Copper deposition by fluid cooling in intrusion-centered systems: New insights from the Bingham porphyry ore deposit, Utah

doi:10.1130/G19986.1

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Copper deposition by fluid cooling in intrusion-centered systems: New insights from the Bingham porphyry ore deposit, Utah

P.B. Redmond¹, M.T. Einaudi¹, E.E. Inan¹, M.R. Landtwing² and C.A. Heinrich²

¹ Department of Geological and Environmental Sciences, Stanford University, Stanford, California 94305, USA
² Isotope Geology and Mineral Resources, Department of Earth Sciences, ETH Zürich, Switzerland

Quartz veins in porphyry copper deposits record the physiochemicalevolution of fluids in subvolcanic magmatic-hydrothermal systems.We have combined cathodoluminescence (CL) petrography with fluid-inclusionmicrothermometry to unravel the growth history of individualquartz veins and to link this history to copper ore formationat Bingham, Utah. Early barren quartz veins with K-feldspar+ biotite (potassic) alteration selvages occur throughout the2 km vertical exposure of quartz monzonite porphyry stock. Atdepths of 500 m to at least 1350 m below the orebody, fluidinclusions in these barren veins trapped a single-phase CO₂-bearingfluid containing $~$ 2–12 wt% NaCl_equiv. Within and to depthsof 500 m below the orebody, early quartz veins contain abundanthypersaline liquid (38–50 wt% NaCl_equiv) and vapor-richinclusions trapped together at temperatures of 560–350°C and pressures of 550–140 bar, consistent with fluctuationsbetween lithostatic and hydrostatic pressure at paleodepthsof 1.4 to 2.1 km. CL petrography shows that bornite and chalcopyritewere deposited together with a later generation of quartz andK-feldspar in microscopic fractures and dissolution vugs inearly barren quartz veins and wall rock. This late quartz containshypersaline liquid (36–46 wt% NaCl_equiv) and vapor-richinclusions trapped at 380–330 °C and at 160–120bar hydrostatic pressure. We conclude that a single-phase magmatic-hydrothermalfluid underwent phase separation to hypersaline liquid (or brine)and vapor $~$ 500 m below the base of the orebody at a paleodepthof $~$ 2.5 km. Brine and vapor continued to ascend and formed multiplegenerations of barren quartz veins with potassic selvages. Thermaldecline to temperatures below 400 °C was the main drivingforce for copper-iron sulfide deposition, given the lack ofevidence of mixing of brines with low-salinity waters, the lackof correspondence of the ore zone with the initiation of phaseseparation, and no change in wall-rock alteration style.

Key Words: Bingham Canyon • porphyry copper • fluid inclusions • cathodoluminescence

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				A. Audetat, T. Pettke, C. A. Heinrich, and R. J. Bodnar Special Paper: The Composition of Magmatic-Hydrothermal Fluids in Barren and Mineralized Intrusions Economic Geology, August 1, 2008; 103(5): 877 - 908. [Abstract] [Full Text] [PDF]

				E. Seedorff, M. D. Barton, W. J. A. Stavast, and D. J. Maher Root Zones of Porphyry Systems: Extending the Porphyry Model to Depth Economic Geology, August 1, 2008; 103(5): 939 - 956. [Abstract] [Full Text] [PDF]

				B. G. Rusk, H. A. Lowers, and M. H. Reed Trace elements in hydrothermal quartz: Relationships to cathodoluminescent textures and insights into vein formation Geology, July 1, 2008; 36(7): 547 - 550. [Abstract] [Full Text] [PDF]

				B. G. Rusk, M. H. Reed, and J. H. Dilles Fluid Inclusion Evidence for Magmatic-Hydrothermal Fluid Evolution in the Porphyry Copper-Molybdenum Deposit at Butte, Montana Economic Geology, March 1, 2008; 103(2): 307 - 334. [Abstract] [Full Text] [PDF]

				L. M. Klemm, T. Pettke, C. A. Heinrich, and E. Campos Hydrothermal Evolution of the El Teniente Deposit, Chile: Porphyry Cu-Mo Ore Deposition from Low-Salinity Magmatic Fluids Economic Geology, September 1, 2007; 102(6): 1021 - 1045. [Abstract] [Full Text] [PDF]

				C. A. Heinrich Fluid-Fluid Interactions in Magmatic-Hydrothermal Ore Formation Reviews in Mineralogy and Geochemistry, July 1, 2007; 65(1): 363 - 387. [Full Text] [PDF]

				A. C. Simon, M. R. Frank, T. Pettke, P. A. Candela, P. M. Piccoli, C. A. Heinrich, and M. Glascock An evaluation of synthetic fluid inclusions for the purpose of trapping equilibrated, coexisting, immiscible fluid phases at magmatic conditions American Mineralogist, January 1, 2007; 92(1): 124 - 138. [Abstract] [Full Text] [PDF]

				B. G. Rusk, M. H. Reed, J. H. Dilles, and A. J.R. Kent Intensity of quartz cathodoluminescence and trace-element content in quartz from the porphyry copper deposit at Butte, Montana American Mineralogist, August 1, 2006; 91(8-9): 1300 - 1312. [Abstract] [Full Text] [PDF]

				B.-E. Khashgerel, R. O. Rye, J. W. Hedenquist, and I. Kavalieris Geology and Reconnaissance Stable Isotope Study of the Oyu Tolgoi Porphyry Cu-Au System, South Gobi, Mongolia Economic Geology, May 1, 2006; 101(3): 503 - 522. [Abstract] [Full Text] [PDF]

				F. Bouzari and A. H. Clark Prograde Evolution and Geothermal Affinities of a Major Porphyry Copper Deposit: The Cerro Colorado Hypogene Protore, I Region, Northern Chile Economic Geology, January 1, 2006; 101(1): 95 - 134. [Abstract] [Full Text] [PDF]

				D. P. Core, S. E. Kesler, E. J. Essene, E. B. Dufresne, R. Clarke, D. A. Arms, D. Walko, and M. L. Rivers COPPER AND ZINC IN SILICATE AND OXIDE MINERALS IN IGNEOUS ROCKS FROM THE BINGHAM PARK CITY BELT, UTAH: SYNCHROTRON X-RAY-FLUORESCENCE DATA Can Mineral, October 1, 2005; 43(5): 1781 - 1796. [Abstract] [Full Text] [PDF]

				A. E. Williams-Jones and C. A. Heinrich 100th Anniversary Special Paper: Vapor Transport of Metals and the Formation of Magmatic-Hydrothermal Ore Deposits Economic Geology, October 1, 2005; 100(7): 1287 - 1312. [Abstract] [Full Text] [PDF]

				D. R. Cooke, P. Hollings, and J. L. Walshe Giant Porphyry Deposits: Characteristics, Distribution, and Tectonic Controls Economic Geology, August 1, 2005; 100(5): 801 - 818. [Abstract] [Full Text] [PDF]

				S. E. Kesler Ore-Forming Fluids Elements, January 1, 2005; 1(1): 13 - 18. [Abstract] [Full Text] [PDF]

				C. A. Heinrich, W. Halter, M. R. Landtwing, and T. Pettke The formation of economic porphyry copper (-gold) deposits: constraints from microanalysis of fluid and melt inclusions Geological Society, London, Special Publications, January 1, 2005; 248(1): 247 - 263. [Abstract] [PDF]

				C. A. Heinrich, T. Driesner, A. Stefansson, and T. M. Seward Magmatic vapor contraction and the transport of gold from the porphyry environment to epithermal ore deposits Geology, September 1, 2004; 32(9): 761 - 764. [Abstract] [Full Text] [PDF]