Crystal System: Monoclinic
Status of Occurrence: Confirmed Occurrence
Distribution: Locally Abundant
Chemical Composition: Magnesium aluminium sulphate hydrate
Chemical Formula: MgAl2(SO4)4•22H2O
Method(s) of Verification: specimens from the Coal Measures in South Wales are confirmed as near end-member pickeringite by both XRD and EDS (see, Cotterell, 2009 for full details); material from Gwynfynydd mine is mid-series in composition.
- Supergene: post-mining oxidation & weathering deposits
Introduction: pickeringite is a supergene mineral that forms commonly on the walls of mines as an alteration product of pyrite. It forms a series with halotrichite (FeAl2(SO4)4•22H2O.
Occurrence in Wales: two occurrences of pickeringite in Wales were recorded by Bevins (1994), both forming post-mining deposits related to oxidation of sulphides. A review of halotrichite group minerals in Wales (Cotterell, 2009) has shown that material from Gwynfynydd mine is actually mid-series in composition and material from Parys Mountain is near end-member halotrichite. However, all of the specimens of coarse silky-white fibrous halotrichite from the South Wales Coalfield have been shown to be near end-member pickeringite in composition. Therefore pickeringite is now classified as a valid Welsh mineral species.
- Gwynfynydd Mine, Ganllwyd, Dolgellau, Gwynedd: a fibrous aggregate collected in 1961 (National Museum of Wales specimen, no. NMW 83.41G.M.9093) is mid-series in composition - two EDS analyses are Mg dominant (pickeringite) and one Fe dominant (halotrichite).
- South Wales Coalfield: A comprehensive review of halotrichite group minerals in Wales (Cotterell, 2009) has revealled that all specimens from the Coal Measures of South Wales are near end-member pickeringite in composition. Localities include, Deep Navigation Pit, Treharris and Cymmer Colliery, Porth.
- Bevins, R.E., 1994. A Mineralogy of Wales National Museum of Wales, Geological Series No. 16, Cardiff, 146pp.
- Cotterell, T.F., 2009. A review of halotrichite group minerals in Wales. UK Journal of Mines and Minerals, 30, 43-47.