Abstract
Twenty-one alkalic porphyry deposits of Late Ordovician to Early Silurian age occur in two mineral districts in New South Wales. The Cadia and Northparkes districts formed in shoshonitic volcanic centres where a major basement structure (the Lachlan Transverse Zone) cut the Ordovician Macquarie Arc obliquely. Processes of mineralisation in both districts were centred in and around quartz monzonite porphyry complexes that intruded the volcanic centres. These composite intrusive complexes comprise pipes, dykes and stocks. Hydrothermal alteration in and around the intrusions produced a complex sequence of potassic, calc-potassic, sodic, propylitic and late stage, typically fault- and fracture-controlled phyllic assemblages. Hematite dusting was a common alteration product giving the intrusions and the altered volcano-sedimentary host sequences a distinctive pink-orange coloration. Several of the deposits have bornite-rich cores, chalcopyrite-dominant annuli and pyritic outer haloes. Gold is well correlated with bornite in most of the deposits, and with chalcopyrite at Cadia Hill. The mineralising intrusions have Sr and Nd isotopic compositions consistent with derivation from a depleted mantle source regime, although the Nd data are permissive of limited crustal contamination. Epidote peripheral to the porphyry deposits has Sr isotopic compositions indistinguishable from the host intrusions, precluding the involvement of external seawater in the mineralising processes. In contrast, slightly elevated initial Sr values have been detected in epidote from nearby skarn deposits, indicative of incorporation of a minor component of Sr from limestone dissolution or seawater mixing. The alkalic porphyry deposits are difficult exploration targets because intensely developed hydrothermal alteration zones are restricted to within a few hundred metres of the monzonite complexes.
Acknowledgements
This paper builds on the findings of several honours, masters and PhD studies conducted at CODES, the Australian Research Council's Centre of Excellence in Ore Deposits, University of Tasmania, and the Australian National University since 1990. We thank Newcrest Mining Ltd and Northparkes Mines for their guidance, suggestions, and their financial and logistical support of our research activities over that period. In particular, we thank John Holliday, Ian Tedder, Stuart Smith, Bob Beeson, Nick Cook, Mark Arundell and Paul McGuinnes for their support of our student research projects. We also thank Wally Herrmann, Dick Glen, Ian Cartwright, Sebastien Meffre, Rob Scott, Rick Squire, Ben Harper, Doug Green, Racquel Kolkert, David Radclyffe, Mitchell Bland and Richard Pagan for their contributions to our understanding of the New South Wales porphyry deposits. Carol Simpson is thanked for providing samples from Cooks Myalls and Goonumbla siding. John Foden is thanked for undertaking the radiogenic isotope analyses. Parts of this research were funded through an Australian Research Council SPIRT grant, which is gratefully acknowledged, as are the industry sponsors of that three-year collaborative project (Newcrest Mining Ltd, North Ltd, Alkane, Homestake, Hargraves, Goldfields). Thanks to journal reviewers Tim Baker and John Holliday, whose comments and suggestions improved the paper.