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The stratigraphic and structural setting of the Mt. Lyell volcanic-hosted sulfide deposits

Economic Geology (1981) 76 (2): 231–245.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
Alteration and mineral zonation at the Mt Lyell copper–gold deposit, Tasmania
Australian Journal of Earth Sciences (2018) 65 (6): 787.
Geochemistry of Late Cambrian-Early Ordovician fluvial to shallow marine sandstones, western Tasmania, Australia: Implications for provenance, weathering, tectonic settings, and chemostratigraphy
GEOCHEMICAL JOURNAL (2016) 50 (2): 197.
The role of granites in volcanic-hosted massive sulphide ore-forming systems: an assessment of magmatic–hydrothermal contributions
Mineralium Deposita (2011) 46 (5-6): 473.
Structural architecture of the Owen Conglomerate, West Coast Range, western Tasmania: field evidence for Late Cambrian extension.
Australian Journal of Earth Sciences (2005) 52 (3): 411.
Great Lyell Fault, western Tasmania: a collage of Middle and Late Cambrian growth faults reactivated during Devonian orogenesis
Australian Journal of Earth Sciences (2005) 52 (3): 427.
New Mapping and Interpretations of the Mount Lyell Mining District, Tasmania: A Large Hybrid Cu-Au System with an Exhalative Pb-Zn Top
Economic Geology (2001) 96 (5): 1089.
Geochemical dispersion about the Western Tharsis Cu–Au deposit, Mt Lyell, Tasmania
Journal of Geochemical Exploration (2001) 72 (1): 23.
The Spectrum of Ore Deposit Types, Volcanic Environments, Alteration Halos, and Related Exploration Vectors in Submarine Volcanic Successions: Some Examples from Australia
Economic Geology (2001) 96 (5): 913.
Zonation of Alteration Facies at Western Tharsis: Implications for the Genesis of Cu-Au Deposits, Mount Lyell Field, Western Tasmania
Economic Geology (2001) 96 (5): 1123.
A submarine welded ignimbrite-crystal-rich sandstone facies association in the Cambrian Tyndall Group, western Tasmania, Australia
Journal of Volcanology and Geothermal Research (1997) 76 (3-4): 277.
Pyrite composition and ore genesis in the Prince Lyell copper deposit, Mt Lyell mineral field, western Tasmania, Australia
Ore Geology Reviews (1996) 10 (3-6): 231.
Microstructural timing of the Rosebery massive sulphides, Tasmania: evidence for a metamorphic origin through mobilization of disseminated base metals
Journal of Metamorphic Geology (1994) 12 (4): 505.
Foliation-boudinage control on the formation of the Rosebery PbZn orebody, Tasmania
Journal of Structural Geology (1991) 13 (7): 759.
The gold-rich seafloor massive sulphide deposits of Tasmania
Geologische Rundschau (1990) 79 (2): 265.
Coupled grain-scale dilatancy and mass transfer during deformation at high fluid pressures: examples from Mount Lyell, Tasmania
Journal of Structural Geology (1989) 11 (1-2): 147.
Flow mechanisms in sulphide minerals
Ore Geology Reviews (1987) 2 (1-3): 133.
An introduction to remobilization: Information from ore-body geometry and experimental considerations
Ore Geology Reviews (1987) 2 (1-3): 87.
Textural evidence for remobilization in metamorphic environments
Ore Geology Reviews (1987) 2 (1-3): 205.
Chemical remobilization of volcanic-hosted sulphide deposits at Rosebery and Mt. Lyell, Tasmania
Ore Geology Reviews (1987) 2 (1-3): 173.
Metallogeny and tectonic development of the tasman fold belt system in tasmania
Ore Geology Reviews (1986) 1 (2-4): 153.
Reconnaissance isotopic studies bearing on the tectonothermal history of Early Palaeozoic and Late Proterozoic sequences in western Tasmania
Australian Journal of Earth Sciences (1985) 32 (1): 7.
Deformation microfabric development in chalcopyrite in fault zones, Mt. Lyell, Tasmania
Journal of Structural Geology (1984) 6 (1-2): 167.
Crack-seal fibre growth mechanisms and their significance in the development of oriented layer silicate microstructures
Tectonophysics (1983) 92 (1-3): 147.
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