TY - DATA T1 - Geochemical and petrological characterization of gem opals from Wegel Tena, Wollo, Ethiopia: opal formation in an Oligocene soil PY - 2016/06/21 AU - Benjamin Rondeau AU - Bénédicte Cenki-Tok AU - Emmanuel Fritsch AU - Francesco Mazzero AU - Jean-Pierre Gauthier AU - Yves Bodeur AU - Eyassu Bekele AU - Eloïse Gaillou AU - Dereje Ayalew UR - https://geolsoc.figshare.com/articles/dataset/Geochemical_and_petrological_characterization_of_gem_opals_from_Wegel_Tena_Wollo_Ethiopia_opal_formation_in_an_Oligocene___soil/3453035 DO - 10.6084/m9.figshare.3453035 L4 - https://ndownloader.figshare.com/files/5421350 KW - chemical impurities KW - Oligocene rhyolitic ignimbrites KW - host rock exhibits features KW - U vs Sr KW - Ba vs KW - Oligocene soil Gem opals KW - Wegel Tena KW - Al KW - Geology N2 - Gem opals from Wegel Tena, Wollo Province, Ethiopia, occur in Oligocene rhyolitic ignimbrites. They display a unique geochemistry, with some samples yielding the highest Ba concentrations ever recorded. They are generally much richer in chemical impurities than opals from other localities. For example, the sum Al+Fe or the sum Na+Mg+Ca+K+Ba are often higher. These geochemical features make them easy to distinguish from other opals worldwide. We observed strong geochemical variations and some good positive correlations in our samples, such as Al+Fe vs. Na+Mg+Ca+K+Ba, Al vs Ca, or Ba vs Ca. This shows that the crystallography of opal has controlled, at least in part, the incorporation of chemical impurities, although opal is not well-crystallized. In addition, the multimodal distributions of several chemical impurities (e.g. U vs Sr, Al vs Ca, Ba vs Ca, etc.) suggest at least two origins of silica: weathering of feldspars and weathering of volcanic glass. In addition, opals from Wegel Tena contain numerous well-preserved microscopic plant fossils. Moreover, their host rock exhibits features typical of pedogenesis (abundant clays, desiccation cracks, and grain size sorting). We propose that the opals at Wegel Tena formed during the Oligocene period when volcanic emissions stopped for a time long enough to allow weathering of ingimbrites and therefore liberation of silica. This accompanied the formation of soil and development of plant life, and some plants were trapped in opal. ER -