Labradorite points from Madagascar, 10-15 cm in size and sold per kilogram.

The mineral labradorite is a calcium-sodium-aluminium tectosilicate with the chemical formula (Ca,Na)(Si,Al)4O8. It belongs to the feldspars. The colourless, white, grey or light green labradorite has a glassy lustre, a white stripe colour, a perfect cleavage according to crystal plane [001] and a good one according to [010]. The average density is 2.69 and the hardness is 7. The crystal system is triclinic and the mineral is neither radioactive nor magnetic. The characteristic play of colours, called labradorisation, is caused by the light refracting on microscopic crystals of various dark minerals, which lie on the cleavage planes. Labradorite is usually amorphous or granular; the mineral rarely or never forms crystals. Labradorite is undoubtedly the best known of the precious and ornamental stones that display such a play of colours. When the stone is cut judiciously, the play of colours comes into its own even better. But the beautiful labradorisation can often also be seen on the rough pieces. There are few minerals that change colour as much as labradorite. The name of the mineral labradorite is derived from the Labrador Peninsula in Canada, where it was first described. The stone was discovered in 1780 on the east coast of the Labrador Peninsula by a priest and named after the island. He found a large number of erratic boulders with a striking grey colour that changed colour into dark blue and green nuances when turned. This discovery aroused great interest among scientists at the time and it was established that this was a case of soda lime feldspar or plagioclase. Labradorite is a common feldspar in metamorphic and igneous rocks such as pegmatite. It is part of the plagioclase series (albite-anorthite). The type locality of labradorite is on the Labrador Peninsula in Canada. Deposits are also found in Australia, Madagascar, Mexico, Russia, the United States and Finland.