Where it forms, where it's found
- Geological setting
Secondary veinlets and fractures in a Pre-cambrian metamorphosed Zn-Mn-Fe deposit.
- Type locality
- Sterling Mine
- Sterling Hill
- Ogdensburg
- Sussex County
- New Jersey
- USA
41.0836°, -74.6047°
1recorded occurrences
Physical
- Hardness
- 1Talc
- 2Gypsum
- 3Calcite
- 4Fluorite
- 5Apatite
- 6Orthoclase
- 7Quartz
- 8Topaz
- 9Corundum
- 10Diamond
- Transparency
- Transparent · Translucent
- Colour
- Rarely colourless · white · usually light brown with a red gray tint · rarely very pale blue gray · colourless in transmitted light.
May be tan to light brown as a surface coating when slightly oxidized.
- Streak
- White to colorless
- Tenacity
- brittle
- Cleavage
- Distinct/Good
On (010), good.
Micaceous is an accurate description of the cleavage except that the folia are not broad as in a platy mica, but the cleavage follows the rod-like habit common to the mineral.
- Fracture
- Micaceous
- Density
- 2.665 g/cm³
Optical
- Optical type
- Biaxial (-) · 2V measured = 40° · 2V calc = 28°
- Refractive index
- 1.57 – 1.585
- Surface relief
- Moderate
- Principal indices
- nα 1.570 · nβ 1.584 · nγ 1.585
- Birefringence
- 0.015
- Pleochroism
- Non-pleochroic
- Dispersion
- r > v
- UV response
- Not fluorescent in UV
- Notes
Refractive index is decidedly higher than mooreite
Δ = 0Δmax
PPLpleochroism per grain
XPLindependent extinctions · rotate the stage
PPLpleochroism only · colour blends on rotation
XPLinterference colour · extinct every 90°
Retardation150 nm
Order1st order
XPL colour
Crystallography
- Space group
- P21/c
- Cell parameters
- a = 10.522 Å · b = 9.433 Å · c = 16.443 Å
- Cell angles
- β = 94.91 °
- Ratio a:b:c
- 1 : 0.897 : 1.563
- Z
- 2
- Morphology
Massive; granular to foliated.
- Twinning
Intricately polysynthetically twinned with twin plane in the zone [010] (visible under magnification).
Chemical composition
Synonyms
- Delta-mooreite
- Torreyiet
In other languages
- German
- Torreyit
- Italian
- Torreyite
Classification
Strunz
10th ed.7.DD.40
- 7SulfatesClass
- 7.DSulfates (selenates, etc.) with additional anions, with H2ODivision
- 7.DDWith only medium-sized cations; sheets of edge-sharing octahedraGroup
- 7.DD.40TorreyiteSpecies
Dana
8th ed.31.01.04.01
- 31Hydrated Sulfates Containing Hydroxyl or HalogenClass
- 31.01(AB)m(XO4)pZq·xH2O, where m:p > 6:1Type
- 31.01.04— unnamed intermediate level —Group
- 31.01.04.01TorreyiteSpecies
CIM
—25.9.11
- 25SulphatesClass
- 25.9Sulphates of MnGroup
- 25.9.11TorreyiteSpecies
Group, growth & confusion
Literature, links & citation
Citations
- 1929Bauer, L. H., Berman, Harry (1929) Mooreite, a new mineral, and fluoborite from Sterling Hill, New Jersey. American Mineralogist, 14 (5) 165-172
- 1949Prewitt-Hopkins, Joan (1949) X-ray study of holdenite, mooreite and torreyite. American Mineralogist, 34 (7-8) 589-595
- 1951Palache, Charles; Berman, Harry; Frondel, Clifford (1951) The System of Mineralogy (7th ed.) Vol. 2 - Halides, Nitrates, Borates, Carbonates, Sulfates, Phosphates, Arsenates, Tungstates, Molybdates, Etc. John Wiley and Sons.
- 1979Dunn, Pete J., Peacor, Donald R., Sturman, B. Darko (1979) Lawsonbauerite, a new mineral from the Sterling Hill mine, New Jersey, and new data for torreyite. American Mineralogist, 64 (9-10) 949-952
- 1982Treiman, A. H., Peacor, D. R. (1982) The crystal structure of lawsonbauerite, (Mn,Mg)9Zn4(SO4)2(OH)22·8H2O, and its relation to mooreite. American Mineralogist, 67 (9-10) 1029-1034
Cite this entry
@misc{mineral2026,
author = {Mineral Index editorial board},
title = {Torreyite — Mineral Index},
year = {2026},
url = {https://mineralindex.org/minerals/torreyite-4000},
note = {Accessed 2026-05-11}
}