Gemmology, geology and origin of the Sandawana emerald deposits, Zimbabwe

As one of the most valuable gemstones, emeralds are known to occur in several countries of the world, such as Colombia, Zambia, Brazil, Pakistan, Afghanistan, Russia, Madagascar and Zimbabwe. The emerald deposits at Sandawana, Zimbabwe, are described, the emeralds from this deposit characterised and a model of emerald formation presented; this is compared with existing models. The emeralds from Sandawana, Zimbabwe, show relatively constant physical properties, with high refractive indices and specific gravities. They are characterized by laths and fibres of amphibole, both actinolite and cummingtonite. Other common inclusions are albite and apatite. Rare, opaque and chromium-rich inclusions constitute a new variety of ilmenorutile. Compared to emeralds from most other localities, fl uid inclusions are rare and small. Sandawana emeralds have very high contents of chromium, sodium, magnesium, lithium and caesium. They can be readily separated from emeralds from most other localities by using traditional gem testing techniques, on the basis of a combination of physical properties, inclusions and chemistry. In cases of possible doubt, such as in comparison with emeralds from Rajasthan (India), the use of oxygen isotopes is helpful. Sandawana emeralds occur at the contact between greenstones of the Mweza Greenstone Belt (MGB) and pegmatite intrusions. Rare-element granitic pegmatites intruded the MGB just prior to and/or during a main deformation event at 2.6 Ga, at the southern border of the Zimbabwe craton. Subsequently, a late-stage Na-rich ‘solution-melt’ containing F, P, Li, Be and Cr was injected along shear zones, causing albitisation of the pegmatite and phlogopitization in the greenstone wall-rock. Coeval ductile deformation is indicated by boudinage, pinch-and-swell and folding of pegmatites, by differentiated layering in associated amphibole-phlogopite schist and by the presence of (micro)shear zones. The synkinematic growth of not only phlogopite, but also emerald, fl uorapatite, holmquistite and chromian ilmenorutile, indicates enrichment of Na, K, Li, Be, F, P, Rb, Cs, Ta and Nb in the emerald-bearing shear zone. This suggests that emerald formation is closely related to syntectonic K-Na metasomatism. In this process, microcline, oligoclase, quartz (from the pegmatite) and chlorite (from the greenstones) were consumed, in favour of albite (in the pegmatite), phlogopite, some new actinolite and cummingtonite, holmquistite, fl uorapatite and emerald