. You may see flashing colors of red, blue, violet, green, gold and orange in a silvery, shimmer deep within. This is caused by a play of light being reflected back and forth from internal fracture plains and thin layers of different feldspars. It occurs in crystalline masses and tabular crystals in silica-rich metamorphic and igneous rock. I do my own cutting of this stone for cabochons and inlay. Labradorite is found in Labrador, Madagascar, India, Mexico, Finland, Canada and the Scandinavian Peninsula. Its hardness is 6-6.5 on the Mohs scale. Please see “Jewelry Care” notes!

30. Lapis Lazuli / Lazurite: (sodium calcium aluminum silicate sulfur sulfate chloride) This beautiful royal blue rock is a mixture of minerals also containing pyrite and calcite. It is formed in crystalline marble as a product contact metamorphism of limestone. It is a tectosilicate mineral and a feldspathoid member of the sodalite group. Lapis lazuli first came from Afghanistan where it has been mined for over 6,000 years. Then it was transported to Iraq, Egypt and Europe where it was used as architectural stone, made into jewelry and also ground up very fine to be used as pigments. Lapis also comes from Chile, Russia, Italy and the United States. Lapis lazuli from Afghanistan is considered the very best quality. I use this rough rock to cut cabochons and do inlay work. Its hardness is 5-5.5 on the Mohs scale. Please see “Jewelry Care” notes!

31. Lepidolite: (potassium lithium aluminum silicate hydroxide fluoride) Lepidolite is member of the mica group. It is also an ore of lithium and forms in high lithium granite masses. It is pale pink to violet pink. Small glittery sparkles can be seen within the layers of this lovely stone. I use this mineral to cut cabochons and do inlay work. Lepidolite comes from Brazil, Russia, Africa and the United States. Lepidolite should only be set into earrings and pendants which can be worn with confidence when cared for properly. Their hardness is 2.5 on the Mohs scale. Please see “Jewelry Care” notes!

32. Malachite: (copper carbonate) Malachite is a secondary copper mineral found in oxidized copper deposits. It can also form with or alongside azurite (above). Copper causes the green color and limestone caused the carbonation which makes the mineral grow in bubbly formations. When malachite is cut open you can see alternating bands and swirls of shades of green from light to dark. Some specimens can also show chatoyancy such as Bisbee, Arizona malachite. I use rough malachite to cut cabochons and for inlay work. Malachite should only be set into earrings and pendants which can be worn with confidence when cared for properly. It is found in Africa, Russia, Mexico, England, France and the Southwestern United States. Its hardness is 3.5-4 on the Mohs scale. Please see “Jewelry Care” notes!

33. Moonstone: (potassium sodium calcium aluminum silicate) Moonstone, a variety of feldspar, occurs in a variety of colors, white, peach, light blue, green, yellow, gray and even orange and reddish. The different colors are due to inclusions of different feldspar layers. Adularia (potassium aluminosilicate of gemstone quality) is the most common feldspar in Moonstone and it has a shimmering play of light reflecting internally, known as adularescence. As the stone moves it shows a one half or a crescent moon shape. Moonstone is always cut in cabochon ovals and rounds. It comes from Sri Lanka, Europe, Brazil, Madagascar, Australia and the United States. Its hardness is 6 on the Mohs scale. Please see “Jewelry Care” notes!

34. Mother of Pearl: (calcium carbonate) A natural occurring organic-inorganic composite which forms on the mantle tissue of certain species of mollusk. This is the way the shell protects itself from parasitic organisms. It is composed of platelets of Aragonite (Calcium Carbonate crystals). The layered formation makes a strong and resilient material. This beautiful shell has a lovely pearly luster which displays a variety of soft colors. Mother of Pearl is found in Asia, Japan, Pacific regions, Europe and the United States. It is soft and should only be set into earrings and pendants which can be worn with confidence when cared for properly. Please see “Jewelry Care” notes!

35. Obsidian / Snowflake Obsidian: (silicon) / (silicon dioxide) Obsidian is formed when volcanic lava flows into water forming a natural glassy stone. It can be found in a banded rainbow of color, it can also be translucent or opaque, dark green, brown or black. It can be a deep caramel red or a black with white snowflake shapes sprinkled all through it (snowflake obsidian). Tristobalite crystal is the impurity responsible for the lovely snowflake effect. Other impurities such as (iron, magnesium, etc.) which were present during formation have given obsidian its wonderful variety of presentation. Ancient people used obsidian for cutting tools, spear and arrow heads because the stone could be struck and shaped easily to bare it’s natural fracture plains which can be razor sharp. People who shape stones in this manner are known as Flintknappers. A multitude of these ancient tools have been unearthed. I do my own cutting of this stone for cabochons and inlay work. This volcanic glass can be found all over the world. The hardness of Obsidian is 5-5.5 on the
Mohs scale. Please see “Jewelry Care” notes!

36. Onyx: (silicon dioxide) A cryptocrystalline or microcrystalline member of the quartz family. It forms in bands of black, white, gray or brown. Banded colors of reds and browns are known as sardonyx. This stone is usually cut into cabochons and beads and sometimes opaque facets. Onyx can be found all over the world. It’s hardness is 7 on the Mohs scale. Please see “Jewelry Care” notes!

37. Pearls: (calcium carbonate) Pearls are produced by mollusks and pearl oysters. Layer by layer a coating is built up around a grain of sand which causes an irritation inside the creature. This coating protects the sensitive inside of the mollusk. As the layers build their fineness determines their luster. The iridescence that some pearls display is caused by the overlapping of successive layers which break up light falling on the surface. Pearls are often white but also form naturally in a rainbow color. Pearls are found worldwide. Please see “Jewelry Care” notes!

38. Petrified Oak / Maple Wood: (silicon dioxide) Petrified wood is a type of fossil. It consists of fossil wood where all the organic materials have been replaced with minerals while retaining the original structure of the wood. The petrification process occurs underground, when wood becomes buried under sediment. Mineral-rich water flowing through the sediment deposits minerals in the plant’s cells and as they die away stone forms in their place. The wood is preserved due to a lack of oxygen. The vast array of colors in petrified would are caused by elements such as; carbon, cobalt, chromium, copper, iron and manganese. Specimens can be found worldwide and the hardness is 7 on the Mohs scale. Please see “Jewelry Care” notes!

39. Pietersite: (sodium iron magnesium silicate hydroxide) Pietersite is found in only two locations worldwide, Africa and China. The mine in China has stopped producing because it has been flooded, which now makes this beautiful stone even more rare. Pietersite is formed form crocidolite a form of asbestos or variety of riebeckite. It is pseudomorphed by quartz. The asbestos mineral fibers in this specimen are replaced atom by atom with silica producing a very durable stone. It is formed when the golds of tigereye (below) and or the blues of hawkeye (blue tigereye) are broken during Earth’s geological processes. The tiny fragments are then cemented back together by quartz creating very interesting patterns of fibrous chatoyancy. These cabochons are from Namibia, Africa and they are a 7 on the Mohs scale. Please see “Jewelry Care” notes!

40. Peridot: (magnesium iron silicate) A gem variety of olivine, peridot is one of the few gemstones that presents itself in only one color range. The color is due to the Iron content in the crystal structure. The color can range from yellow-green to olive to brownish green. Olivine is abundant in the Earth’s crust but peridot is rather rare. This gem is formed in igneous rock and has also been found in iron-nickle meteorites. Peridot can be found in many states in the U.S. as well as China, Africa, Mexico, Norway, Pakistan, Saudi Arabia, Sri Lanka, Australia and Brazil. Its hardness is 6.5-7 on the Mohs scale. Please see “Jewelry Care” notes!

41. Quartz, Clear - “Rock Crystal”: (silicon dioxide) Quartz is the most common mineral found in the world. It is found in almost every geological environment. There are many varieties, colors and forms of quartz. It forms in cavities and veins of granites, pegmatitic, igneous and intrusive rock. Formations can range in size from cryptocrystalline or microcrystalline to gigantic. Varieties are determined by character rather than by color. Clear quartz or “Rock Crystal” is free of impurities and has many uses in the gem trade and industrial applications as well. This stone is usually cut into beads and it’s hardness is 7 on the Mohs scale. Please see “Jewelry Care” notes!

42. Quartz, Lemon: (silicon dioxide) A lemon yellow variety of the quartz family unlike citrine which has more orange tones or “Oro Verde” citrine (citrine above) which has a greenish-yellow coloring. Amethyst (above) is a purple variety of the same. The coloring of lemon quartz is due to iron oxide impurities. Quartz forms in cavities and veins of granites and in pegmatitic, igneous and intrusive rock. It can be found worldwide but Lemon Quartz is mined in Brazil and some crystals can be very large. This lovely gemstone is usually cut into faceted stones and beads and has a hardness of 7 on the Mohs scale. Please see “Jewelry Care” notes!

43. Quartz, Rose: (silicon dioxide) Pastel pinks and roses are present in this variety of the quartz family. The coloring is due to iron and titanium impurities. Rose quartz is usually found with inclusions and flaws which give this stone it’s cloudiness and character. It is usually cut into cabochons and beads or used for carving. Rose quartz can be found worldwide in very large crystal formations. When broken up they can be as big as landscape boulders. I have some in my back yard! Most of the best Rose Quartz comes from Brazil and its hardness is 7 on the Mohs scale. Please see “Jewelry Care” notes!

44. Quartz, Smokey: (silicon dioxide) This is a smokey-brown to black variety of the quartz family. There are some varying ideas as to what gives this crystal it’s coloring. Aluminum, titanium, iron, manganese or carbon impurities as well as the actions of radium radiations are all possible. Quartz forms in cavities and veins of granites, pegmatites and igneous rock. Some specimens can be gigantic in size. Most gem quality Smokey Quartz is cut into faceted stones and beads. It is found worldwide and has a hardness of 7 on the Mohs scale. Please see “Jewelry Care” notes”!

45. Rhodochrosite: (manganese carbonate) Rhodochrosite gets its luscious range of reddish to pale pinks from iron, magnesium, calcium, zinc and or cobalt impurities. Each locality will have different impurities giving the specimens a variety of pink colors. Some will form as solid blood-red crystals and some in carbonated bubbles with alternating banding and lacing of varying widths and shades of pinks. Other formations will grow as crusts over host rocks and some will form as stalagmites and stalactites in caverns. I cut rough rhodochrosite into cabochon and freeform shapes for inlay work. Rhodochrosite comes from Colorado, Romania, Africa and Argentina. It’s hardness is 3.5-4 on the Mohs scale. Please see “Jewelry Care” notes!

46. Rhodonite: (manganese iron magnesium silicon calcium) Rhodonite can present itself in a variety of beautiful opaque, pink colors and it often has brown or black iron or manganese veins running through it. It forms in grainy masses and columnar aggregates in granites and igneous rock. Rhodonite is a minor ore of manganese. I cut rhodonite in freeform shapes for inlay work and cabochons. It is found in the USA, Sweden, Russia, Australia and New Zealand and has a hardness of 6 on the Mohs scale. Please see “Jewelry Care” notes!

47. Seraphinite / Clinochlore: (magnesium iron aluminum silicate hydroxide) Seraphinite is a variety of clinochlore, which forms from the metamorphic and hydrothermal alterations of iron and magnesium silicate minerals, and can be found worldwide. However Seraphinite is a fairly recent discovery from the Lake Baikal region in Eastern Siberia, Russia where charoite is also found. This beautiful opaque stone has a silvery, pearly luster and comes in shades of olive greens and rich golden browns. Seraphinite is a wonderfully chatoyant specimen and should only be set into earrings and pendants which can be worn with confidence when cared for properly. Its hardness is 2-2.5 on the Mohs scale. Please see “Jewelry Care” notes!

48. Sugilite: (potassium sodium lithium iron manganese aluminum silicate) Sugilite is a rare and complex mineral which presents itself in many shades of pinkish-purples, from pale to deep. It will sometimes display banding, blotches or spots of many shades of these beautiful purples. It can be translucent to opaque. It forms as massive chunks in intrusive rock and manganese deposits. Manganese and lithium give this stone its lovely color. Sugilite can be found in Africa, Japan, Canada, Italy, Australia and India. This is a very tough stone and can be worn in any jewelry item. Its hardness is 6-6.5 on the Mohs scale. Please see “Jewelry Care” notes!

49. Thulite: (hydrous calcium manganese aluminum silicate) This lovely rose colored, opaque stone is often mottled or layered with white calcite. Manganese gives it its rose color. Thulite forms in veins and fractures of metamorphic igneous rock and calcium-rich metamorphosed sediments. It is a very tough stone and can be made into any jewelry item. It can be found in Norway, Austria, Australia, Canada, Germany, Italy, Japan, North Korea, Poland, Sweden, Switzerland and in several locals in the United States. It has a hardness of 6.5 on the Mohs scale. Please see “Jewelry Care” notes!

50. Tigereye: (silicon dioxide) Tigereye is a form of chalcedony (above) which is in the quartz family. It is a cryptocrystalline or microcrystalline fibrous aggregate. This stone began as crocidolite a form of asbestos. The mineral fibers over time were silicified an example of pseudomorphous replacement. Iron impurities give tigereye beautiful gold and brown colors. The fibrous nature gives it a wonderful chatoyancy. Tigereye is usually cut in cabochons and beads. I use rough material for freeform cuts and inlay and I also use precut, calibrated cabochons. It can be found in Australia, Canada, China, Namibia, India, Burma, Africa and the United States. It has a hardness of 7 on the Mohs scale. Please see “Jewelry Care” notes!

51. Topaz, Blue: (aluminum silicate fluoride hydroxide) Topaz crystals present themselves naturally in a variety of colors due to various impurities. The most common color is clear without impurities. It is formed in silica-rich pegmatitiic and igneous rocks of granite and rhoyolite. Iron or cobalt impurities could be responsible for natural blue coloring. However natural blue is very rare. Natural gray-blue and silver-gray topaz stones are gama-ray irradiated and heat treated to bring out a range of blue hues. This treatment does not affect the hardness or durability of the stone. This gem can be found worldwide. Its hardness is 8 on the Mohs scale. Please see “Jewelry Care” notes!

52. Topaz, Neutral / Champagne: (aluminum silicate fluoride hydroxide) Topaz crystals present themselves naturally in a variety of colors due to various impurities. The most common color is clear without impurities. It is formed in silica-rich pegmatitic and igneous rocks of granite and rhoyolite. Magnesium impurities could be responsible for this natural, champagne coloring. They have not been treated. This gem can be found worldwide. Its hardness is 8 on the Mohs scale. Please see “Jewelry Care” notes!

53. Topaz, Pink: (aluminum silicate fluoride hydroxide) Topaz crystals present themselves naturally in a variety of colors due to various impurities. The most common color is clear without impurities. It is formed in silica-rich pegmatitic and igneous rocks of granite and rhoyolite. Sodium, lithium or potassium impurities could be responsible for natural pink coloring. Natural yellow and orange-brown topaz can be heat treated to bring out a beautiful pink color. These treatments are permanent and do not affect the stone’s hardness or durability. Topaz can be found worldwide. Its hardness is 8 on the Mohs scale. Please see “Jewelry Care” notes!

54. Topaz, Twilight: (aluminum silicate fluoride hydroxide) Topaz crystals present themselves naturally in a variety of colors due to various impurities. The most common color is clear without impurities. It is formed in silica-rich pegmatitic and igneous rocks of granite and rhoyolite. Magnesium impurities could be responsible for natural yellow coloring. Natural clear and yellowish topaz is often enhanced with a colorful vapor coating, by applying a thin layer of titanium dioxide. These gems have a beautiful, rainbow play of warm colors. This enhancement does not affect the stones hardness or durability. Topaz can be found worldwide. Its hardness is 8 on the Mohs scale. Please see “Jewelry Care” notes!

55. Topaz, White / Silver: (aluminum silicate fluoride hydroxide) Topaz crystals present themselves naturally in a variety of colors due to various impurities. The most common color is clear without impurities. This clear form is sometimes called silver topaz. It is formed in silica-rich pegmatitic and igneous rocks of granite and rhoyolite. Topaz can be found worldwide. Its hardness is 8 on the Mohs scale. Please see “Jewelry Care” notes!

56. Tourmaline, Green-Verdilite: (aluminum borosilicate) Tourmaline crystals present themselves in a variety of colors due to various impurities. Green tourmaline contains trace amounts of chromium and is called verdelite. However crystals can develop with two or more colors in a formation. They are common as late stage crystallization products of granites, particularly pegmatites, that have been enriched by boron solutions. Tourmalines also form in some igneous and metamorphic rocks and as grains in sediments. They will form as radiating clusters and as isolated crystals with quartz, muscovite and feldspars. Some are transparent and others translucent. Tourmaline can be found worldwide. It has a hardness of 7-7.5 on the Mohs scale. Please see “Jewelry Care” notes!

57. Tourmaline, Pink-Rubellite: (aluminum borosilicate) Tourmaline crystals present themselves in a variety of colors due to various impurities. Pink tourmaline contains trace amounts of manganese and is called rubellite. However crystals can develop with two or more colors in a formation. They are common as late stage crystallization products of granites, particularly pegmatites, that have been enriched by boron solutions. Tourmalines also form in some igneous and metamorphic rocks and as grains in sediments. They will form as radiating clusters and as isolated crystals with quartz, muscovite and feldspars. Some are transparent and others translucent. Tourmaline can be found worldwide. It has a hardness of 7-7.5 on the Mohs scale. Please see “Jewelry Care” notes!

58. Turquoise: (hydrous phosphate copper aluminum) A cryotocrystalline mineral associated with copper deposits. This beautiful opaque stone, which has been mined throughout history, presents itself in a wide range of colors from deep blues to blue greens to yellow greens. Copper impurities will cause Turquoise to be more blue. The coloring of greener and paler specimens is due to iron replacing aluminum and or dehydration. The phosphorous may come from apatite (above) and the aluminum from feldspar. Turquoise is usually found in arid regions and forms as a pseudomorph relatively close to the surface in cavities, veins and as crusts. It forms as a result of acidic, aqueous solutions percolating down through preexisting copper carbonate minerals such as azurite (above) and malachite (above). The richness of a deposit determines the richness of color in this lovely stone. One of the most valuable and rare forms of turquoise is from Bisbee, Arizona. Its color is of the deepest blue and often displays itself with a dark iron-red, spider web veining known as matrix. Pyrite chunks and veins can also be matrix in other turquoise specimens. The matrix can often be an indication as to the mine of origin. There is also a beautiful almost matrix-free Turquoise known as “Sleeping Beauty” from Globe Arizona, which I love to use in my inlay work. I work with only natural Arizona Turquoise. Turquoise is found in many places worldwide especially in the American Southwest and has a hardness of 5-6 on the Mohs scale. Please see “Jewelry Care” notes!

59. Uvarovite / Chrome Garnet: (calcium chromium silicate) This beautiful, green drusy crystal formation, is one of my favorites, and a member of the garnet group. Drusy crystals have an incredible layer of small, sparkling crystals (granular aggregates) that form on the surface of a host rock. Uvarovite is the only green garnet in the group and is found in crystalline marbles and schist. It also presents itself in dark green to blackish green. Chromium is responsible for its coloring. I slab the surface crystal layer from the host rock and then cut smaller pieces, trimming the edges, as the formation will allow. This lovely crystal should only be set into earrings and pendants, which can be worn with confidence when cared for properly. It is a relatively rare mineral and can be found in Africa, Canada, Finland, Norway and Spain. Most Uvarovite comes from Russia. It has a hardness of 7.5 on the Mohs scale. Please see “Jewelry Care” notes!

60. Vanadenite: (lead chlorovanadate calcium phosphorous) Vanadenite is a mineral belonging to the apatite group of phosphates. It is formed by the alteration of lead ore by water. Unlike the blues and greens of apatite, vanadenite presents itself in a range of orange-red to orange-brown to orange-yellow crystals. Some specimens may have all of these colors. I cut these beautiful drusy formations by first slabbing the crystal surface off of the host rock then cutting free form shapes. These crystals are delicate and should only be set into earrings and pendants, which can be worn with confidence when cared for properly. Vanadenite is found in the American Southwest, Africa, Argentina, Austria, Scotland, Spain and Russia. Its hardness is 2.5-3 on the Mohs scale. Please see “Jewelry Care” notes!

61. Variscite: (hydrated aluminum phosphate) Variscite is a lovely green mineral which is sometimes confused with turquoise (above). They are very close in composition, but variscite does not have any copper in it. Variscite presents itself in a range of greens from pale to emerald. It has patterns and matrix similar to that of turquoise, also in varying shades from creamy white to black. The matrix can form spider web veining, again making it similar to turquoise. Variscite forms with phosphate bearing water that has reacted with aluminum-rich rocks in a near-surrface environment. It occurs as cavity fillings, veins and crusts. I cut and use Variscite for cabochons and inlay work. Variscite can be found in Utah, Germany, Australia, Poland and Brazil. Its hardness is 4.5 on the Mohs scale. Please see “Jewelry Care” notes!

62. Wulfenite: (lead molybdate) Wulfenite crystals are very popular with collectors worldwide because of the unusual habit of their formation. Crystals will present themselves in a wide range of color from deep red-orange, to orange, to caramel yellow and even slightly greenish. The size and thickness of the crystals covers a wide variety as well. Wulfenite, formed by the action of near surface water, consisting of secondary minerals, formed by the alteration of lead ores, with molybdenum or tungsten. Formations will grow in veins and cavities and as granular aggregates (drusy). I slab the crystal layer from the host rock and just trim the edges in freeform shapes. These crystals are delicate and should only be set into earrings and pendants which can be worn with confidence when cared for properly. Wulfenite can also be found in Africa, Arizona, New Mexico, Mexico and Chile. It has a hardness of 2.5-3 on the Mohs scale. Please see “Jewelry Care” notes!
Personal Note:
When I was a little girl, between the ages of four and six, my family lived at the small, but world renowned, Glove Mine (read: Into Arizona) in the Santa Rita Mountains of Southern Arizona. The Glove Mine is well known for its high quality wulfenite crystals (above). My father worked in the mine for two years along with his brother who was part owner at the time. They had the opportunity to gather wulfenite crystals to trade and sell. The mine was carved straight into the mountain on flat ground and then towards the back a shaft went down deep into the ground. I still remember the the cool darkness and the smell of the inside of the mine. The delicate crystals that came from the mine were beautiful, translucent butterscotch and orange in color and some formations were large, and even transparent. The best crystals that they found are in the Smithsonian’s National Gem and Mineral Collection. See: Wulfenite Images, Smithsonian Wulfenite Data, also the Smithsonian's Department of Mineral Sciences - type in (Glove Mine wulfenite), for the actual record.

TOP


Home Artist Statement Slideshow Building It 14k Gold Sets 14k Gold Slides SS/14k Gold Sets SS/14k Gold Land Slides
SS/14k Gold Slides Sterling Silver Sets Sterling Silver Slides Bracelets Rings Jewelry Care Geological Information Glossary
Contact Artist Cobalt Gallery The Max Gallery

© 2009 Marilyn Mack Contact Me