Embed Size (px)
Citation preview
This file is part of the following reference:
Gillen, David (2010) A study of IOCG-related hydrothermal fluids in the Wernecke Mountains, Yukon Territory, Canada.
PhD thesis, James Cook University.
Access to this file is available from:
http://eprints.jcu.edu.au/11620
References
_____________________________________________________________________R1
REFERENCES
Adshead, N. D., Voulgaris, P., and Muscio, V. N., 1998, Osborne copper-gold deposit, in
Berkman, D. A., and Mackenzie, D. H., eds., Geology of Australian and Papua
New Guinean mineral deposits: Melbourne, The Australasian Institude of Mining
and Metallurgy, p. 793-799.
Allan, M. M., Yardley, B. W. D., Forbes, L. J., Shmulovich, K. I., Banks, D. A., and
Shepherd, T. J., 2005, Validation of LA-ICP-MS fluid inclusion analysis with
synthetic fluid inclusions: American mineralogist, v. 90, p. 1767-1775.
Anderson, A. J., Clark, A. H., Ma, X.-P., Palmer, G. R., Macarthur, J. D., and Roedder, E.,
1989, Proton-induced X-ray and gamma-ray emission analysis of unopened fluid
inclusions: Economic Geology, v. 84, p. 924-939.
Archer, A., Bell, R. T., Delaney, G. D., and Godwin, C. I., 1977, Mineralized breccias of
Wernecke Mountains, Yukon.: Geological Association of Canada Program with
Abstracts, v. 2, p. 5.
Audetat, A., Gunther, D., and Heinrich, C. A., 1998, Formation of a Magmatic-
Hydrothermal Ore Deposit: Insights with LA-ICP-MS Analysis of Fluid Inclusions:
Science, v. 279, p. 2091-2094.
Audetat, A., Gunther, D., and Heinrich, C. A., 2000, Causes for Large-Scale Metal
Zonation around Mineralized Plutons: Fluid Inclusion LA-ICP-MS Evidence from
the Mole Granite, Australia.: Economic Geology, v. 95, p. 1563-1581.
Baker, T., 1998, Alteration, mineralization, and fluid evolution at the Eloise Cu-Au
deposit, Cloncurry district, NW Queensland: Economic Geology, v. 93, p. 1213-
1236.
Baker, T., 2002, Emplacement depth and corbon dioxide-rich fluid inclusions in intrusion-
related gold deposits: Economic Geology, v. 97, p. 1111-1117.
Baker, T., 2006, Micrometallogeny of hydrothermal fluids. Project F3 Final Report.
predictive mineral discovery Cooperative Research Centre. 44 p.
Baker, T., Ebert, S., Rombach, C., and Ryan, C., 2006, Chemical Compositions of Fluid
Inclusions in Intrusion-Related Gold Systems, Alaska and Yukon, Using PIXE
Microanalysis: Economic Geology, v. 101, p. 311-327.
References
_____________________________________________________________________R2
Baker, T., Mustard, R., Fu, B., Williams, P. J., Dong, G., Fisher, L. A., Mark, G., and
Ryan, C. G., 2008, Mixed messages in iron oxide–copper–gold systems of the
Cloncurry district, Australia: insights from PIXE analysis of halogens and copper
in fluid inclusions: Mineralium Deposita, v. 43, p. 599-608.
Bakker, R. J., 2003, Package FLUIDS 1. Computer programs for analysis of fluid inclusion
data and for modelling bulk fluid properties: Chemical Geology, v. 194, p. 3-23.
Banks, D. A., Davies, G. R., Yardley, B. W. D., McCaig, A. M., and Grant, N. T., 1991,
The chemistry of brines from an Alpine thrust system in the central Pyrenees; an
application of fluid inclusion analysis to the study of fluid behaviour in orogenesis:
Geochimica et Cosmochimica Acta, v. 55, p. 1021-1030.
Banks, D. A., Giuliani, G., Yardley, B. W. D., and Cheilletz, A., 2000, Emerald
mineralisation in Colombia; fluid chemistry and the role of brine mixing:
Mineralium Deposita, v. 35, p. 699-713.
Barton, M. D., and Johnson, D. A., 1996, Evaporitic-source model for igneous-related Fe-
oxide- (REE-Cu-Au-U) mineralisation: Geology, v. 24, p. 259-262.
Barton, M. D., and Johnson, D. A., 2000, Alternative brine sources for Fe-Oxide(-Cu-Au)
systems: Implications for hydrothermal alteration and metals, in Porter, T. M., ed.,
Hydrothermal Iron Oxide Copper-Gold & Related Deposits: A Global Perspective,
1: Adelaide, PGC Publishing, p. 43-60.
Barton, M. D., and Johnson, D. A., 2004, Footprints of Fe-oxide(-Cu-Au) systems., SEG
2004: Predictive Mineral Discovery Under Cover. Centre for Global Metallogeny,
Spec. Pub. 33, The University of Western Australia, p. 112-116.
Bastrakov, E. N., Skirrow, R. G., and Davidson, G. J., 2007, Fluid Evolution and Origins
of Iron Oxide Cu-Au Prospects in the Olympic Dam District, Gawler Craton, South
Australia: Economic Geology, v. 102, p. 1415-1440.
Baumgartner, L. P., and Olsen, S. N., 1995, A least-squares approach to mass transport
calculations using the isocon method: Economic Geology, v. 90, p. 1261-1270.
Beane, R. E., and Bodnar, R. J., 1995, Hydrothermal fluids and hydrothermal alteration in
porphyry copper deposits., in Pierce, F. W., and Bohm, J. G., eds., Porphyry
Copper Deposits of the American Cordillera., 20, Arizona Geological Society
Digest, p. 83-93.
References
_____________________________________________________________________R3
Becker, S. P., Fall, A., and Bodnar, R. J., 2008, Synthetic fluid inclusions. XVII. PVTX
properties of High Salinity H20-NaCl solutions (>30 wt % NaCl): Application to
fluid inclusions that homogenize by halite disappearance from porphyry copper and
other hydrothermal ore deposits: Economic Geology, v. 103, p. 539-554.
Bell, R. T., 1986, Megabreccias in northeastern Wernecke Mountains, Yukon Territory:
Current Research, Part A, Geological Survey of Canada, v. Paper 86-1A, p. 375-
384.
Bell, R. T., 1989, A conceptual model for development of megabreccias and associated
mineralisation deposits in Wernecke Mountains Canada, Copperbelt , Zaire, and
Flinders Range, Australia: Uranium resources and geology of North America:, v.
Proceedings of a technical committee meeting. Organized by the Internal Atomic
Energy Agency and held in Saskatoon, Canada (1987), p. 149-169.
Bell, R. T., and Delaney, G. D., 1977, Geology of some uranium occurrences in Yukon
Territory, Current Research, Part A., Paper 77-1A, Geological Survey of Canada, p.
33-37.
Bennett, D. G., and Barker, A. J., 1992, High salinity fluids: The result of retrograde
metamorphism in thrust zones: Geochimica et Cosmochimica Acta, v. 56, p. 81-95.
Berndt, M. E., and Seyfried Jr, W. E., 1990, Boron, bromine, and other trace elements as
clues to the fate of chlorine in mid-ocean ridge vent fluids: Geochimica et
Cosmochimica Acta, v. 54, p. 2235-2245.
Berndt, M. E., and Seyfried Jr, W. E., 1997, Calibration of Br/Cl fractionation during
subcritical phase separation of seawater: Possible halite at 9 to 10°N East Pacific
Rise: Geochimica et Cosmochimica Acta, v. 61, p. 2849-2854.
Bertelli, M., 2007, Hydrothermal processes in barren and mineralized systems: Insights
using fluid inclusion microanalysis and geochemical modelling: Unpub. PhD
thesis, James Cook University.
Betts, P. G., Giles, D., Mark, G., Lister, G. S., Goleby, B. R., and Ailleres, L., 2006,
Synthesis of the Proterozoic evolution of the Mt Isa Inlier: Australian Journal of
Earth Sciences, v. 53, p. 187-211.
Blount, C. W., 1977, Barite solubilities and thermodynamic quantities up to 300 C and
1400 bars: American mineralogist, v. 62, p. 942-957.
References
_____________________________________________________________________R4
Boctor, N. Z., 1985, Rhodonite solubility and thermodynamic properties of aqueous
MnCl2 in the system MnO-SiO2-HCl-H20.: Geochimica et Cosmochimica Acta, v.
49, p. 565-575.
Bodnar, R. J., 1993, Revised equation and table for determining the freezing point
depression of H2O-NaCl solutions: Geochimica et Cosmochimica Acta, v. 57, p.
683-684.
Bodnar, R. J., 1994, Synthetic fluid inclusions: XII. The system H2O-NaCl. Experimental
determination of the halite liquidus and isochores for a 40 wt% NaCl solution.:
Geochimica et Cosmochimica Acta, v. 58, p. 1053-1063.
Bodnar, R. J., 1995, Fluid-inclusion evidence for a magmatic source for metals in porphyry
copper deposits, in Thompson, J. F. H., ed., Magmas, fluids and ore deposits:
Mineralogical Association of Canada short course series, 23, p. 139-152.
Bodnar, R. J., 2003, Introduction to aqueous fluid systems., in Samson, I. M., and
Marshall, D., eds., Fluid Inclusions: Analysis and Interpretation., 32, Mineral.
Assoc. Canada, Short Course, p. 81-99.
Bohlke, J. K., and Irwin, J. J., 1992a, Brine history indicated by argon, krypton, chlorine,
bromine, and iodine analyses of fluid inclusions from the mississippi valley type
lead-fluorite-barite deposits at Hansonburg, New Mexico: Earth and Planetary
Science Letters, v. 110, p. 51-66.
Bohlke, J. K., and Irwin, J. J., 1992b, Laser microprobe analyses of Cl, Br, I, and K in
fluid inclusions; implications for sources of salinity in some ancient hydrothermal
fluids: Geochimica et Cosmochimica Acta, v. 56, p. 203-225.
Borisenko, A. S., 1977, Study of the salt composition of solutions in gas-liquid inclusions
in minerals by the cryometric method.: Soviet geology and geophysics, v. 18, p. 11-
19.
Bostrom, K., Joensuu, O., Moore, C., Bostrom, B., Dalziel, M., and Horowitz, A., 1973,
Geochemistry of barium in pelagic sediments: Lithos, v. 6, p. 159-174.
Bottrell, S. H., and Yardley, B., 1988, The composition of a primary granite-derived ore
fluid from S.W. England, determined by fluid inclusion analysis: Geochimica et
Cosmochimica Acta, v. 52, p. 595-588.
References
_____________________________________________________________________R5
Bottrell, S. H., and Yardley, B. W. D., 1991, The distribution of Fe and Mn between
chlorite and fluid: Evidence from fluid inclusions.: Geochimica et Cosmochimica
Acta, v. 55, p. 241-244.
Brideau, M.-A., Thorkelson, D. J., Godin, L., and Laughton, J. R., 2002,
Palaeoproterozoic deformation of the Racklan orogeny, Slats Creek (106 D/16) and
Fairchild Lake (106 C/13) map areas, Wernecke Mountains, Yukon., in Esmond, D.
S., Weston, L. H., and Lewis, L. L., eds., Yukon Exploration and Geology 2002,
Exploration and Geological Services Division, Yukon, Indian and Northern Affairs
Canada.
Brookes, M. L., 2002, Alteration, brecciation and Fe oxide-Cu (-Au) mineralisation at Slab
Creek, Yukon Territory, Canada: Unpub. Hons thesis, James Cook University, 113
p.
Brown, P. E., and Lamb, W. M., 1989, P-V-T properties of fluids in the system Hz0 2
CO2 t- NaCI: New graphical presentations and implications for fluid inclusion
studies: Geochimica et Cosmochimica Acta, v. 53, p. 1209-1221.
Burke, E. A. J., 1994, Raman microspectrometry of fluid inclusions: The daily practice, in
De Vivo, B., and Frezzotti, M. L., eds., Fluid Inclusions in Minerals: Methods and
Applications, p. 25-44.
Burke, E. A. J., 2001, Raman microspectrometry of fluid inclusions: Lithos, v. 55, p. 139-
158.
Burnham, C. W., 1997, Magmas and Hydrothermal Fluids, in Barnes, H. L., ed.,
Geochemistry of hydrothermal ore deposits.
Burruss, R. C., 2003, Raman Spectroscopy of Fluid Inclusions, in Samson, I. M.,
Anderson, A. J., and Marshall, D., eds., Fluid Inclusions: Ananysis and
Interpretation, 32, Mineralogical Association of Canada, p. 279-289.
Campbell, A. R., Banks, D. A., Phillips, R. S., and Yardley, B. W. D., 1995,
Geochemistry of Th-U-REE mineralizing magmatic fluids, Capitan Mountains,
New Mexico: Economic Geology and the Bulletin of the Society of Economic
Geologists, v. 90, p. 1271-1287.
References
_____________________________________________________________________R6
Campbell, J. L., and Czamanske, G. K., 1998, Micro-PIXE in Earth Science, Applications
of microanalytical techniques to understanding mineralising processes, 7. Reviews
in Economic Geology, p. 169-185.
Cannell, J., and Davidson, G.J., 1998, A carbonate-dominated copper-cobalt breccia-vein
system at the Great Australia Deposit, Mount Isa eastern succession: Economic
Geology, v. 93, p. 1406-1421.
Carpenter, A. B., 1978, Origin and chemical evolution of brines in sedimentary basins.:
Oklahoma Geological Survey Circular, v. 79, p. 60-77.
Carpenter, A. B., Trout, M. L., and Pickett, E. E., 1974, Preliminary Report on the Origin
and Chemical Evolution of Lead-and Zinc-Rich Oil Field Brines in Central
Mississippi: Economic Geology, v. 69, p. 1191-1206.
Cash_Minerals, 2008, Cash Minerals news release, Jan 23rd 2008,
http://www.cashminerals.com.
Caulfield, D. A., 1994, Olympic property diamond drilling logs. Yukon Assessment Report
093222, 40 pp.
Chiaradia, M., Banks, D. A., Cliff, R. A., Marschik, R., and De Haller, A., 2006, Origin of
fluids in iron oxide–copper–gold deposits: constraints from ä37Cl, 87Sr/86Sri and
Cl/Br: Mineralium Deposita, v. 41, p. 565-573.
Cline, J. S., and Bodnar, R. J., 1991, Can economic porphyry copper mineralization be
generated by a typical calc-alkaline melt?: Journal of Geophysical Research, v. 96,
p. 8113-8126.
Cline, J. S., and Vanko, D. A., 1995, Magmatically generated saline brines related to
molybdenum at Questa, New Mexico, USA., in Thompson, J. F. H., ed., Magmas,
Fluids, and Ore Deposits, 23. Mineralogical Association of Canada Short Course
Series: Victoria, BC, Canada., Mineralogical Association of Canada, p. 153-174.
Connolly, C. A., Walter, L. M., Baadsgaard, H., and Longstaffe, F. J., 1990, Origin and
evolution of formation waters, Alberta Basin, Western Canada Sedimentary Basin.
I. Chemistry: Applied Geochemistry, v. 5, p. 375-395.
Cooke, D. R., Bull, S. W., Large, R. R., and McGoldrick, P. J., 2000, The Importance of
Oxidized Brines for the Formation of Australian Proterozoic Stratiform Sediment-
Hosted Pb-Zn (Sedex) Deposits: Economic Geology, v. 95, p. 1-17.
References
_____________________________________________________________________R7
Crawford, M. L., 1981, Phase equilibria in aqueous fluid inclusions., in Crawford, L. S. H.
a. M. L., ed., Short Course in Fluid Inclusions: Applications to Petrology, 6,
Mineralogical Association of Canada, p. 75-100.
Dahlkamp, F. J., 1993, Uranium ore deposits: Berlin-Heidelberg, Springer-Verlag, 460 p.
Davidson, G. J., Paterson, H., Meffre, S., and Berry, R. F., 2007, Characteristics and
Origin of the Oak Dam East Breccia-Hosted, Iron Oxide Cu-U-(Au) Deposit:
Olympic Dam Region, Gawler Craton, South Australia: Economic Geology, v. 102,
p. 1471-1498.
Davisson, M. L., Presser, T. S., and Criss, R. E., 1994, Geochemistry of tectonically
expelled fluids from the northern Coast ranges, Rumsey Hills, California, USA:
Geochimica et Cosmochimica Acta, v. 58, p. 1687-1699.
De Jong, G., and Williams, P. J., 1995, Giant metasomatic system formed during
exhumation of mid-crustal Proterozoic rocks in the vicinity of the Cloncurry Fault,
Northwest Queensland: Australian Journal of Earth Sciences, v. 42, p. 281-290.
Delaney, G. D., 1978, A progress report on stratigraphic investigations of the lowermost
succession of Proterozoic rocks, northern Wernecke Mountains, Yukon Territory.,
Exploration and Geological Services Division, Yukon Region, Indian and Northern
Affairs Canada, 12 p.
Delaney, G. D., 1981, The mid-Proterozoic Wernecke Supergroup, Wernecke Mountains,
Yukon Territory, in Campbell, F. H. A., ed., Proterozoic Basins of Canada, Paper
81-10, Geological Survey of Canada, p. 23.
Dilles, J. H., and Einaudi, M. T., 1992, Wall-rock alteration and hydrothermal flow paths
about the Ann-Mason porphyry copper deposit, Nevada; a 6-km vertical
reconstruction: Economic Geology, v. 87, p. 1963-2001.
Direen, N. G., and Lyons, P., 2007, Regional Crustal Setting of Iron Oxide Cu-Au Mineral
Systems of the Olympic Dam Region, South Australia: Insights from Potential-
Field Modeling: Economic Geology, v. 102, p. 1397-1414.
Dubessy, J., Poty, B., and Ramboz, C., 1989, Advances in C-O-H-N-S fluid geochemistry
based on micro-Raman spectrometric analysis of fluid inclusions: European Journal
of Mineralogy, v. 1, p. 517-534.
References
_____________________________________________________________________R8
Duncan, R., Hitzman, M., Nelson, E., Stein, H., Zimmerman, A., and Kirwin, D., 2009,
Re-Os Molybdenite Ages for the Southern Cloncurry IOCG District,
Queensland, Australia: Protracted Mineralisation Over 210 myr, in Williams, P. J.
et al., eds., Smart Science for Exploration and Mining: Proceedings of the Tenth
Biennial SGA Meeting, Townsville, 2009, p. 626-628.
Eaton, W. D., and Archer, A. R., 1981, Wernecke Joint Venture drill report 1-26 claims.
Yukon Assessment Report 090756, 13 pp.
Eggins, S. M., Kinsley, L. P. J., and Shelley, J. M. G., 1998, Deposition and element
fractionation processes during atmospheric pressure laser sampling for analysis by
ICP-MS: Applied Surface Science, v. 127-129, p. 278-286.
Eugster, H. P., and Gunter, W. P., 1981, The compositions of supercritical metamorphic
fluids: Bulletin de Mineralogie, v. 104, p. 817-827.
Fisher, L. A., 2007, Hydrothermal Processes at the Osborne Fe-Oxide-Cu-Au deposit, NW
Queensland: Integration of Multiple Micro-analytical Data Sets to Trace Ore Fluid
Sources: Unpub. PhD thesis, James Cook University, 295 p.
Fisher, L. A., and Kendrick, M. A., 2008a, Metamorphic fluid origins in the Osborne Fe
oxide–Cu–Au deposit, Australia: evidence from noble gases and halogens:
Mineralium Deposita.
Fisher, L. A., and Kendrick, M. A., 2008b, Metamorphic fluid origins in the Osborne Fe
oxide–Cu–Au deposit, Australia: evidence from noble gases and halogens:
Mineralium Deposita Online, v. 03/2008.
Fontes, J. C., and Matray, J. M., 1993a, Geochemistry and origin of formation brines from
the Paris Basin, France: Chemical Geology, v. 109, p. 149-175.
Fontes, J. C., and Matray, J. M., 1993b, Geochemistry and origin of formation brines from
the Paris Basin, France. 1. Brines associated with Triassic salts: Chemical Geology,
v. 109, p. 149-175.
Fournier, R. O., and Truesdell, A. H., 1973, An empirical Na-K-Ca geothermometer for
natural waters: Geochimica et Cosmochimica Acta, v. 37, p. 1255-1275.
Frape, S. K., Fritz, P., and McNutt, R. H., 1984, Water-rock interaction and chemistry of
groundwaters from the Canadian Shield: Geochimica et Cosmochimica Acta, v. 48,
p. 1617-1627.
References
_____________________________________________________________________R9
Frietsch, R., 1978, On the magmatic origin of iron ores of the Kiruna type: Economic
Geology, v. 73, p. 478-485.
Fu, B., Baker, T., Oliver, N. H. S., Williams, P. J., Ulrich, T., Mernagh, T. P., van
Achterberg, E., Ryan, C. G., Marshall, L. J., Rubenach, M. J., Mark, G., and
Yardley, B. W. D., 2004a, Regional fluid compositions of the Mount Isa Eastern
Succession, NW Queensland, Australia, in Barnicoat, A. C., and Korsch, R. J., eds.,
Predictive Mineral Discovery Cooperative Research Centre – Extended Abstracts
from the June 2004 Conference, Geocience Australia, p. 63-66.
Fu, B., Oliver, N. H. S., Baker, T., Williams, P. J., Marshall, L. J., Rubenach, M. J., Ulrich,
T., van Achterberg, E., Ryan, C. G., and Yardley, B. W. D., 2004b, Microanalysis
of regional fluids from the Eastern Succession of the Mount Isa Block, NW
Queensland, in Muhling, J., ed., SEG 2004: Predictive Mineral Discovery Under
Cover; Extended Abstracts, Publication No. 33, Centre for Global Metallogeny,
The University of Western Australia, p. 378-382.
Funayama, M., and Hanor, J. S., 1992, Regional migration of fluids through shaly sand
sequences; examples from the Wilcox of central Louisiana American Association
of Petroleum Geologists, 1992 annual convention; abstracts v. 1992, p. 44.
Funayama, M., and Hanor, J. S., 1995, Pore water salinity as a tool for evaluating
reservoir continuity and fluid migration pathways in the Wilcox Group of central
Louisiana: AAPG Gulf Coast Section meeting; abstracts, v. 79, p. 1558.
Furlanetto, F., Thorkelson, D. J., Gibson, H. D., Rainbird, R. H., and Marshall, D. D.,
2009, Preliminary results of detrital zircon geochronology, Wernecke Supergroup,
Yukon, in Weston, L. H., Blackburn, L. R., and Lewis, L. L., eds., Yukon
Exploration and Geology 2008, Yukon Geological Survey, p. 125-135.
Gagnon, J. E., Samson, I. M., and Fryer, B. J., 2003, LA-ICP-MS analysis of fluid
inclusions, in Samson, I. M., Anderson, A. J., and Marshall, D., eds., Fluid
Inclusions: Analysis and Interpretation, p. 291-318.
Gat, J. R., 1996, Oxygen and hydrogen isotopes in the hydrologic cycle: Annual Review of
Earth and Planetary Sciences, v. 24, p. 225-262.
References
_____________________________________________________________________R10
Gauthier, L., Hall, G., Stein, H., and Schaltegger, U., 2001, The Osborne Deposit,
Cloncurry District: A 1595 Ma Cu-Au Skarn Deposit: 2001: A Hydrothermal
Odyssey, Extended Conference Abstracts, Townsville, 2001, p. 58-59.
Giggenbach, W. F., 1997, The origin and evolution of fluids in magmatic-hydrothermal
systems, in Barnes, H. L., ed., Geochemistry of Hydrothermal Ore Deposits., p.
737-796.
Goldfarb, R. J., Baker, T., Dube, B., Groves, D. I., Hart, C., and Gosselin, P., 2005,
Distribution, character and genesis of gold deposits in metamorphic terranes:
Economic Geology 100th Anniversary- Invited Paper, v. 100, p. 407-450.
Goldstein, R. H., 2001, Fluid inclusions in sedimentary and diagenetic systems: Lithos, v.
55, p. 159-193.
Goldstein, R. H., and Reynolds, T. J., 1994, Systematics of fluid inclusions in diagenetic
minerals. SEPM Short Course 31, Tulsa, 199 pp.
Grant, J. A., 1986, The isocon diagram- a simple solution to Gresens' equation for
metasomatic alteration.: Economic Geology, v. 81, p. 1976-1982.
Grant, J. A., 2005, Isocon analysis: A brief review of the method and applications: Physics
and Chemistry of the Earth, v. 30, p. 997-1004.
Gunther, D., 2001, Quantitative fluid inclusions analysis using a 193 nm excimer LA
system coupled to ICP-MS, in Sylvester, P., ed., LA-ICPMS in the earth sciences,
p. 47-61.
Gunther, D., Audetat, A., Frischknecht, R., and Heinrich, C. A., 1998, Quantitative
analysis of major, minor and trace elements in fluid inclusions using laser ablation–
inductively coupled plasma mass spectrometry: Journal of Analytical Atomic
Spectrometry, v. 13, p. 263-270.
Gunther, D., and Heinrich, C. A., 1999, Enhanced sensitivity in laser ablation-ICP mass
spectrometry using helium-argon mixtures as aerosol carrier: Journal of Analytical
Atomic Spectrometry, v. 14, p. 1363-1368.
Hall, D. L., Sterner, S. M., and Bodnar, R. J., 1988, Freezing point depression of NaCl-
KCl-H2O solutions: Economic Geology and the Bulletin of the Society of
Economic Geologists, v. 83, p. 197-202.
References
_____________________________________________________________________R11
Hand, M., Reid, A., and Jagodzinski, L., 2007, Tectonic Framework and Evolution of the
Gawler Craton, Southern Australia: Economic Geology, v. 102, p. 1377-1395.
Hanor, J. S., 1988, Origin and Migration of Subsurface Sedimentary Brines, Society of
Economic Paleontologists and Mineralogists, 247 p.
Hanor, J. S., 1994, Physical and chemical controls on the composition of waters in
sedimentary basins*: Marine and Petroleum Geology, v. 11, p. 31-45.
Hanor, J. S., 2003, Porewaters in sediments, in Middleton, G. V., ed., Encyclopedia of
sediments and sedimentary rocks, Kluwer Academic Publishers, p. 537-542.
Hanor, J. S., and McIntosh, J. C., 2006, Are secular variations in seawater chemistry
reflected in the compositions of basinal brines?: Journal of Geochemical
Exploration, v. 89, p. 153-156.
Hardie, L. A., Lowenstein, T. K., Timofeeff, M. N., and Demicco, R. V., 2003, Secular
variation in seawater chemistry and the origin and significance of calcium chloride
basinal brines: Geological Society of America Abstracts with Programs, v. 35, p.
201.
Hauck, S. A., 1990, Petrogenesis and tectonic setting of Middle Proterozoic iron oxide-rich
ore deposits- An ore deposit model for Olympic Dam-type mineralization: US
Geological Survey Bulletin, v. 1932, p. 4-34.
Haynes, D. W., Cross, K. C., Bills, R. T., and Reed, M. H., 1995, Olympic Dam ore
genesis; a fluid-mixing model: Economic Geology, v. 90, p. 281-307.
Haynes, F. M., 1985, Determination of fluid inclusion compositions by sequential freezing:
Economic Geology, v. 80, p. 1436-1439.
Heinrich, C. A., Gunther, D., Audetat, A., Ulrich, T., and Frischknecht, R., 1999, Metal
fractionation between magmatic brine and vapour, determined by microanalysis of
fluid inclusions: Geology, v. 27, p. 755-758.
Heinrich, C. A., Pettke, T., Halter, W. E., Aigner-Torres, M., Audetat, A., Gunther, D.,
Hattendorf, B., Bleiner, D., Guillong, M., and Horn, I., 2003, Quantitative multi-
element analysis of minerals, fluid and melt inclusions by laser-ablation
inductively-coupled-plasma mass-spectrometry: Geochimica et Cosmochimica
Acta, v. 67, p. 3473-3496.
References
_____________________________________________________________________R12
Heinrich, C. A., Ryan, C. G., Mernagh, T. P., and Eadington, P. J., 1992, Segregation of
ore metals between magmatic brine and vapor: A fluid inclusion study using PIXE
microanalysis: Economic Geology, v. 87, p. 1566-1583.
Hitzman, M. W., 2000, Iron Oxide-Cu-Au deposits: What, Where, When and Why, in
Porter, T. M., ed., Hydrothermal Iron Oxide Copper-Gold & Related Deposits: A
Global Perspective, 1: Adelaide, PGC Publishing, p. 9-25.
Hitzman, M. W., Oreskes, N., and Einaudi, M. T., 1992, Geological characteristics and
tectonic setting of Proterozoic iron oxide (Cu-U-Au-REE) deposits: Precambrian
Research, v. 58, p. 241-287.
Hitzman, M. W., and Valenta, R. K., 2005, Uranium in iron oxide-copper-gold (IOCG)
systems: Economic Geology, v. 100, p. 1657-1661.
Holk, G. J., and Taylor, H. P., 2007, 18O/16O Evidence for Contrasting Hydrothermal
Regimes Involving Magmatic and Meteoric Hydrothermal Waters at the Valhalla
Metamorphic Core Complex, British Columbia*: Economic Geology, v. 102, p.
1063-1078.
Hunt, J., 2005, The Geology and Genesis of Iron Oxide-Copper-Gold Mineralisation
Associated with Wernecke Breccia, Yukon, Canada: Unpub. PhD thesis, James
Cook University.
Hunt, J., Baker, T., and Thorkelson, D. J., 2005, Regional-scale Proterozoic IOCG-
mineralized breccia systems: examples from the Wernecke Mountains, Yukon,
Canada.: Mineralium Deposita, v. 40, p. 492-514.
Hunt, J.A. and Baker, T., 2002. Geological map of the "Igor creek" area (NTS 106E/2),
northeast Yukon, (1:5000 scale). Exploration and Geological Services Division,
Yukon Region, Indian and Northern Affairs Canada, Open File 2002.
Hunt, J., Laughton, J. R., Brideau, M.-A., Thorkelson, D. J., Brookes, M. L., and Baker,
T., 2002, New mapping around the Slab iron oxide-copper-gold occurrence,
Wernecke Mountains (parts of NTS 106C/13, 106D/16, 106E/1 and 106F/4),
Yukon, in Esmond, D. S., Weston, L. H., and Lewis, L. L., eds., Yukon Exploration
and Geology 2002, Exploration and Geological Services Division, Yukon, Indian
and Northern Affairs Canada, p. 125-138.
References
_____________________________________________________________________R13
Hunt, J. A., Baker, T., and Thorkelson, D. J., 2007, A Review of Iron Oxide Copper-Gold
Deposits, with Focus on the Wernecke Breccias, Yukon, Canada, as an Example of
a Non-Magmatic End Member and Implications for IOCG Genesis and
Classification: Exploration and Mining Geology, v. 16, p. 209-232.
Irwin, J. J., 1998, Evidence for sources of salinity and dissolved gases, fluid mixing and
phase separation, from laser microprobe analysis of Cl, K, Br, I, Ar, Kr, and Xe in
fluid inclusions, Applications of microanalytical techniques to understanding
mineralising processes, 7. Reviews in Economic Geology, p. 217-231.
Irwin, J. J., and Roedder, E., 1995, Diverse origins of fluid inclusions at Bingham 737
(Utah, USA), Butte (Montana, USA), St. Austell (Cornwall, UK) and 738
Ascension Island (mid-Atlantic, UK), indicated by laser microprobe analysis 739 of
Cl, K, Br, I, Ba + Te, U, Ar, Kr, and Xe: Geochimica et Cosmochimica Acta, v. 59,
p. 295-312.
Kamenetsky, V. S., van Achterbergh, E., Ryan, C. G., Naumov, V. B., Mernagh, T. P., and
Davidson, P., 2002, Extreme chemical heterogeneity of granite-derived
hydrothermal fluids; an example from inclusions in a single crystal of miarolitic
quartz: Geology, v. 30, p. 459-462.
Kelley, S., Turner, G., Butterfield, A. W., and Shepherd, T. J., 1986, The source and
significance of argon isotopes in fluid inclusions from areas of rnineralization:
Earth and Planetary Science Letters, v. 79, p. 303-318.
Kendrick, M. A., Burgess, R., Harrison, D., and Bjorlykke, A., 2005, Noble gas and
halogen evidence on the origin of Scandinavian sandstone-hosted Pb-Zn deposits:
Geochimica et Cosmochimica Acta, v. 69, p. 109-129.
Kendrick, M. A., Burgess, R., Leach, D., and Pattrick, R. A. D., 2002a, Hydrothermal
fluid origins in Mississippi valley-type ore deposits: combined noble gas (He, Ar,
Kr) and halogen (Cl, Br, I) analysis of fluid inclusions from the Illinois- Kentucky
Fluorspar district, Viburnum Trend, and Tri-State districts, mid continent United
States: Economic Geology, v. 97, p. 452-479.
Kendrick, M. A., Burgess, R., Pattrick, R. A. D., and Turner, G., 2001, Fluid inclusion
noble gas and halogen evidence on the origin of Cu-Porphyry mineralising fluids:
Geochimica et Cosmochimica Acta, v. 65, p. 2651-2668.
References
_____________________________________________________________________R14
Kendrick, M. A., Burgess, R., Pattrick, R. A. D., and Turner, G., 2002b, Hydrothermal
fluid origins in a fluorite-rich Mississippi valley-type deposit: combined noble gas
(He, Ar, Kr) and halogen (Cl, Br, I) analysis of fluid inclusions from the South
Pennine Orefield, United Kingdom: Economic Geology, v. 97, p. 435-451.
Kendrick, M. A., Duncan, R. J., and Phillips, D., 2006a, Noble gas and halogen
constraints on mineralizing fluids of metamorphic versus surficial origin: Mt Isa,
Australia: Chemical Geology, v. 235, p. 325-351.
Kendrick, M. A., Honda, M., Gillen, D., Baker, T., and Phillips, D., 2008, New constraints
on regional brecciation in the Wernecke Mountains, Canada, from He, Ne, Ar, Kr,
Xe, Cl, Br and I in fluid inclusions: Chemical Geology, v. 255, p. 33-46.
Kendrick, M. A., Miller, J. M., and Phillips, D., 2006b, Part I. Decrepitation and
degassing behaviour of quartz up to 1560 C: Analysis of noble gases and halogens
in complex fluid inclusions assemblages: Geochimica et Cosmochimica Acta, v.
70, p. 2540-2561.
Khin Zaw, Huston, D. L., Large, R. R., Mernagh, T., and Hoffmann, C. F., 1994,
Microthermometry and geochemistry of fluid inclusions from the Tennant Creek
gold-copper deposits: implications for ore deposition and exploration: Mineralium
Deposita, v. 29, p. 288-300.
Knutson, J., Fergurson, J., Roberts, W. M. B., and Donnelly, T. H., 1979, Petrogenesis of
copper-bearing breccia pipes, Redbank, Northern Territory, Australia: Economic
Geology, v. 74, p. 814-826.
Kolker, A., 1982, Mineralogy and geochemistry of Fe-Ti oxide and apatite (nelsonite)
deposits and evaluation of the liquid immiscibility hypothesis: Economic Geology,
v. 77, p. 1146-1158.
Kyser, K., and Hiatt, E. E., 2003, Fluids in sedimentary basins: an introduction: Journal of
Geochemical Exploration, v. 80, p. 139-149.
Lane, R. A., 1990, Geologic setting and petrology of the Proterozoic Ogilvie Mountains
Breccia of the Coal Creek inlier, southern Ogilvie Mountains, Yukon Territory.:
Unpub. Unpublished M.Sc. thesis thesis, University of British Columbia, 223 p.
Laughton, J. R., Thorkelson, D. J., Brideau, M.-A., and Hunt, J., 2002, Paleoproterozoic
volcanism and plutonism in the Wernecke Mountains, Yukon, in Esmond, D. S.,
References
_____________________________________________________________________R15
Weston, L. H., and Lewis, L. L., eds., Yukon exploration and Geology 2002,
Exploration and Geological Services Division, Yukon, Indian and Northern Affairs
Canada.
Laughton, J. R., Thorkelson, D. J., Brideau, M.-A., Hunt, J., and Marshall, D., 2005, Early
Proterozoic orogeny and exhumation of Wernecke Supergroup revealed by vent
facies of Wernecke Breccia, Yukon, Canada: Canadian Journal of Earth Sciences,
v. 42, p. 1033-1044.
Laznicka, P., and Edwards, R. J., 1979, Delores Creek, Yukon- a disseminated copper
mineralization in sodic metasomatites: Economic Geology, v. 74, p. 1352-1370.
Laznicka, P., and Gaboury, D., 1988, Wernecke breccias and Fe, Cu, U mineralization:
Quartet Mountain-Igor area (NTS 106E), Yukon Geology, 2, Exploration and
Geological Services Division, Yukon, Indian and Northern Affairs Canada, p. 42-
50.
Longerich, H. P., Jackson, S. E., and Gunther, D., 1996, Laser Ablation Inductively
Coupled Plasma Mass Spectrometric Transient Signal Data Acquisition and
Analyte Concentration Calculation: Journal of Analytical Atomic Spectrometry, v.
11, p. 899-904.
Longstaffe, F. J., 2003, Isotopic methods in sedimentology, in Middleton, G. V., ed.,
Encyclopedia of sediments and sedimentary rocks, Kluwer Academic Publishers, p.
385-397.
Lowenstein, T. K., Hardie, L. A., Timofeeff, M. N., and Demicco, R. V., 2003, Secular
variation in seawater chemistry and the origin of calcium chloride basinal brines:
Geology, v. 31, p. 857-860.
Lowenstern, J. B., 2001, Carbon dioxide in magmas and implications for hydrothermal
systems: Mineralium Deposita, v. 36, p. 490-502.
Mark, G., Oliver, N. H. S., and Williams, P. J., 2006, Mineralogical and chemical
evolution of the Ernest Henry Fe oxide–Cu–Au ore system, Cloncurry district,
northwest Queensland, Australia: Mineralium Deposita, v. 40, p. 769-801.
Mark, G., Oliver, N. H. S., Williams, P. J., Valenta, R. K., and Crookes, R. A., 2000, The
evolution of the Ernest Henry Fe-oxide-(Cu-Au) hydrothermal system, in Porter, T.
References
_____________________________________________________________________R16
M., ed., Hydrothermal Iron Oxide Copper-Gold & Related Deposits: A Global
Perspective, 1: Adelaide, PGC Publishing, p. 123-136.
Mark, G., Williams, P. J., Ryan, C., and Blake, K. L., 2005, Do We Really Understand
how to Identify the Sources of Salinity in Ore-Forming Hydrothermal Fluids Using
Halogen Geochemistry?: EGRU newsletter, v. Dec 2005, p. 7-8.
Marschik, R., and Fontbote, L., 2001, The Candelaria-Punta del Cobre Iron Oxide Cu-
Au(-Zn-Ag) Deposits, Chile: Economic Geology, v. 96, p. 1799-1826.
Martel, A. T., Gibling, M. R., and Nguyen, M., 2001, Brines in the Carboniferous Sydney
Coalfield, Atlantic Canada: Applied Geochemistry, v. 16, p. 35-55.
McCaig, A. M., Tritlla, J., and Banks, D. A., 2000, Fluid mixing and recycling during
Pyrenean thrusting; evidence from fluid inclusion halogen ratios: Geochimica et
Cosmochimica Acta, v. 64, p. 3395-3412.
Meere, P. A., and Banks, D. A., 1997, Upper crustal fluid migration: An example from the
Variscides of SW Ireland: Journal of the Geological Society, London, v. 154, p.
975-985.
Munz, I. A., Yardley, B. W. D., Banks, D. A., and Wayne, D., 1995, Deep penetration of
sedimentary fluids in basement rocks from southern Norway: Evidence from
hydrocarbon and brine inclusions in quartz veins: Geochimica et Cosmochimica
Acta, v. 59, p. 239-254.
Naden, J., 1996, CalcicBrine: a Microsoft Excel 5.0 Add-in for calculating salinities from
microthermometric data in the system NaCl-CaCl2-H20: Sixth Biennial Pan-
American Conference on Research on Fluid Inclusions, Madison, Wisconson,
Program with Abstracts, 1996, p. 97-98.
Nikiel, A. M., and Hanor, J. S., 1999, Spatial variations in formation water salinities,
South Pelto and South Timbalier areas, eastern Louisiana continental shelf: 1999
AAPG Gulf Coast Association of Geological Societies meeting; abstracts, v. 83, p.
1360.
Oliver, N. H. S., Cleverley, J. S., Mark, G., Pollard, P. J., Fu, B., Marshall, L. J.,
Rubenach, M. J., Williams, P. J., and Baker, T., 2004, Modeling the Role of Sodic
Alteration in the Genesis of Iron Oxide-Copper-Gold Deposits, Eastern Mount Isa
Block, Australia: Economic Geology, v. 99, p. 1145-1176.
References
_____________________________________________________________________R17
Olsen, S. N., and Grant, J. A., 1991, Isocon analysis of migmatization in the Front Range,
Colorado, USA: Journal of Metamorphic Geology, v. 9, p. 151-164.
Oosting, S. E., and Von Damm, K. L., 1996, Bromide/chloride fractionation in seafloor
hydrothermal fluids from 9–10°N East Pacific Rise: Earth and Planetary Science
Letters, v. 144, p. 133-145.
Oreskes, N., and Einaudi, M. T., 1992, Origin of hydrothermal fluids at Olympic Dam:
Preliminary results from fluid inclusions and stable isotopes: Economic Geology, v.
87, p. 64-90.
Orville, P. M., 1963, Alkali ion exchange between vapor and feldspar phases: American
Journal of Science, v. 261, p. 201-237.
Partington, G. H., and Williams, P. J., 2000, Proterozoic Lode Gold and (Iron)-Copper-
Gold Deposits: A comparison of Australian and Global examples: SEG reviews, v.
13.
Pasteris, J. D., Wopenka, B., and Seitz, J. C., 1988, Practical aspects of quantitative laser
Raman microprobe spectroscopy for the study of fluid inclusions.: Geochimica et
Cosmochimica Acta, v. 52, p. 979-988.
Perring, C. S., Pollard, P. J., Dong, G., Nunn, A. J., and Blake, K. L., 2000, The Lightning
Creek sill complex, Cloncurry district, NW Queensland: A source of fluids for Fe
oxide Cu-Au mineralization and sodic-calcic alteration: Economic Geology, v. 95,
p. 1067-1089.
Pollard, P. J., 2000, Evidence of a magmatic fluid and metal source for Fe-oxide Cu-Au
mineralisation, in Porter, T. M., ed., Hydrothermal Iron Oxide Copper-Gold &
Related Deposits: A Global Perspective, 1: Adelaide, PGC Publishing, p. 27-42.
Pollard, P. J., 2001, Sodic(-calcic) alteration in Fe-oxide-Cu-Au districts: an origin via
unmixing of magmatic H2O-CO2-NaCl ± CaCl2-KCl fluids: Mineralium Deposita,
v. 36, p. 93-100.
Pollard, P. J., 2006, An intrusion-related origin for Cu–Au mineralization in iron oxide–
copper–gold (IOCG) provinces: Mineralium Deposita, v. 41, p. 179-187.
Porter, T. M., 2000, Hydrothermal iron-oxide Copper-gold and related ore deposits, in
Porter, T. M., ed., Hydrothermal Iron Oxide Copper-Gold & Related Deposits: A
Global Perspective, 1: Adelaide, PGC Publishing, p. 3-6.
References
_____________________________________________________________________R18
Potter, R. W., 1977, Pressure corrections for fluid-inclusion homogenization temperatures
based on the volumetric properties of the system NaCl-H2O: Journal of Research,
US Geological Survey, v. 5, p. 603-607.
Potter, R. W., Clynne, M. A., and Brown, D. L., 1978, Freezing point depression of
aqueous sodium chloride solutions: Economic Geology, v. 73, p. 284-285.
Requia, K., and Fontbote, L., 2000, The Salobo iron oxide copper-gold deposit, Carajas,
Northern Brazil, in Porter, T. M., ed., Hydrothermal Iron Oxide Copper-Gold &
Related Deposits: A Global Perspective, 1: Adelaide, PGC Publishing, p. 225-236.
Rich, R. A., Holland, H. D., and Peterson, U., 1977, Hydrothermal uranium
deposits: New York, Elsevier, 264p p.
Rimfire, 2007, 2007 Hoover drill results table:
http://www.rimfire.bc.ca/s/Wernecke_Breccias.asp, Rimfire Minerals Corporation.
Riverin, G., and Hodgson, C. J., 1980, Wall-rock alteration at the Millenbach Cu-Zn mine,
Noranda, Quebec: Economic Geology, v. 75, p. 424-444.
Roedder, E., 1962, Studies of fluid inclusions; Part 1, Low temperature application of a
dual-purpose freezing and heating stage: Economic Geology, v. 57, p. 1045-1061.
Roedder, E., 1963, Studies of fluid inclusions; Part 2, Freezing data and their
interpretation: Economic Geology, v. 58, p. 167-211.
Roedder, E., 1984, Fluid Inclusions, Mineralogical Society of America, 644 p.
Roedder, E., and Bodnar, R. J., 1980, Geological pressure determinations from fluid
inclusion studies.: Annual Review of Earth and Planetary Sciences, v. 8, p. 263-
301.
Rotherham, J. F., Blake, K. L., Cartwright, I., and Williams, P. J., 1998, Stable isotope
evidence for the origin of the Mesoproterozoic Starra Au-Cu deposit, Cloncurry
District, Northwest Queensland: Economic Geology, v. 93, p. 1435-1449.
Rudnick, R. L., and Fountain, D. M., 1995, Nature and composition of the continental
crust: A lower crustal perspective: Reviews of Geophysics: Reviews of
Geophysics, v. 33, p. 267-309.
Ryan, C., 1999, Advances in fluid inclusion analysis using the nuclear microprobe:
Nuclear instruments and methods in physics research, v. B158, p. 523-532.
References
_____________________________________________________________________R19
Ryan, C., Heinrich, C. A., van Achterbergh, E., Ballhaus, C., and Mernagh, T., 1995,
Microanalysis of ore-forming fluids using the scanning proton microprobe: Nuclear
instruments and methods in physics research, v. B104, p. 182-190.
Ryan, C. G., Cousens, D. R., Heinrich, C. A., Griffin, W. L., Sie, S. H., and Mernagh, T.,
1991, Quantitative PIXE microanalysis of fluid inclusions based on a layered yield
model: Nuclear instruments and methods in physics research, v. B54, p. 292-297.
Ryan, C. G., Cousens, D. R., Sie, S. H., Griffin, W. L., Suter, G. F., and Clayton, E., 1990,
Quantitative PIXE microanalysis of geological material using the CSIRO proton
microprobe.: Nuclear instruments and methods in physics research, v. B47, p. 55-
71.
Ryan, C. G., Heinrich, C. A., and Mernagh, T. P., 1993, PIXE microanalysis of fluid
inclusions and its application to study ore metal segregation between magmatic
brine and vapour: Nuclear instruments and methods in physics research, v. B77, p.
463-471.
Ryan, C. G., McInnes, B. I. A., Williams, P. J., Dong, G., Win, T. T., and Yeats, C. J.,
2001, Imaging fluid inclusion content using the new CSIRO-GEMOC nuclear
microprobe: Nuclear instruments and methods in physics research, v. B181, p. 570-
577.
Scambelluri, M., Pennacchioni, G., and Philipot, P., 1998, Salt-rich aqueous fluids formed
during eclogitization of metabasites in the Alpine continental crust (Austroalpine
Mt. Emilius unit, Italian Western Alps). Lithos, v. 43, p. 151-167.
Seward, T. M., and Barnes, H. L., 1997, Metal transport by hydrothermal ore fluids, in
Barnes, H. L., ed., Geochemistry of hydrothermal ore deposits: New York, Wiley,
p. 435-486.
Shepherd, T. J., Ayora, C., Cendon, D. I., Chenery, S. R., and Moissette, A., 1998,
Quantitative solute analysis of single fluid inclusions in halite by LA-ICP-MS and
cryo-SEM-EDS: complementary microbeam techniques.: European Journal of
Mineralogy, v. 10, p. 1097-1108.
Shepherd, T. J., Rankin, A. H., and Alderton, D. H. M., 1985, A practical guide to fluid
inclusion studies, Glasgow, Blackie & Son, United Kingdom, 239 p.
References
_____________________________________________________________________R20
Skirrow, R. G., 2000, Gold-copper-bismuth deposits of the Tennant Creek district,
Australia: A reappraisal of diverse high-grade systems, in Porter, T. M., ed.,
Hydrothermal Iron Oxide Copper-Gold & Related Deposits: A Global Perspective,
1: Adelaide, PGC Publishing, p. 149-160.
Skirrow, R. G., Bastrakov, E. N., Barovich, K., Fraser, G. L., Creaser, R. A., Fanning, C.
M., Raymond, O. L., and Davidson, G. J., 2007, Timing of Iron Oxide Cu-Au-(U)
Hydrothermal Activity and Nd Isotope Constraints on Metal Sources in the Gawler
Craton, South Australia: Economic Geology, v. 102, p. 1441-1470.
Smith, M., Banks, D. A., Yardley, B. W. D., and Boyce, A. J., 1996, Fluid inclusion and
stable isotope constraints on the genesis of the Cligga Head Sn-W deposit, S.W.
England: European Journal of Mineralogy, v. 8, p. 961-974.
Smith, M., and Chengyu, W., 2000, The geology and genesis of the Bayan Obo Fe-REE-
Nb deposit: A review, in Porter, T. M., ed., Hydrothermal Iron Oxide Copper-Gold
& Related Deposits: A Global Perspective, 1: Adelaide, PGC Publishing, p. 271-
282.
Smith, M. P., and Yardley, B. W. D., 1999, Fluid evolution during metamorphism of the
Otago Schist, New Zealand: (II) Influence of detrital apatite on fluid salinity:
Journal of Metamorphic Geology, v. 17, p. 187-193.
Stammers, M. A., 1995, 1995 drilling report on the Slats mineral claims. Yukon
Assessment Report 093436, 19 pp.
Sterner, S. M., Hall, D. L., and Bodnar, R. J., 1988, Synthetic fluid inclusions. V.
Solubility relations in the system NaCl-KCl-H20 under vapor-saturated conditions:
Geochimica et Cosmochimica Acta, v. 52, p. 989-1005.
Strauss, H., 1993, The sulphur isotope record of Precambrian sulphates: new data and a
critical evaluation of the existing record: Precambrian Research, v. 63, p. 225-246.
Taylor, S. R., and McLennan, S. M., 1985, The Continental Crust: its Composition and
Evolution: Boston, Massachusetts, Blackwell Scientific Publications, 312 p.
Taylor, S. R., and McLennan, S. M., 1995, The geochemical evolution of the continental
crust: Reviews of Geophysics, v. 33, p. 241-265.
References
_____________________________________________________________________R21
Thorkelson, D. J., 2000, Geology and mineral occurrences of the Slats Creek, Fairchild
Lake and "Dolores Creek" areas, Wernecke Mountains (106D/16, 106C/13,
106C/14), Yukon Territory., 73 p.
Thorkelson, D. J., Laughton, J. R., Hunt, J. A., and Baker, T., 2003, Geology and mineral
occurrences of the Quartet Lakes map area (NTS 106E/1), Wernecke and
Mackenzie Mountains, Yukon, in Emond, D. S., and Lewis, L. L., eds., Yukon
Exploration and Geology 2002, Exploration and Geological Services Division,
Yukon Region, Indian and Northern Affairs Canada, p. 223-239.
Thorkelson, D. J., Mortensen, J. K., Creaser, R. A., Davidson, G. J., and Abbott, J. G.,
2001b, Early Proterozoic magmatism in Yukon, Canada: constraints on the
evolution of northwestern Laurentia: Canadian Journal of Earth Sciences, v. 38, p.
1479-1494.
Thorkelson, D. J., Mortensen, J. K., Davidson, G. J., Creaser, R. A., Perez, W. A., and
Abbott, J. G., 2001a, Early Mesoproterozoic intrusive breccias in Yukon, Canada:
the role of hydrothermal systems in reconstructions of North America and
Australia: Precambrian Research, v. 111, p. 31-55.
Thorkelson, D. J., and Wallace, C. A., 1993, Development of Wernecke Breccias in Slats
Creek (106D/16) map area, Wernecke Mountains, Yukon., Yukon Exploration and
Geology 1992., Exploration and Geological Services Division, Yukon, Indian and
Northern Affairs Canada, p. 19-30.
Thorkelson, D. J., and Wallace, C. A., 1994, Geological setting of mineral occurrences in
Fairchild Lake map area (106C/13), Wernecke Mountains, Yukon, In: Yukon
Exploration and Geology, 1993, Exploration and Geological Services Division,
Yukon, Indian and Northern Affairs, Canada, p. 79-92.
Tolstikhin, I., Lehmann, B. E., Loosli, H. H., and Gautschi, A., 1996, Helium and argon
isotopes in rocks, minerals, and related groundwaters: A case study in northern
Switzerland.: Geochimica et Cosmochimica Acta, v. 60, p. 1497-1514.
Touret, J. L. R., 2001, Fluids in metamorphic rocks: Lithos, v. 55, p. 1-25.
Trommsdorf, V., Skippen, G., and Ulmer, P., 1985, Halite and sylvite solid inclusions in
high-grade rocks: Contributions to Mineralogy and Petrology, v. 89, p. 24-29.
References
_____________________________________________________________________R22
Turekian, K. K., and Tausch, E. H., 1964, Barium in deep sea sediments of the Atlantic
Ocean: Nature, v. 201, p. 696-697.
Turner, G., and Bannon, M. P., 1992, Argon isotope geochemistry of inclusion fluids from
granite-associated mineral veins in southwest and northeast England: Geochimica
et Cosmochimica Acta, v. 56, p. 227-243.
Turner, G., Burnard, P., Ford, J. L., Gilmour, J. D., Lyon, I. C., and Stuart, F. M., 1993,
Tracing fluid sources and interactions: Philosophical transcripts of the Royal
Society of London, v. 344, p. 127-140.
Ullrich, T. D., and Clark, A. H., 1999, The Candelaria copper-gold deposit, Region III,
Chile: Paragenesis, geochronology and fluid composition, in Stanley, C. J., ed.,
Mineral Deposits: Processes to Processing, 1: Rotterdam, A. A. Balkema, p. 201-
204.
Ullrich, T. D., Clark, A. H., and Kyser, K., 2001a, The Candelaria Cu–Au deposit, III
Region, Chile: product of long-term mixing of magmatic-hydrothermal and
evaporite-sourced fluids: Geological Society of America Abstracts with Programs,
v. 33/6, p. A3.
Ullrich, T. D., Gunther, D., and Heinrich, C. A., 1999, Gold concentrations of magmatic
brines and the metal budget of porphyry copper deposits: Nature, v. 399, p. 676-
679.
Ullrich, T. D., Gunther, D., and Heinrich, C. A., 2001b, The evolution of a porphyry Cu-
Au deposit, based on LA-ICP-MS analysis of fluid inclusions: Bajo de la
Alumbrera, Argentina: Economic Geology, v. 96, p. 1743-1774.
Ulrich, T., Gunther, D., and Heinrich, C. A., 2001, The evolution of a porphyry Cu-Au
deposit, based on LA-ICP-MS analysis of fluid inclusions: Bajo de la Alumbrera,
Argentina: Economic Geology, v. 96, p. 1743-1774.
Vanko, D. A., Bodnar, R. J., and Sterner, S. M., 1988, Synthetic fluid inclusions: VIII.
Vapor-saturated halite solubility in part of the system NaCl-CaC12-H20, with
application to fluid inclusions from oceanic hydrothermal systems: Geochimica et
Cosmochimica Acta, v. 52, p. 2451-2456.
Vanko, D. A., Bonnin-Mosbah, M., Philippot, P., Roedder, E., and Sutton, S. R., 2001,
Fluid inclusions in quartz from oceanic hydrothermal specimens and the Bingham,
References
_____________________________________________________________________R23
Utah porphyry-Cu deposit; a study with PIXE and SXRF: Chemical Geology, v.
173, p. 227-238.
Wanhainen, C., Broman, C., and Martinsson, O., 2003, The Aitik Cu-Au-Ag deposit in
northern Sweden: a product of high salinity fluids: Mineralium Deposita, v. 38, p.
715-726.
Warren, J., 1999, Evaporites: Their evolution and economics, Blackwell Science Ltd, 438
p.
Williams, A. E., and McKibben, M. A., 1989, A brine interface in the Salton Sea
geothermal system, California; fluid geochemical and isotopic characteristics:
Geochimica et Cosmochimica Acta, v. 53, p. 1905-1920.
Williams, P. J., 1998, Metalliferous economic geology of the Mt Isa eastern succession,
northwest Queensland: Australian Journal of Earth Sciences, v. 45, p. 329-341.
Williams, P. J., Barton, M. D., Johnson, D. A., Fontbote, L., De Haller, A., Mark, G.,
Oliver, N. H. S., and Marschik, R., 2005, Iron Oxide Copper-Gold Deposits:
Geology, Space-Time Distribution and Possible Modes of Origin.: Economic
Geology, v. 100th Anniversary Volume, p. 371-405.
Williams, P. J., Broman, C., Dong, G., Mark, G., Martinsson, O., Mernagh, T., Pollard, P.
J., Ryan, C., and Win, T. T., 2004, PIXE Characterization of Fluid Inclusion
Brines from Proterozoic Fe Oxide-Bearing Cu-Au Deposits, Norrbotten (Sweden)
and the Cloncurry District (NW Queensland).
Williams, P. J., Dong, G., Pollard, P. J., Perring, C. S., Ryan, C. G., and Mernagh, T. P.,
1999, Fluid inclusion geochemistry of Cloncurry (Fe)-Cu-Au deposits, in Stanley,
C. J., ed., Mineral Deposits: Processes to Processing, 1: Rotterdam, A. A. Balkema,
p. 111-114.
Williams, P. J., Dong, G., Ryan, C. G., Pollard, P. J., Rotherham, J. F., Mernagh, T., and
Chapman, L. H., 2001, Geochemistry of hypersaline fluid inclusions from the
Starra (Fe oxide)-Au-Cu deposit, Cloncurry district, Queensland: Economic
Geology, v. 96, p. 875-883.
Williams-Jones, A. E., and Heinrich, C. A., 2005, Vapor Transport of Metals and the
Formation of Magmatic-Hydrothermal Ore Deposits: Economic Geology, v. 100, p.
1287-1312.
References
_____________________________________________________________________R24
Wopenka, B., and Pasteris, J. D., 1986, Limitations to quantitative analysis in of fluid
inclusions in geological samples by laser Raman microprobe spectroscopy: Applied
Spectroscopy, v. 40, p. 144-151.
Worden, R. H., 1996, Controls on halogen concentrations in sedimentary formation waters:
Mineralogical Magazine, v. 60, p. 259-274.
Yardley, B., 2005, Metal concentrations in crustal fluids and their relationship to ore
formation: Economic Geology 100th Anniversary- Invited Paper, v. 100, p. 613-
632.
Yardley, B. W. D., 1997, The evolution of fluids through the metamorphic cycle, in
Jamtveit, B., and Yardley, B. W. D., eds., Fluid flow and transport in rocks:
London, Chapman and Hall, p. 99-122.
Yardley, B. W. D., Banks, D. A., and Barnicoat, A. C., 2000, The chemistry of crustal
brines: Tracking their origins, in Porter, T. M., ed., Hydrothermal Iron Oxide
Copper-Gold & Related Deposits: A global perspective, 1: Adelaide, PGC
Publishing, p. 61-70.
Yardley, B. W. D., and Graham, J. T., 2002, The origins of salinity in metamorphic fluids:
Geofluids, v. 2, p. 249-256.
Yukon_Minfile, 1998, Database of Yukon mineral occurrences: Yukon Geological Survey
(can be downloaded from http://ygsftp.gov.yk.ca).
Yukon_Minfile, 2003, Database of Yukon mineral occurrences.: Exploration and
Geological Services Division, Yukon Region, Indian and Northern Affairs Canada.,
v. CD-ROM 2 (can be downloaded from www.geology.gov.yk.ca).
Zhang, Y.-G., and Frantz, J. D., 1987, Determination of the homogenization temperatures
and densities of supercritical fluids in the system NaCl-KCl-CaCl2-H2O using
synthetic fluid inclusions: Chemical Geology, v. 64, p. 335-350.
Zwart, E. W., and Touret, J. L. R., 1994, Melting behaviour and composition of aqueous
fluid inclusions in fluorite and calcite: applications within the system H20-CaCl2-
NaCl: European Journal of Mineralogy, v. 6, p. 773-786.
