Where it forms, where it's found
- Geological setting
A secondary mineral. The deposit is a sedimentary iron ore deposit of Precambrian age, containing pods of manganese and small amounts of zinc and phosphorous. Weathering mobilized mobilized those elements, depositing secondary minerals in fractures and cavities.
- Type locality
- Iron Monarch Main Pit
- Iron Knob
- Pastoral Unincorporated Area
- South Australia
- Australia
-32.7447°, 137.1395°
4recorded occurrences
Physical
- Hardness
- 1Talc
- 2Gypsum
- 3Calcite
- 4Fluorite
- 5Apatite
- 6Orthoclase
- 7Quartz
- 8Topaz
- 9Corundum
- 10Diamond
- Lustre
- Adamantine
- Transparency
- Transparent · Translucent
- Colour
- Pale yellow. Occasionally light reddish orange to light reddish brown and may be confused with arsenoclasite.
Usually a shade of yellow and not red.
- Streak
- Pale yellow
- Tenacity
- brittle
- Cleavage
- Perfect
(010)
- Fracture
- Splintery
- Density
- 3.74 g/cm³
Optical
- Optical type
- Biaxial (+/-)
- Refractive index
- 1.741 – 1.761
- Surface relief
- High
- Principal indices
- nα 1.741 · nβ 1.75 · nγ 1.761
- Birefringence
- 0.020
- Pleochroism
- Strong
Brown to colorless
- Dispersion
- r > v moderate
- Extinction
- Parallel, length slow
- UV response
- Not fluorescent in UV
Δ = 0Δmax
PPLpleochroism per grain
XPLindependent extinctions · rotate the stage
PPLpleochroism only · colour blends on rotation
XPLinterference colour · extinct every 90°
Retardation200 nm
Order1st order
XPL colour
Crystallography
- Space group
- P21 21 21
- Cell parameters
- a = 9.097 Å · b = 5.693 Å · c = 18.002 Å
- Ratio a:b:c
- 1 : 0.626 : 1.979
- Z
- 4
- Morphology
Isolated crystals are rare, originally less than 100 microns long. Bladed crystals show <em>c</em> (001). <em>m</em> (110), and <em>n</em> (102). Also in radiating to divergent groups.
- Twinning
On (001), contact twins.
- Type-locality form
Radiating to divergent groups of individual blade-like crystals up to 100 x 20 x 5 µm . Also occurs as overgrowths on arsenoclasite crystals up to 5 mm in length.
Crystal structure
Chemical composition
- Impurities
- Fe
- Cu
- Zn
- Pb
- Al
- V
- As
- H2O
Synonyms
- Gatehouseiet
- Gatehousit
- Gatehousite
- IMA1992-016
In other languages
- French
- gatehouseite
- German
- Gatehouseit · IMA 1992-016
- Spanish
- gatehousita
- Italian
- gatehouseite
- Japanese
- ガテフォス石
- Chinese
- 盖特豪斯石
Classification
Strunz
10th ed.8.BD.10
- 8Phosphates, Arsenates, VanadatesClass
- 8.BPhosphates, etc., with additional anions, without H2ODivision
- 8.BDWith only medium-sized cations, (OH, etc.):RO4= 2:1Group
- 8.BD.10GatehouseiteSpecies
Dana
8th ed.41.04.01.02
- 41Anhydrous Phosphates, Etc.containing Hydroxyl or HalogenClass
- 41.04(AB)5(XO4)2ZqType
- 41.04.01— unnamed intermediate level —Group
- 41.04.01.02GatehouseiteSpecies
Literature, links & citation
Citations
- 1977Ruszala, F. A., Anderson, J. B., Kostiner, E. (1977) Crystal structures of two isomorphs of arsenoclasite: Co5(PO4)2(OH)4 and Mn5(PO4)2(OH)4. Inorganic Chemistry, 16 (9) 2417-2422 doi:10.1021/ic50175a051DOI: 10.1021/ic50175a051
- 1993Pring, A., Birch, W. D. (1993) Gatehouseite, a new manganese hydroxy phosphate from Iron Monarch, South Australia. Mineralogical Magazine, 57 (387) 309-313 doi:10.1180/minmag.1993.057.387.13 DOI: 10.1180/minmag.1993.057.387.13
- 1994Jambor, John L., Grew, Edward S. (1994) New Mineral Names. American Mineralogist, 79 (1-2) 185-189
- 1997Mandarino, Joseph A. (1997) New Minerals 1990-1994. The Mineralogical Record Inc., Tuscon, Arizona. 220pp.
- 2005(2005) Gatehouseite. Handbook of Mineralogy. Mineralogical Society of America
Cite this entry
@misc{mineral2026,
author = {Mineral Index editorial board},
title = {Gatehouseite — Mineral Index},
year = {2026},
url = {https://mineralindex.org/minerals/gatehouseite-6966},
note = {Accessed 2026-05-11}
}