Distribution of trace elements in willemite from the Belgium non-sulphide deposits
Résumé
Samples of willemite (Zn2SiO4) mineralization from the historical non-sulphide Zn–Pb deposits of La Calamine (eastern
Belgium) have been recovered from collections of the Geological Survey of Belgium. Textural and chemical analyses are used to
evaluate the critical element distribution (Ge, In, Ga) and deportment. willemite occurs as a variety of types that continuously formed
between the protore stage (sulphides) and the late supergene stage (carbonates and hydrated phases). Different types of willemite may
be distinguished on the basis of their shape and zoning characteristics, supporting a polyphase non-sulphide mineralization after the
protore stage. This is also marked by a significant change of major-element compositions in the late generation of willemite. Laserablation
inductively coupled plasma mass-spectrometry (LA-ICP-MS) measurements of minor and trace elements also reveal a
strong variability between the different willemite types, although no straightforward relation with the shape of willemite crystals or
their zoning is demonstrated. Among the trace elements, we note anomalous high contents of P, Cd, As, Pb, Ag and Sb, the three
latter ones being related to tiny galena inclusions. While Ga and In contents are very low (less than 4 ppm) or below detection limits,
respectively, significant Ge contents up to 250 ppm were measured. Such contents are consistent with values reported from willemite
mineralization throughout the world. The concentrations measured in willemite are similar to those in sphalerite (averaging
250 ppm), supporting a role as precursor for sphalerite. However, the supergene origin of willemite in Belgian deposits is
controversial and the influence of low-temperature hydrothermal fluids for willemite precipitation cannot be ruled out. This also
questions the origin of Ge further incorporated in zinc silicates.