Mineral Database (Saesneg yn unig)
Allophane
Crystal System: Amorphous
Formula: Al2O3.1.3-2.0(SiO2).2.5-3.0(H2O)
Status of Occurrence: Confirmed Occurrence
Distribution: Uncommon
Chemical Composition: Hydrous aluminium silicate
Method(s) of Verification: Welsh Foxdale - unspecified analysis (by Prior, 1906), presumably wet chemistry;
Cwm Dwyfnant - wet chemical analysis (G.T. Prior), X-ray diffraction analysis (Natural History Museum, no. x1663).
Chemical Group:
- Silicates
Geological Context:
- Supergene
Introduction: allophane is a found as a low temperature secondary mineral, forming by the alteration of volcanic ash: by hydrothermal alteration of feldspar in igneous rocks or in hydrothermal veins where is can be associated with metallic ore, particularly copper.
Occurrence in Wales: four occurrences of allophane have been recorded from Wales. Although little detail is available regarding allophane from the iron mines at Betws Garmon, Snowdonia cited by Jenkins & Johnson (1993), the three remaining localities described below have formed by hydrothermal activity associated with vein mineralization.
Key Localities:
- Cwm Dwyfnant, Llangammarch Wells, Powys: the occurrence of allophane from a level driven on a marcasite vein at Cwm Dwyfnant was confirmed by X-ray diffraction and chemical analysis by G.T. Prior (Natural History Museum specimen B.M. 1918,403).
- Gorlan Mine, Trefriw, Gwynedd: Russell (1944) reported ‘gum-like’, brownish-yellow allophane coated by dundasite and enveloping crystals of cerussite, quartz and anglesite, all these minerals occurred as a secondary assemblage on the galena, blende and marcasite lode. Allophane was identified by wet chemistry but no analyses were published.
- Welsh Foxdale (New Pandora) Mine, Trefriw, Gwynedd: Prior (1906) described the occurrence of allophane from Welsh Foxdale (=New Pandora) Mine, near Trefriw, Gwynedd, where it occurs as ‘beautiful, small glassy spherules associated with dundasite and cerussite’.
References:
- Abandoned metal mines: a unique mineralogical and microbiological resource. Journal of the Russell Society, 5, 40-44.
- Dundasite from North Wales. Mineralogical Magazine, 14, 167-169
- Notes on some minerals either new or rare in Britain. Mineralogical Magazine, 27, 1-10.