Parnauite

Cu9(AsO4)2(SO4)(OH)10 · 7H2O
IMA status
  • Approved
IMA symbol
Pna
Discovered
1978
Also known as
  • IMA1978-014
  • Parnauiet

Where it forms, where it's found

Geological setting

Secondary mineral in the oxidation zone of a copper deposit.

Type locality
Majuba Hill Mine
  1. Antelope Mining District
  2. Pershing County
  3. Nevada
  4. USA

40.6692°, -118.4700°

117recorded occurrences
Source · OpenStreetMap

Safety & handling

Physical

Hardness
123456789102/ 10 MOHS
  1. 1Talc
  2. 2Gypsum
  3. 3Calcite
  4. 4Fluorite
  5. 5Apatite
  6. 6Orthoclase
  7. 7Quartz
  8. 8Topaz
  9. 9Corundum
  10. 10Diamond
Transparency
Translucent
Colour
Pale blue · green · dark green · blue-green · yellow-green
Density
3.09 g/cm³

Optical

Optical type
Biaxial (-) · 2V measured = 60° · 2V calc = 58°
Refractive index
1.68 – 1.712
Surface relief
High
Principal indices
nα 1.680 · nβ 1.704 · nγ 1.712
Pleochroism
Weak

X= pale green Y= yellow-green Z= blue-green

Dispersion
r > v strong
Extinction
Optic plane is parallel to {100}. X = b, Y = a, and Z = c.
Michel-Lévy diagramhighlighted lineδ = 0.0320
Attainable Michel-Lévy rangeΔ ∈ [0, t·δmax]320 nm1st order
Δ = 0Δmax
Thin-section mosaic70 grains · random 3D orientations
PPLpleochroism per grain
XPLindependent extinctions · rotate the stage
Interference simulatorsingle grain · PPL ↔ XPL
PPLpleochroism only · colour blends on rotation
XPLinterference colour · extinct every 90°
Retardation320 nm
Order1st order
XPL colour

Crystallography

Crystal system
Orthorhombic
Space group
#34
Cell parameters
a = 3.0113(4) Å · b = 14.259(3) Å · c = 14.932(2) Å
Ratio a:b:c
1 : 4.735 : 4.959
Z
1
Morphology

Lath-like crystals (subparallel), bowties, rosettes, scales, compact crusts.

Type-locality form

As pale-blue fans and rosettes of lath-like crystals up to 1 mm in length, as green scales and crusts, and drusy surface coatings.

Comment

Cell of 3 Å substructure (Mills et al. 2013). Originally assumed cell: 14.98, 14.22, 6.01 Å.

Crystal structure

Chemical composition

Constituent elements
Mass composition breakdown
ElementAtoms At. mass g/mol Mass g/molMass share
29CuCopperCopper963.546571.914
46.05%
8OOxygenOxygen2915.999463.971
37.36%
33AsArsenicArsenic274.922149.844
12.06%
16SSulfurSulfur132.06032.060
2.58%
1HHydrogenHydrogen241.00824.192
1.95%
Total1241.981100.00%

Mass share = atoms × atomic mass ÷ molar mass × 100

From IMA formula

Impurities
  • P
  • C
  • Al

Synonyms

  • IMA1978-014
  • Parnauiet

In other languages

German
Parnauit
Spanish
Parnauíta
Italian
Parnauite

Classification

Strunz
10th ed.

8.DF.35

  • 8Phosphates, Arsenates, VanadatesClass
  • 8.DPhosphates, etc. with additional anions, with H2ODivision
  • 8.DFWith only medium-sized cations, (OH,etc.):RO4 > 3:1Group
  • 8.DF.35ParnauiteSpecies
Dana
8th ed.

43.05.13.01

  • 43Compound Phosphates, Etc.Class
  • 43.05Hydrated Compound Phosphates, etc·, Containing Hydroxyl or HalogenType
  • 43.05.13— unnamed intermediate level —Group
  • 43.05.13.01ParnauiteSpecies
CIM

22.3.1

  • 22Phosphates, Arsenates or Vanadates with other AnionsClass
  • 22.3Phosphates, arsenates or vanadates with sulphatesGroup
  • 22.3.1ParnauiteSpecies

Group, growth & confusion

Often grow together
1 mineral

Literature, links & citation

Citations
  1. 1978Wise, William S. (1978) Parnauite and goudeyite, two new copper arsenate minerals from the Majuba Hill Mine, Pershing County, Nevada. American Mineralogist, 63 (7-8) 704-708
  2. 1981Walenta, K. (1981) Parnauit von Fundorten im Schwarzwald. Aufschluss 32, 135-140. (in German).
  3. 1997Lairen Lai, Yi Li, and Nicheng Shi (1997) Discovery and Study of Parnauite. Acta Petrologica et Mineralogica 16(1), 50-55 (in Chinese with English abstract).
  4. 1997Riviéra Scientifique (1997) 3-58.
  5. 2005(2005) Parnauite. Handbook of Mineralogy. Mineralogical Society of America
Cite this entry
@misc{mineral2026,
  author    = {Mineral Index editorial board},
  title     = {Parnauite — Mineral Index},
  year      = {2026},
  url       = {https://mineralindex.org/minerals/parnauite-3124},
  note      = {Accessed 2026-05-11}
}