Crystal chemistry of cadmium oxysalt and associated minerals from Broken Hill, New South Wales.
Date
2010
Authors
Elliott, Peter
Editors
Advisors
Pring, Allan
Brugger, Joel
Foden, John David
Brugger, Joel
Foden, John David
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Thesis
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Abstract
Secondary minerals, formed at low temperature, are the product of the oxidation of primary sulphide ore bodies. The formation and mineralogy of oxidized zones, which phases are stable and which are not, and how toxic heavy metals become incorporated into the crystal structures of the constituent minerals have implications for the heavy metal mobility in the environment and in the disposal of heavy metal and the remediation of contaminated sites This thesis presents an inverstigation of the the crystal chemistry of a suite of Cd, Pb, Zn, Cu, Se and As oxysalt minerals from Broken Hill, NSW; the new mineral species plimerite, nyholmite, liversidgeite and edwardsite, as well as gartrellite, munakataite, osakaite and cadmian serpierite. Crystal structures were studied using single-crystal X-ray diffraction data, in conjunction with the results from electron microprobe analysis, powder X-ray diffraction, infrared absorption spectroscopy, Raman spectroscopy and Mössbauer spectroscopy. The crystal structures are classified according to the mode of polymerization of strongly bonded coordination
polyhedra: chains, sheets or frameworks. The chemical compositions of the minerals and their stabilities are discussed in terms of a combinination of hierarchical ordering, bond-valence theory and the valence-matching principle. For the first time in natural minerals, extensive solid solutions involving cadmium have been observed. Solid solutions between Cd and Zn (in nyholmite), Cd and Ca (in serpierite), and Cd and (Pb+Ca) (in sampleite-lavendulan-zdenekite and conichalciteduftite)
are examined. The minerals examined in this study have implications for the mobility of heavy metals in the environment and in remediation of heavy metal contaminated sites.
School/Discipline
School of Earth and Environmental Sciences
Dissertation Note
Thesis (Ph.D.) -- University of Adelaide, School of Earth and Environmental Sciences, 2010
Provenance
Copyright material removed from digital thesis. See print copy in University of Adelaide Library for full text.