Airborne Geophysics over the Dolly Varden VMS and Low Sulphidation Epithermal Silver Deposits, Northwestern BC, Canada

Sean E. Walker; Christopher Campbell; Jean M. Legault; Carlos Izarra; Karl Kwan; Geoffrey Plastow; Ben Whiting; Robert Van Egmond

doi:10.1071/ASEG2018abW8_4E

1st Australasian Exploration Geoscience Conference – Exploration Innovation Integration

ISSN: 2202-0586
E-ISSN:

oa Airborne Geophysics over the Dolly Varden VMS and Low Sulphidation Epithermal Silver Deposits, Northwestern BC, Canada
Authors Sean E. Walker^a, Christopher Campbell^b, Jean M. Legault^c, Carlos Izarra^d, Karl Kwan^e, Geoffrey Plastow^f, Ben Whiting^g and Robert Van Egmond^h
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^a CW Geophysics Inc., Edinburg, , Scotland, [email protected] ^b CW Geophysics Inc., Vancouver, , BC, CAN, [email protected] ^c Geotech Ltd., Aurora, , ON, , CAN, [email protected] ^d Geotech Ltd., Aurora, , ON, , CAN, [email protected] ^e Geotech Ltd., Aurora, , ON, , CAN, [email protected] ^f Geotech Ltd., Aurora, , ON, CAN, [email protected] ^g Dolly Varden Silver Corp., Vancouver, , BC, CAN, [email protected] ^h Dolly Varden Silver Corp., Vancouver, , BC, CAN, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2018, Issue 1st Australasian Exploration Geoscience Conference – Exploration Innovation Integration, Dec 2018, p. 1 - 5
DOI: https://doi.org/10.1071/ASEG2018abW8_4E
- Published online: 01 Dec 2018

Abstract

Results from helicopter VTEM time-domain electromagnetics that include aeromagnetics and gamma ray spectrometries and later ZTEM natural field helicopter electromagnetics are compared over the Dolly Varden Mine region that hosts both potential VMS Pb-Zn base metal and low sulphidation epithermal silver mineralization, beyond the known vein-type Ag deposits and showings.

There are few well-defined discrete targets within the VTEM data set. The magnetic data have defined a network of older fault structures trending NNE, ENE, WNW, and NW. These structures are interpreted to be related to extensional basin formation. Prominent in the radiometrics is a potassium anomaly over the Red Point area, consistent with a quartz-K-feldspar-chlorite-pyrite zone, interpreted as a VMS feeder. ZTEM resistivity and magnetic geophysical anomalies suggest the presence of broad, generally flat lying resistive and magnetic units at depth. At Red Point and along the Tiger-Evindsen Corridor, ZTEM displays moderate to high resistivity and low magnetics, which suggest the presence of strong potassic-silicic alteration, related to low sulphidation epithermal systems.

The airborne geophysical results over the Dolly Varden mine region provide valuable insights on the detectability of similar Ag rich Eskay Creek type HS VMS and Brucejack style LS epithermal deposits. The principal VMS deposits seem immune to clear or discrete identification as EM conductors using VTEM, likely due to their Pb-Zn rich/Cu poor mineralogy; whereas, unlike VTEM, the ZTEM seems to clearly define high resistivity regions surrounding the known deposits that would seem to be consistent with their K-Si-altered low sulphidation epithermal origin.

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References

Campagne, T., 2013, Constrained magnetic 3D modeling: Dolly Varden Project, BC: Internal report for Dolly Varden Silver Corp., by Mira Geoscience, 31 p.
Campbell, C., and Walker, S., 2013, Synthesis and interpretation of airborne geophysics, VTEM and ZTEM surveys, Dolly Varden Property, British Columbia: Internal report for Dolly Varden Silver Corp., 23 p.
Devlin, B. and Godwin, C., 1986, Geology of the Dolly Varden Camp, Alice Arm Area (103P/11, 12). British Columbia Ministry of Energy, Mines and Petroleum Resources, Geological Fieldwork 1985 (Paper 1986-1), 327-330.
Garrow, T., 2011, Geology and Mineral Exploration of the Dolly Varden Property, British Columbia, Canada: Technical Report for Dolly Varden Silver Corp, 108 p.
Higgs, A.A., 2015, The Dolly Varden Property, Skeena Mining Division: Technical report for Dolly Varden Silver Corp., 155 p.
Hoschke, T., 2011, Geophysical signatures of copper-gold porphyry and epithermal gold deposits, and implications for exploration: CODES-ARC Center of Excellence in Ore Deposits, University of Tasmania, 47 p.
Kwan, K., Prikhodko, A., Legault, J.M., Plastow, G., Kapetas, J., and Druecker, M., 2015, Airborne EM, aeromagnetic and gamma-ray spectrometric data over the Cerro Quema high sulphidation gold deposits, Panama: Exploration Geophysics, 47, 179-190.
Legault, J.M., Kwan, K., and Prikhodko, A., 2015a, Airborne EM in exploring for epithermal gold deposits: three examples from the Great Basin and Western Cordillera: in W. M. Pennell, and L. J. Garside, eds., New concepts and discoveries: Geological Society of Nevada symposium proceedings, 1, 101-125.
Legault, J.M., Niemi, J., Brett, J., Zhao, S., Han, Z., and Plastow, G., 2015b, Passive airborne EM and ground IP\resistivity results over the Romero intermediate sulphidation epithermal gold deposits, Dominican Republic: Exploration Geophysics, 47, 191-200.
Legault, J. M., Zhao, S., and Fitch, R., 2012, ZTEM airborne AFMAG survey results over low sulphidation epithermal gold-silver vein systems at Gold Springs, south eastern Nevada: 22nd International Geophysical Conference and Exhibition, ASEG, Extended Abstracts, 1 -4.
Lo, B., and Zang, M., 2008. Numerical modeling of Z-TEM (airborne AFMAG) responses to guide exploration strategies: Society of Exploration Geophysicists, Expanded Abstracts, p. 1098-1101.
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Article Type: Research Article

Keyword(s): aeromagnetics; case study; EM; helicopter; radiometrics

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oa Airborne Geophysics over the Dolly Varden VMS and Low Sulphidation Epithermal Silver Deposits, Northwestern BC, Canada

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