Mineral Identification Key

The Mineral Identification Key

Copper, Michigan, Seaman Museum specimen

Table IIIA-2: Nonmetallic Luster; Hardness Greater Than 5½ and Less Than 7; Cleavage not prominent. (Can not be scratched by a knife blade, but can be scratched by quartz) [Previous Table] [Next Table]

Hardness Color Luster Name System Habit SG Notes

5 to 5½ Colorless to White, usually tinted Pale-green, may be Pale-blue Vitreous to greasy DATOLITE
(Gadolinite Group)
Ca₂B₂Si₂O₈(OH)₂ Monoclinic May be either platy to short-prismatic or blocky crystals, more rarely as spherical aggregates or massive, granular to compact 2.9 to 3.0 White streak, may show an imperfect basal cleavage, may fluoresce.

5 to 6 White, Yellow, Red, Brown, Black Glassy OPAL
SiO₂^.nH₂O Amorphous Massive, as fracture fillings, coatings, "nodules," etc. 1.9 to 2.1 Distinguished from massive quartz by lower hardness and S.G.; Precious opal has an intense play of colors – the fire comes from the natural diffraction grating of ordered spheres of a diameter approximately the size of a wavelength of light; in fire opal the flashes are predominantly reds, yellows and oranges against a black background. Common opal is "opalescent," but without the intense flashes of color.

5 to 5½ Azure-blue to Sky-blue, more rarely Bluish-white to Bluish-green Vitreous to sub-vitreous LAZULITE/
SCORZALITE
MgAl₂(PO₄)₂ (OH)₂
FeAl₂(PO₄)₂(OH)₂ Monoclinic Usually as finely crystalline crusts or granular, crystals rare and usually millimeter size, acutely pyramidal, tabular 3.08 to 3.38 (increases with Fe content) White streak; Rare.

5 to 6 Sky-blue to Bluish-green to Apple-green, Green-grey Vitreous to sub-vitreous TURQUOISE
CuAl₆(PO₄)₄(OH)₈^.4H₂O Triclinic Usually massive in crusts and fracture fillings, dense to finely crystalline, crystals rare, short-prismatic 2.6 to 2.8 White to pale-green streak, may exhibit a perfect cleavage (pinacoidal), but rarely seen. Massive material may test softer due to granular/earthy texture

Hardness Color Luster Name System Habit SG Notes

5 to 6 White to Grey, Yellowish, Brownish, Orange, Purple MARIALITE/
MEIONITE
(Scapolite series)
3NaAlSi₃O₈·NaCl 3CaAl₂Si₂O₈·CaCO₃ Tetragonal Usually massive, either columnar or fibrous (columnar masses may exhibit prismatic cleavage surfaces), also as short to medium prismatic crystals with bipyramidal terminations, usually somewhat crude 2.55 to 2.72 May fluoresce yellow. It is almost impossible to tell the end members apart without subtle chemical or optical tests. An intermediate member, wernerite, is probably the most common chemical form found – though it is not recognized as a species. It is probably best to label samples of these materials simply as scapolite, unless specific locality information dictates otherwise.

5½ Light-green to Yellow-green, Yellow-brown to Reddish-brown, Colorless Vitreous, to resinous WILLEMITE
(Phenakite Group)
Zn₂SiO₄ Trigonal Usually massively crystalline or granular, rarely in prismatic hexagonal crystals 4.05 to 4.20 Fluoresces bright green

5½ to 6 Greyish-white to White, Colorless Vitreous to sub-vitreous, may be dull LEUCITE
K(AlSi₂O₆) Tetragonal and Isometric Usually massive, granular, disseminated grains, crystals equant or blocky (soccer ball shaped), often multiply twinned 2.45 to 2.50 Restricted to mafic and ultramafic volcanic and hypabyssal rocks.

Hardness Color Luster Name System Habit SG Notes

5½ to 6 White, often tinted yellowish or greenish, Grey, Reddish-brown Vitreous to greasy NEPHELINE
(Na,K)AlSiO₄ Hexagonal Usually as crystalline grains or massively crystalline, crystals rare, hexagonal prisms with pinacoidal or pyramidal terminations 2.55 to 2.67 May exhibit a distinct prismatic cleavage in massively crystalline material, but rarely seen.

5½ to 6 Black to Light-brown Resinous or pitchy, may appear sub-metallic ALLANITE-(Ce)
(Epidote Group)
(Ce,Ca,Y)₂(Al,Fe)₃(SiO₄)₃(OH) Monoclinic Usually massive, may be platy, metamict, crystals tabular to prismatic to acicular 3.4 to 4.2 May give a light-brown streak, Allanite-(La) and allanite-(Y) are closely related species, but very rare.

5½ to 6 Brown, Yellowish-brown, Reddish-brown; Dark-brown to Iron-black; Metallic adamantine to submetallic BROOKITE
TiO₂ Orthorhombic Usually tabular, elongated and striated crystals, commonly pyramidal or pseudohexagonal 4.08 to 4.18 Found in alpine veins in gneiss and schist. Also found in contact metamorphic and hyrothermal veins

5½ to 6½ Colorless to White or Greyish-white, Pale-tan Vitreous EUCRYPTITE
(Phenakite Group)
LiAlSiO₄ Trigonal Usually coarsely crystalline, granular or compact, crystals equant 2.66 Soluble in acid producing silica gel, fluoresces bright pink to red.

5 to 6½ Green or Chartreuse, Yellow to Yellow-green to Yellow-brown to Brown, Pink to Red, Black, White, Purple, Blue Vitreous to sub-vitreous VESUVIANITE
("Idocrase")
Ca₁₀Mg₂Al₄(SiO₄)₅(Si₂O₇)₂(OH)₄ Tetragonal Usually as stout prismatic crystals 3.32 to 3.43 Usually restricted to skarns, rodingites, and certain alkali syenites, and calc-silicate rocks.

6 to 6½ Pale-yellow, Brownish-red to Reddish- or Greenish-brown, Pale-orange Vitreous to greasy CHONDRODITE
(Humite Group)
(Mg,Fe)₅(SiO₄)₂(F,OH)₂ Monoclinic Usually in equant crystalline grains, crystals equant, blocky 3.1 to 3.23 Soluble in acids producing silica gel, may fluoresce yellowish-white to yellow.

Hardness Color Luster Name System Habit SG Notes

6 to 6½ Yellow to Dark-orange, Reddish-orange Vitreous to sub-vitreous HUMITE
(Mg,Fe)₇(SiO₄)₃(F,OH)₂ Orthorhombic Usually in equant crystalline grains, crystals extremely rare, also equant, blocky 3.20 to 3.32 Soluble in acids producing silica gel. Relatively rare.

6 to 6½ Pale- to Medium-green, Pale-yellow, Tan to Pinkish-tan, Grey to White Vitreous to sub-vitreous, may be somewhat pearly on freshly broken exposures PREHNITE
Ca₂Al₂Si₃O₁₀(OH)₂ Orthorhombic Usually botryoidal to mammillary aggregates encrusting matrix, also stalactic and as radiating "bowtie" or "hourglass" aggregates, crystals extremely rare, short-prismatic to tabular 2.90 to 2.95 Slowly soluble in HCl producing silica gel. Often associated with Zeolites in traprock.

6 to 6½ Dark Reddish-brown to Black Usually sub-adamantine to adamantine, but may also be metallic RUTILE
TiO₂ Tetragonal Usually as prismatic to acicular crystals, often reticulated, may be vertically striated 4.18 to 5.25 Often as an inclusion in quartz

Hardness Color Luster Name System Habit SG Notes

6½ Black Metallic to submetallic PYROLUSITE
(Rutile Group)
MnO₂ Tetragonal Usually in earthy masses with a much lower hardness (2), but actual crystals are 6½, rare, short-prismatic to equant, usually in druzes of small crystals 5 May exhibit one perfect cleavage, prismatic. Most dendrites are not pyrolusite.

6 to 7 Black to Dark-brown, may also be Yellowish-grey, more rarely Red, White or Colorless Adamantine to metallic in crystals, greasy on fracture surfaces, may be earthy or submetallic in botryoids, concretions, and massive forms CASSITERITE
(Rutile Group)
SnO₂ Tetragonal Usually massive as botryoidal crusts or concretions ("wood tin"), crystals usually short prismatic and complexly twinned producing unusual shapes ("knees," stubby five-pointed "stars," etc.) 6.8 to 7.1

6½ to 7 Grey to Bluish-grey, Brown to Honey-brown or Yellow to Golden-brown, more rarely Green or Violet Vitreous to sub-vitreous FERRO-AXINITE/
MANGANAXINITE
Ca₂FeAl₂BSi₄O₁₅(OH)
Ca₂MnAl₂BSi₄O₁₅(OH) Triclinic Usually as thin wedge-shaped "axhead" crystals, often arranged in rosettes 3.23 to 3.32 (ferro-), 3.30 to 3.36 (mangan-) End members difficult to distinguish, though low end and high end S.G. may do the trick. Magnesio-axinite and tinzenite are two rare related species.

Hardness Color Luster Name System Habit SG Notes

6½ to 7 Pale-yellow to Olive-green to Olive-brown, Black Vitreous to sub-vitreous (forsterite) or submetallic to dull (fayalite) FAYALITE/
FORSTERITE
(Olivine Group)
Fe₂(SiO₄)
Mg₂(SiO₄) Orthorhombic Usually as crystalline massive or granular, crystals short-prismatic 4.39 (fayalite) to 3.24 (forsterite) End members distinguished by S.G. and luster. "Peridot" is the varietal name for gem material in the fayalite-forsterite series, usually forsterite.

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Hardness	Color	Luster	Name	System	Habit	SG	Notes
5 to 5½	Colorless to White, usually tinted Pale-green, may be Pale-blue	Vitreous to greasy	DATOLITE (Gadolinite Group) Ca₂B₂Si₂O₈(OH)₂	Monoclinic	May be either platy to short-prismatic or blocky crystals, more rarely as spherical aggregates or massive, granular to compact	2.9 to 3.0	White streak, may show an imperfect basal cleavage, may fluoresce.
5 to 6	White, Yellow, Red, Brown, Black	Glassy	OPAL SiO₂^.nH₂O	Amorphous	Massive, as fracture fillings, coatings, "nodules," etc.	1.9 to 2.1	Distinguished from massive quartz by lower hardness and S.G.; Precious opal has an intense play of colors – the fire comes from the natural diffraction grating of ordered spheres of a diameter approximately the size of a wavelength of light; in fire opal the flashes are predominantly reds, yellows and oranges against a black background. Common opal is "opalescent," but without the intense flashes of color.
5 to 5½	Azure-blue to Sky-blue, more rarely Bluish-white to Bluish-green	Vitreous to sub-vitreous	LAZULITE/ SCORZALITE MgAl₂(PO₄)₂ (OH)₂ FeAl₂(PO₄)₂(OH)₂	Monoclinic	Usually as finely crystalline crusts or granular, crystals rare and usually millimeter size, acutely pyramidal, tabular	3.08 to 3.38 (increases with Fe content)	White streak; Rare.
5 to 6	Sky-blue to Bluish-green to Apple-green, Green-grey	Vitreous to sub-vitreous	TURQUOISE CuAl₆(PO₄)₄(OH)₈^.4H₂O	Triclinic	Usually massive in crusts and fracture fillings, dense to finely crystalline, crystals rare, short-prismatic	2.6 to 2.8	White to pale-green streak, may exhibit a perfect cleavage (pinacoidal), but rarely seen. Massive material may test softer due to granular/earthy texture
Hardness	Color	Luster	Name	System	Habit	SG	Notes
5 to 6	White to Grey, Yellowish, Brownish, Orange, Purple		MARIALITE/ MEIONITE (Scapolite series) 3NaAlSi₃O₈·NaCl 3CaAl₂Si₂O₈·CaCO₃	Tetragonal	Usually massive, either columnar or fibrous (columnar masses may exhibit prismatic cleavage surfaces), also as short to medium prismatic crystals with bipyramidal terminations, usually somewhat crude	2.55 to 2.72	May fluoresce yellow. It is almost impossible to tell the end members apart without subtle chemical or optical tests. An intermediate member, wernerite, is probably the most common chemical form found – though it is not recognized as a species. It is probably best to label samples of these materials simply as scapolite, unless specific locality information dictates otherwise.
5½	Light-green to Yellow-green, Yellow-brown to Reddish-brown, Colorless	Vitreous, to resinous	WILLEMITE (Phenakite Group) Zn₂SiO₄	Trigonal	Usually massively crystalline or granular, rarely in prismatic hexagonal crystals	4.05 to 4.20	Fluoresces bright green
5½ to 6	Greyish-white to White, Colorless	Vitreous to sub-vitreous, may be dull	LEUCITE K(AlSi₂O₆)	Tetragonal and Isometric	Usually massive, granular, disseminated grains, crystals equant or blocky (soccer ball shaped), often multiply twinned	2.45 to 2.50	Restricted to mafic and ultramafic volcanic and hypabyssal rocks.
Hardness	Color	Luster	Name	System	Habit	SG	Notes
5½ to 6	White, often tinted yellowish or greenish, Grey, Reddish-brown	Vitreous to greasy	NEPHELINE (Na,K)AlSiO₄	Hexagonal	Usually as crystalline grains or massively crystalline, crystals rare, hexagonal prisms with pinacoidal or pyramidal terminations	2.55 to 2.67	May exhibit a distinct prismatic cleavage in massively crystalline material, but rarely seen.
5½ to 6	Black to Light-brown	Resinous or pitchy, may appear sub-metallic	ALLANITE-(Ce) (Epidote Group) (Ce,Ca,Y)₂(Al,Fe)₃(SiO₄)₃(OH)	Monoclinic	Usually massive, may be platy, metamict, crystals tabular to prismatic to acicular	3.4 to 4.2	May give a light-brown streak, Allanite-(La) and allanite-(Y) are closely related species, but very rare.
5½ to 6	Brown, Yellowish-brown, Reddish-brown; Dark-brown to Iron-black;	Metallic adamantine to submetallic	BROOKITE TiO₂	Orthorhombic	Usually tabular, elongated and striated crystals, commonly pyramidal or pseudohexagonal	4.08 to 4.18	Found in alpine veins in gneiss and schist. Also found in contact metamorphic and hyrothermal veins
5½ to 6½	Colorless to White or Greyish-white, Pale-tan	Vitreous	EUCRYPTITE (Phenakite Group) LiAlSiO₄	Trigonal	Usually coarsely crystalline, granular or compact, crystals equant	2.66	Soluble in acid producing silica gel, fluoresces bright pink to red.
5 to 6½	Green or Chartreuse, Yellow to Yellow-green to Yellow-brown to Brown, Pink to Red, Black, White, Purple, Blue	Vitreous to sub-vitreous	VESUVIANITE ("Idocrase") Ca₁₀Mg₂Al₄(SiO₄)₅(Si₂O₇)₂(OH)₄	Tetragonal	Usually as stout prismatic crystals	3.32 to 3.43	Usually restricted to skarns, rodingites, and certain alkali syenites, and calc-silicate rocks.
6 to 6½	Pale-yellow, Brownish-red to Reddish- or Greenish-brown, Pale-orange	Vitreous to greasy	CHONDRODITE (Humite Group) (Mg,Fe)₅(SiO₄)₂(F,OH)₂	Monoclinic	Usually in equant crystalline grains, crystals equant, blocky	3.1 to 3.23	Soluble in acids producing silica gel, may fluoresce yellowish-white to yellow.
Hardness	Color	Luster	Name	System	Habit	SG	Notes
6 to 6½	Yellow to Dark-orange, Reddish-orange	Vitreous to sub-vitreous	HUMITE (Mg,Fe)₇(SiO₄)₃(F,OH)₂	Orthorhombic	Usually in equant crystalline grains, crystals extremely rare, also equant, blocky	3.20 to 3.32	Soluble in acids producing silica gel. Relatively rare.
6 to 6½	Pale- to Medium-green, Pale-yellow, Tan to Pinkish-tan, Grey to White	Vitreous to sub-vitreous, may be somewhat pearly on freshly broken exposures	PREHNITE Ca₂Al₂Si₃O₁₀(OH)₂	Orthorhombic	Usually botryoidal to mammillary aggregates encrusting matrix, also stalactic and as radiating "bowtie" or "hourglass" aggregates, crystals extremely rare, short-prismatic to tabular	2.90 to 2.95	Slowly soluble in HCl producing silica gel. Often associated with Zeolites in traprock.
6 to 6½	Dark Reddish-brown to Black	Usually sub-adamantine to adamantine, but may also be metallic	RUTILE TiO₂	Tetragonal	Usually as prismatic to acicular crystals, often reticulated, may be vertically striated	4.18 to 5.25	Often as an inclusion in quartz
Hardness	Color	Luster	Name	System	Habit	SG	Notes
6½	Black	Metallic to submetallic	PYROLUSITE (Rutile Group) MnO₂	Tetragonal	Usually in earthy masses with a much lower hardness (2), but actual crystals are 6½, rare, short-prismatic to equant, usually in druzes of small crystals	5	May exhibit one perfect cleavage, prismatic. Most dendrites are not pyrolusite.
6 to 7	Black to Dark-brown, may also be Yellowish-grey, more rarely Red, White or Colorless	Adamantine to metallic in crystals, greasy on fracture surfaces, may be earthy or submetallic in botryoids, concretions, and massive forms	CASSITERITE (Rutile Group) SnO₂	Tetragonal	Usually massive as botryoidal crusts or concretions ("wood tin"), crystals usually short prismatic and complexly twinned producing unusual shapes ("knees," stubby five-pointed "stars," etc.)	6.8 to 7.1
6½ to 7	Grey to Bluish-grey, Brown to Honey-brown or Yellow to Golden-brown, more rarely Green or Violet	Vitreous to sub-vitreous	FERRO-AXINITE/ MANGANAXINITE Ca₂FeAl₂BSi₄O₁₅(OH) Ca₂MnAl₂BSi₄O₁₅(OH)	Triclinic	Usually as thin wedge-shaped "axhead" crystals, often arranged in rosettes	3.23 to 3.32 (ferro-), 3.30 to 3.36 (mangan-)	End members difficult to distinguish, though low end and high end S.G. may do the trick. Magnesio-axinite and tinzenite are two rare related species.
Hardness	Color	Luster	Name	System	Habit	SG	Notes
6½ to 7	Pale-yellow to Olive-green to Olive-brown, Black	Vitreous to sub-vitreous (forsterite) or submetallic to dull (fayalite)	FAYALITE/ FORSTERITE (Olivine Group) Fe₂(SiO₄) Mg₂(SiO₄)	Orthorhombic	Usually as crystalline massive or granular, crystals short-prismatic	4.39 (fayalite) to 3.24 (forsterite)	End members distinguished by S.G. and luster. "Peridot" is the varietal name for gem material in the fayalite-forsterite series, usually forsterite.