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Warikahnite

Rare zinc arsenate mineral

Rare zinc arsenate mineral

FieldValue
nameWarikahnite
categoryArsenate minerals
imageWarikahnite-mf19c.jpg
imagesize260
captionWarikahnite, Tsumeb mine, Namibia, 0.6 × 0.4 × 0.1 cm
formulaZn3(AsO4)2·2H2O
IMAsymbolWar
molweight510.04 g/mol
strunz8.CA.35
systemTriclinic
classPinacoidal ()
(same H-M symbol)
symmetryP
unit cella = 6.71 Å, b = 8.98 Å
c = 14.53 Å; α = 105.59°
β = 93.44°, γ = 108.68°; Z = 4
colorPale yellow to colorless; honey-yellow; orange
habitAcicular; radial
cleavage[001] perfect, [010] good, [100] good
fractureBrittle
mohs2
lusterVitreous, waxy
refractivenα = 1.747 nβ = 1.753 nγ = 1.768
opticalpropBiaxial (+)
birefringenceδ = 0.021
2V75° measured
streakWhite
gravity4.28
diaphaneityTransparent
references

(same H-M symbol) c = 14.53 Å; α = 105.59° β = 93.44°, γ = 108.68°; Z = 4

Warikahnite is a rare zinc arsenate mineral of the triclinic crystal system with Hermann-Mauguin notation , belonging to the space group P. It occurs in the Tsumeb mine in Namibia on corroded tennantite in the second oxidation zone under hydrothermal conditions in a dolomite-hosted polymetallic ore deposit. It is associated with adamite, stranskiite, koritnigite, claudetite, tsumcorite, and ludlockite. The origin of discovery was in a dolomite ore formation within an oxidized hydrothermal zone, in the E9 pillar, 31st level of the Tsumeb Mine in Namibia, Southwest Africa. It has also been found at Lavrion, Greece and Plaka, Greece as microscopic white needles.

Discovery

Warikahnite was discovered by Clive Queit at Tsumeb mine and was first described in 1979 by Keller, Hess, and Dunn. The name "warikahnite" honors Walter Richard Kahn, who was born in 1911. He was from Bad Bayersoien, Germany, and he was a dealer and collector that specialized in Tsumeb minerals. He was honored due to his support of research into rare secondary minerals. The type material is located at the University of Stuttgart, the Smithsonian Institution, and Harvard University.

Physical properties

Warikahnite has perfect cleavage on the c-axis {001}; and good cleavage on both the a- and b-axes ({100} and {010}). It has bladed subhedral crystals up to 3 × .5 × .5 mm, elongated on {100} and flattened on {010}, with a hardness of approximately 2 as presented in table two. Its specific gravity is 4.24 and it exhibits a colorless to pale yellow hue, along with a white streak and vitreous luster. This triclinic specimen classified under the space group P features striated crystals up to two centimetres in radial to subparallel aggregates. The Handbook of Mineralogy further states the cell dimensions of biaxial Warikahnite to be calculated as a = 6.710(1) Å, b = 8.989(2) Å, and c = 14.533(2) Å, with unit cell volume as 788.58 Å.

Crystal structure

Structure

The crystal structure of Warikahnite, determined from diffractometer data, contained six various coordination polyhedra of zinc with components of As, O, and H2O; with the coordination numbers six, five, and four; and with five different combinations of ligand. The "Die Kristallstruktur von Warikahnit" article also notes that the hydrogen bonds are discussed appertaining to both charge balance and infrared spectra. Recent data shows the Gladstone-Dale relation compatibility of warikahnite is ranked as superior (−0.010).

Chemical composition

Warikahnite has the chemical formula Zn3(AsO4)2·2H2O. Along with arsenate ions (AsO4)3−, the infrared spectrum revealed H2O. These water molecules present in the warikahnite sample were determined by thermo gravimetric analysis, and lost at 365°C. Both H2O and (AsO4)3− readily dissolved when hot hydrochloric acid (HCL) or nitric acid (HNO3) were added to the specimen.Keller, P., Hess, H., and Dunn, P.J. (1979) Warikahnit, ein neues Mineral aus Tsumeb, Sudwestafrika. Neues Jahrbuch fur mineralogy, Monatshefte, 389–395. Abstracted in American Mineralogist, 65, 408 After a microprobe analysis, the weight percent oxides were calculated as follows in the table directly below.

Chem For.Name%
As2O5
ZnO
MnO
FeO
H2O
Total

Geologic occurrence

Warikahnite's only known localities to date are the Tsumeb Mine in Namibia, South West Africa; and Plaka and Lavrion, Greece. The first discovery of this type specimen in the mine was found with white koritnigite, blue stranskiite, pale to emerald-green cuprian adamite, crystals of helmutwinklerite, and white corroded crystals of claudetite, ludlockite, tsumcorite, and lavendulan; while the second acquisition was only linked to quartz.

References

Literature

  • Keller, P., H. Hess, and P.J. Dunn (1979) Warikahnit, Zn3[(H2O)2|(AsO4)2], ein neues Mineral aus Tsumeb, Südwestafrika. Neues Jahrb. Mineral., Monatsh., 389–395.
  • Riffel, H., P. Keller, and H. Hess (1980) Die Kristallstruktur von Warikahnit, Zn3[(H2O)2|(AsO4)2]. Tschermaks Mineral. Petrog. Mitt., 27, 187–199.

References

  1. Warr, L.N.. (2021). "IMA–CNMNC approved mineral symbols". Mineralogical Magazine.
  2. http://rruff.geo.arizona.edu/doclib/hom/warikahnite.pdf Mineral Handbook
  3. http://webmineral.com/data/Warikahnite.shtml Webmineral
  4. http://www.mindat.org/min-4244.html Mindat
  5. Fleischer, Michael. (1980). "New mineral names". American Mineralogist.
  6. Pinch, William W.. (July 2005). "Warikahnite: some background on the cover specimen.". The Mineralogical, Inc..
  7. Anthony, J. W., Bideaux, R. A., Bladh, K. W., and Nichols, M. C. (2000) Handbook of Mineralogy. Volume IV: Arsenates, Phosphates and Vanadates. Mineral Data Publishing Company, Tucson, Arizona, p. 644
  8. Riffel, H., P. Keller, and H. Hess (1980) Die Kristallstruktur von Warikahnit, Zn3(AsO4)2·2H2O Tschermaks Mineral. Petrog. Mitt., 27, 187–199 (in German with English abs)
  9. Mandarino, Joseph A.. (2006). "The Gladstone-Dale Compatibility of Arsenate Minerals". Periodico di Mineralogia.
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