Article · Wikipedia archive · Last revised Jul 10, 2026

Shigaite

Shigaite is a mineral with formula NaAl3(Mn2+)6(SO4)2(OH)18·12H2O that typically occurs as small, hexagonal crystals or thin coatings. It is named for Shiga Prefecture, Japan, where it was discovered in 1985. The formula was significantly revised in 1996, identifying sodium as a previously unknown constituent.

Last revised
Jul 10, 2026
Read time
≈ 2 min
Length
556 w
Citations
36
Source
Shigaite
Reddish-brown shigaite crystal (2 cm across) with pink rhodochrosite from South Africa
General
CategorySulfate mineral
FormulaNaAl3(Mn2+)6(SO4)2(OH)18·12H2O1
IMA symbolSga2
Strunz classification7.DD.353
Dana classification31.1.2.13
Crystal systemTrigonal
Crystal classRhombohedral (3)
H-M symbol: (3)3
Space groupR34
Unit cella = 9.51 Å, c = 32.83 Å,3 Z = 35
Identification
ColorYellow, burnt orange, brown, black5
TwinningOn {0001}5
CleavagePerfect on {0001}5
TenacityModerately flexible5
Mohs scale hardness25
LusterVitreous to dull3
StreakVery pale yellow to white5
DiaphaneityTransparent3
Specific gravity2.324
Optical propertiesUniaxial (−)3
Refractive indexn = 1.5464
PleochroismDistinct; O = yellow; E = very pale yellow5
Ultraviolet fluorescenceNon-fluorescent4

Shigaite is a mineral with formula NaAl3(Mn2+)6(SO4)2(OH)18·12H2O that typically occurs as small, hexagonal crystals or thin coatings. It is named for Shiga Prefecture, Japan, where it was discovered in 1985.3 The formula was significantly revised in 1996, identifying sodium as a previously unknown constituent.

Description

Dark-red and yellow shigaite on pink rhodochrosite source ↗

Shigaite occurs as hexagonal tabular crystals up to 2 cm (0.79 in) in size or as thin films and coatings. The mineral can be yellow, burnt orange, brown or black in color.5 Shigaite occurs in metamorphosed deposits of manganese ore5 and is the Mn2+ analogue of motukoreaite.6

Structure

Shigaite consists of oxycation sheets of [AlMn2+2(OH)6]1+ intercalated with oxyanion sheets of [Na(H2O)6{H2O}6(SO4)2]3−. Linkage between the sheets and within the oxyanion sheet results largely through hydrogen bonding.6

History

Shigaite was discovered in 1985 in the Ioi Mine,a Shiga Prefecture, Japan.3 The original study, published in the journal Neues Jahrbuch für Mineralogie, Monatshefte,1 identified the formula as Al4Mn7(SO4)2(OH)22·8H2O.7 The formula was significantly revised in 1996 using a sample from the N'Chwaning Mine, South Africa.6 Sodium, discovered to be a component of shigaite, was not identified in the original study. However, an unidentified volatile had been noted that presumably was a sodium-containing complex.8

Distribution

As of 2012, shigaite is known from the following sites:3

  • Iron Monarch open cut, South Australia, Australia
  • Poudrette quarry, Quebec, Canada
  • Ioi mine, Shiga Prefecture, Japan
  • Wessels Mine, Northern Cape Province, South Africa
  • N'Chwaning Mine, Northern Cape Province, South Africa
  • Homer Mine, Michigan, United States
  • Bengal Mine, Michigan, United States

The type material is housed in the National Museum of Natural History in Washington, D.C. as sample 122089.5

Association

Shigaite has been found associated with the following minerals:5

Notes

Notes

  1. Some sources incorrectly list it as the Loi Mine,7 presumably because of a mistaken reading of uppercase "i" as lowercase "L".
References

References

  1. Nickel, Ernest H. "IMA/CNMNC List of Mineral Names" (PDF). Materials Data, Inc. Retrieved May 6, 2012.
  2. Warr, L.N. (2021). "IMA–CNMNC approved mineral symbols". Mineralogical Magazine. 85 (3): 291–320. Bibcode:2021MinM...85..291W. doi:10.1180/mgm.2021.43. S2CID 235729616.
  3. "Shigaite". Mindat. Retrieved April 20, 2012.
  4. "Shigaite Mineral Data". Webmineral. Retrieved May 20, 2012.
  5. "Shigaite" (PDF). Handbook of Mineralogy. Mineral Data Publishing. Retrieved April 20, 2012.
  6. Cooper, p. 91.
  7. Hawthorne, Frank C.; et al. (November–December 1986). "New Mineral Names" (PDF). American Mineralogist. 71 (11 & 12): 1546. Retrieved May 17, 2012.
  8. Cooper, p. 96.

Bibliography

Further reading

Further reading