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File Created: 11-Dec-2020 by Karl A. Flower (KAF)
Last Edit:  11-Dec-2020 by Karl A. Flower (KAF)

Summary Help Help

NMI
Name STEEL SOUTH Mining Division Omineca
BCGS Map 094E016
Status Showing NTS Map 094E02W
Latitude 057º 08' 11'' UTM 09 (NAD 83)
Longitude 126º 58' 35'' Northing 6334385
Easting 622470
Commodities Gold, Silver, Copper Deposit Types
Tectonic Belt Intermontane Terrane Stikine
Capsule Geology

The Steel South occurrence is located on a south-southwest-facing slope, north of the Firesteel River and approximately 3.4 kilometres west of the rivers’ junction with the Finlay River.

The region is situated within a Mesozoic volcanic arc assemblage that lies along the eastern margin of the Intermontane Belt, a northwest-trending belt of Paleozoic to Neogene sediments, volcanics and intrusions bounded to the east by the Omineca Belt and to the west and southwest by the Sustut and Bowser basins.

Permian Asitka Group crystalline limestones are the oldest rocks exposed in the region. They are commonly in thrust contact with Upper Triassic Takla Group andesite flows and pyroclastic rocks. Takla volcanics have been intruded by Early Jurassic Black Lake Suite granodiorite to quartz monzonite of and are in turn unconformably overlain by or faulted against Lower Jurassic calc-alkaline volcanics of the Toodoggone Formation (Hazelton Group).

The dominant structures in the area are steeply dipping faults that define a prominent regional northwest structural fabric trending 140 to 170 degrees. In turn, high-angle, northeast-striking faults (approximately 060 degrees) appear to truncate and displace northwest-striking faults. Collectively these faults form a boundary for variably rotated and tilted blocks underlain by monoclinal strata.

Exposures of predominantly Takla Group andesite and tuffaceous sediments are abundant around the occurrence area. Takla Group andesites are composed of aphanitic, medium-grey, massive andesites crosscut by 2- to 10-millimetre wide quartz carbonate veins. These veins strike 025 degrees and dip vertical. Near the contact between Takla Group rocks and porphyritic granodiorite to quartz monzonite of the Early Jurassic Kemess pluton, finely disseminated pyrite and magnetite are associated with epidote-chlorite alteration and rare localized stockwork quartz veinlets 1 to 2 millimetres in diameter.

Locally, several small irregular bornite veins are reported.

In 2003, a rock sample (132845) assayed 2.12 grams per tonne gold, 11.3 grams per tonne silver and 2.015 per cent copper (Assessment Report 27429).

In 2005, rock sample (63995) assayed up to 0.16 gram per tonne gold, 11.6 grams per tonne silver and 1.371 per cent copper (Assessment Report 28071).

Work History

In 1981, Du Pont of Canada Exploration Ltd. completed a program of geological mapping and rock, silt and soil sampling on the area as the Fire 1-3 claims.

In 1988, Skylark Resources Ltd. completed a program of geological mapping and rock, silt and soil sampling on the area as the Steel 1-2claims.

Refer to the Pine (MINFILE 094E 016) occurrence for details of the Pine property, which contained the Steel occurrences from the late 1990s to 2014. Exploration work included programs of rock and soil sampling, geological mapping and airborne geophysical surveys. Also see the Electrum (MINFILE 094E 125) occurrence for details of historical property ownership and related occurrences, and related VIP occurrences: MINFILE 094E 047, 048, 049 and 129.

During 2016 through 2018, Amarc Resources Ltd. completed programs of soil and rock sampling, geological mapping, 115.0 line-kilometres of ground induced polarization surveying and 1940.0 line-kilometres of airborne magnetic surveying on the area as the Joy property.

Bibliography
EMPR ASS RPT 9272, 17452, *27429¸, *28071, 31564, 38201
EMPR BULL 86
EMPR EXPL 1975-E163-E167; 1976-E175-E177; 1977-E216-E217; 1978-E244-E246; 1979-265-267; 1980-421-436; 1982-330-345; 1983-475-488; 1984-348-357; 1985-C349-C362; 1986-C388-C414; 1987-C328-C346; 1988-C185-C194
EMPR FIELDWORK 1980, pp. 124-129; 1983, pp. 122-129, 135-141; 1982, pp. 125-127; 1983, pp. 137-138, 142-148; 1984, pp. 139-145, 291-293; 1985, pp. 167-169, 299; 1987, pp. 111, 114-115
EMPR GEM 1971-63-71; 1973-456-463
EMPR GEOLOGY 1977-1981, pp. 156-161
EMPR OF 2004-4
GSC BULL 270
GSC OF 306; 483
GSC P 80-1A, pp. 27-32

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