Farringtonite

Mg3(PO4)2
IMA status
  • Approved
IMA symbol
Frt
Discovered
1961
Also known as
  • Farringtoniet

Where it forms, where it's found

Geological setting

A rare component in pallasite meteorites, rimming and cementing olivine nodules.

Type locality
Springwater meteorite
  1. Springwater
  2. Saskatchewan
  3. Canada

52.0000°, -108.3000°

10recorded occurrences
Source · OpenStreetMap

Physical

Transparency
Transparent · Translucent
Colour
Colorless · white · pale yellow to amber yellow
Cleavage
Distinct/Good

(100) and (010), fair to good.

Density
2.74 g/cm³

Optical

Optical type
Biaxial (+) · 2V measured = 47 – 55° · 2V calc = 56°
Refractive index
1.54 – 1.559
Surface relief
Moderate
Principal indices
nα 1.540 · nβ 1.544 · nγ 1.559
Birefringence
0.019
Pleochroism
Non-pleochroic
Dispersion
r < v
Extinction
Z ∧ c = 16°.
Michel-Lévy diagramhighlighted lineδ = 0.0190
Attainable Michel-Lévy rangeΔ ∈ [0, t·δmax]190 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°
Retardation190 nm
Order1st order
XPL colour

Crystallography

Crystal system
Monoclinic
Cell parameters
a = 7.600 Å · b = 8.236 Å · c = 5.076 Å
Cell angles
β = 94.06 °
Ratio a:b:c
1 : 1.084 : 0.668
Z
2
Type-locality form

Rims on olivine nodules.

Comment

P21/n; Acta Chemica Scandanivica 22:1466 (1968) structure

Crystal structure

Chemical composition

Constituent elements
Mass composition breakdown
ElementAtoms At. mass g/mol Mass g/molMass share
8OOxygenOxygen815.999127.992
48.69%
12MgMagnesiumMagnesium324.30572.915
27.74%
15PPhosphorusPhosphorus230.97461.948
23.57%
Total262.855100.00%

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

From IMA formula

Synonyms

  • Farringtoniet

In other languages

German
Farringtonit
Italian
Farringtonite
Chinese
磷镁石

Classification

Strunz
10th ed.

8.AB.05

  • 8Phosphates, Arsenates, VanadatesClass
  • 8.APhosphates, etc. without additional anions, without H2ODivision
  • 8.ABWith medium-sized cationsGroup
  • 8.AB.05FarringtoniteSpecies
Dana
8th ed.

38.03.01.02

  • 38Anhydrous Normal Phosphates, Arsenates, and VanadatesClass
  • 38.03(AB)3(XO4)2Type
  • 38.03.01Sarcopside GroupGroup
  • 38.03.01.02FarringtoniteSpecies
CIM

19.3.14

  • 19PhosphatesClass
  • 19.3Phosphates of Be and MgGroup
  • 19.3.14FarringtoniteSpecies

Group, growth & confusion

Commonly confused with
1 mineral

Literature, links & citation

Citations
  1. 1961DuFresne, E.R., Roy, S.K. (1961) A new phosphate mineral from the Springwater pallasite. Geochimica et Cosmochimica Acta, 24 (3) 198-205 doi:10.1016/0016-7037(61)90017-5DOI: 10.1016/0016-7037(61)90017-5
  2. 1968Nord, Anders G., Kierkegaard, Peder, von Glehn, Marianne, Tolboe, O., Paasivirta, Jaakko (1968) The Crystal Structure of Mg3(PO4)2. Acta Chemica Scandinavica, 22. 1466-1474 doi:10.3891/acta.chem.scand.22-1466DOI: 10.3891/acta.chem.scand.22-1466
  3. 1973Fuchs, Louis H., Olsen, Edward, Gebert, and Elizabeth (1973) New X-ray and compositional data for farringtonite, Mg3(PO4)2. American Mineralogist, 58 (9-10) 949-951
  4. 2005(2005) Farringtonite. Handbook of Mineralogy. Mineralogical Society of America
  5. 2024Leyx, C.; Schmid-Beurmann, P.; Brunet, F.; Chopin, C.; Lathe, C. (2024) Compressibility and thermal expansion of magnesium phosphates. European Journal of Mineralogy, 36 (3). 417-431 doi:10.5194/ejm-36-417-2024DOI: 10.5194/ejm-36-417-2024
Cite this entry
@misc{mineral2026,
  author    = {Mineral Index editorial board},
  title     = {Farringtonite — Mineral Index},
  year      = {2026},
  url       = {https://mineralindex.org/minerals/farringtonite-1456},
  note      = {Accessed 2026-05-11}
}