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McNulty, Brian A., Fox, Nathan, Gemmell, J. Bruce (2020) ASSESSING HYDROTHERMAL ALTERATION INTENSITY IN VOLCANIC-HOSTED MASSIVE SULFIDE SYSTEMS USING PORTABLE X-RAY FLUORESCENCE ANALYSIS OF DRILL CORE: AN EXAMPLE FROM MYRA FALLS, CANADA. Economic Geology, 115 (2) 443-453 doi:10.5382/econgeo.4714

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Reference TypeJournal (article/letter/editorial)
TitleASSESSING HYDROTHERMAL ALTERATION INTENSITY IN VOLCANIC-HOSTED MASSIVE SULFIDE SYSTEMS USING PORTABLE X-RAY FLUORESCENCE ANALYSIS OF DRILL CORE: AN EXAMPLE FROM MYRA FALLS, CANADA
JournalEconomic Geology
AuthorsMcNulty, Brian A.Author
Fox, NathanAuthor
Gemmell, J. BruceAuthor
Year2020 (March 1)Volume115
Page(s)443-453Issue2
PublisherSociety of Economic Geologists
DOIdoi:10.5382/econgeo.4714Search in ResearchGate
Mindat Ref. ID224410Long-form Identifiermindat:1:5:224410:9
GUID736fa1a1-a054-4cfa-8322-2303747c8258
Full ReferenceMcNulty, Brian A., Fox, Nathan, Gemmell, J. Bruce (2020) ASSESSING HYDROTHERMAL ALTERATION INTENSITY IN VOLCANIC-HOSTED MASSIVE SULFIDE SYSTEMS USING PORTABLE X-RAY FLUORESCENCE ANALYSIS OF DRILL CORE: AN EXAMPLE FROM MYRA FALLS, CANADA. Economic Geology, 115 (2) 443-453 doi:10.5382/econgeo.4714
Plain TextMcNulty, Brian A., Fox, Nathan, Gemmell, J. Bruce (2020) ASSESSING HYDROTHERMAL ALTERATION INTENSITY IN VOLCANIC-HOSTED MASSIVE SULFIDE SYSTEMS USING PORTABLE X-RAY FLUORESCENCE ANALYSIS OF DRILL CORE: AN EXAMPLE FROM MYRA FALLS, CANADA. Economic Geology, 115 (2) 443-453 doi:10.5382/econgeo.4714
In(2020, March) Economic Geology Vol. 115 (2) Society of Economic Geologists
Abstract/NotesAbstract
Current portable X-ray fluorescence (pXRF) technology can rapidly and inexpensively yield concentrations of geologically significant elements, typically with instrument detection limits below several tens of parts per million. Based on conventional XRF whole-rock geochemical data, both the Ishikawa alteration index and the chlorite-carbonate-pyrite index increase with proximity to sulfide mineralization at Myra Falls. However, available pXRF technology is typically unable to detect all the elements required to calculate these alteration indices. As a result, there is a need to utilize the elements that are readily detectable using pXRF and apply these to hydrothermal alteration assessment.
We propose that Rb/Sr ratios provide a robust proxy for the Ishikawa alteration index and demonstrate that conventional whole-rock XRF analytical results for Rb and Sr can be reproduced using pXRF analysis from drill core surfaces. At Myra Falls, the Rb/Sr ratios vary from <0.1 for least altered rocks, 0.1 to 0.5 for weakly altered rocks, 0.5 to 1.0 for moderately altered rocks, 1.0 to 2.0 for strongly altered rocks, and >2.0 for intensely altered rocks. Downhole profiles of alteration intensity generated from systematic pXRF analysis of drill core surfaces can be used to inform drilling and targeting decisions. The application of the Rb/Sr ratio as a proxy for alteration intensity extends beyond this case study and can be applied to other hydrothermal systems that produce phyllosilicate minerals as alteration products of feldspar.

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McNulty, Brian A., Fox, Nathan, Berry, Ron F., Gemmell, J. Bruce (2018) Lithological discrimination of altered volcanic rocks based on systematic portable X-ray fluorescence analysis of drill core at the Myra Falls VHMS deposit, Canada. Journal of Geochemical Exploration, 193. 1-21 doi:10.1016/j.gexplo.2018.06.005
Jones, Sarah, Herrmann, Walter, Gemmell, J. Bruce (2005) Short Wavelength Infrared Spectral Characteristics of the HW Horizon: Implications for Exploration in the Myra Falls Volcanic-Hosted Massive Sulfide Camp, Vancouver Island, British Columbia, Canada. Economic Geology, 100 (2) 273-294 doi:10.2113/gsecongeo.100.2.273
Cloutier, Jonathan, Piercey, Stephen J. (2020) Tracing Mineralogy and Alteration Intensity Using the Spectral Alteration Index and Depth Ratios at the Northwest Zone of the Lemarchant Volcanogenic Massive Sulfide Deposit, Newfoundland, Canada. Economic Geology, 115 (5). 1055-1078 doi:10.5382/econgeo.4723
McNulty, Brian A., Gemmell, J. Bruce, Davidson, Garry, Fox, Nathan (2023) Integrated stratigraphy, lithofacies, and U–Pb geochronology of the Myra Falls VHMS deposits, British Columbia, Canada: implications for episodic volcanism and ore deposit formation. Mineralium Deposita, 58 (2) 307-335 doi:10.1007/s00126-022-01124-0
Gemmell, J. Bruce, Herrmann, Walter (2001) A Special Issue on Alteration Associated with Volcanic-Hosted Massive Sulfide Deposits, and Its Exploration Significance. Economic Geology, 96 (5) 909-912 doi:10.2113/gsecongeo.96.5.909
Oliver, James, McNulty, Brian, Friedman, Richard (2021) HIGH-PRECISION CA-ID-TIMS AGE CONSTRAINTS ON THE NIBLACK Cu-Zn-Au-Ag DEPOSITS: A NEOPROTEROZOIC VOLCANIC-HOSTED MASSIVE SULFIDE DEPOSIT IN THE NORTH AMERICAN CORDILLERA. Economic Geology, 116 (6) 1467-1481 doi:10.5382/econgeo.4851
Jones, S. (2005) Short Wavelength Infrared Spectral Characteristics of the HW Horizon: Implications for Exploration in the Myra Falls Volcanic-Hosted Massive Sulfide Camp, Vancouver Island, British Columbia, Canada. Economic Geology, 100 (2) 273-294 doi:10.2113/100.2.273
Gemmell, J. B. (2001) A Special Issue on Alteration Associated with Volcanic-Hosted Massive Sulfide Deposits, and Its Exploration Significance. Economic Geology, 96 (5) 909-912 doi:10.2113/96.5.909
Sharpe, Robina, Gemmell, J. Bruce (2002) The Archean Cu-Zn Magnetite-Rich Gossan Hill Volcanic-Hosted Massive Sulfide Deposit, Western Australia: Genesis of a Multistage Hydrothermal System. Economic Geology, 97 (3) 517-539 doi:10.2113/gsecongeo.97.3.517
Gemmell, J. Bruce, Fulton, Russell (2001) Geology, Genesis, and Exploration Implications of the Footwall and Hanging-Wall Alteration Associated with the Hellyer Volcanic-Hosted Massive Sulfide Deposit, Tasmania, Australia. Economic Geology, 96 (5) 1003-1035 doi:10.2113/gsecongeo.96.5.1003
Jones, S. (2006) Petrographic, Geochemical, and Fluid Inclusion Evidence for the Origin of Siliceous Cap Rocks Above Volcanic-Hosted Massive Sulfide Deposits at Myra Falls, Vancouver Island, British Columbia, Canada. Economic Geology, 101 (3) 555-584 doi:10.2113/gsecongeo.101.3.555
 
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