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File Created: 07-Dec-1992 by Keith J. Mountjoy (KJM)
Last Edit:  07-Aug-2020 by George Owsiacki (GO)

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NMI
Name SLOCOMB 11, SLOCOMB, SLOCOMB 3-11, SLOCOMB 14-15, SLOCOMB 27-32, SLOCOMB 33-36, SLOCOMB 37, SLOCOMB 45-50, HARMONNIE, HARMONNIE 1-4, MT. SLOCOMB Mining Division Liard, Omineca
BCGS Map 094E089
Status Prospect NTS Map 094E16W
Latitude 057º 51' 03'' UTM 09 (NAD 83)
Longitude 126º 20' 11'' Northing 6415215
Easting 658073
Commodities Zinc, Lead, Silver, Copper Deposit Types K02 : Pb-Zn skarn
Tectonic Belt Omineca Terrane Cassiar
Capsule Geology

The Slocomb 11 occurrence is located 2 kilometres south of Mount Slocomb and 3 kilometres east of Spinel Lake, about 253 kilometres north of the community of Germansen Landing. It occurs in the north-central Sifton Ranges of the Omineca Belt and is one of several areas of sulphide mineralization as thin lenses of pyrrhotite with lesser pyrite at marble/calcsilicate contacts and within calcsilicate rocks of unit Hlm of the Hadrynian Ingenika Group (Geological Survey of Canada Bulletin 376; Assessment Report 19583). The Sifton Ranges lie within the northern Omineca Belt which is bound to the east by the Northern Rocky Mountain Trench and Foreland Belt, and to the west by the Intermontane Belt. The northern Omineca Belt is composed of Precambrian crystalline basement, mid-Paleozoic miogeoclinal strata and Paleozoic to Mesozoic volcanogenic rocks, which are in turn intruded by Cretaceous and younger plutons.

The core of the Sifton Ranges is a moderately inclined, west-verging, elongate and domed anticlinorium. Lithologies consist of Hadrynian Ingenika Group metaquartzite, paragneiss, marble and pelitic schist. Doming was caused by uplift in the mid-Cretaceous and Eocene. Mineral assemblages and geothermobarometry indicate amphibolite facies metamorphism. Synmetamorphic deformation resulted in a strong foliation parallel with the bedding which, in the Sifton Ranges, is isoclinally folded (Geological Survey of Canada Bulletin 376). The gently east dipping Sifton fault truncates isoclinal and upright folds and metamorphic isograds. Movement on the Sifton fault postdates the peak of metamorphism (mid-Jurassic?) and predates the intrusion of Eocene granite. Hangingwall rocks have been tentatively included in the Ingenika Group, although their metamorphic and structural history differs from the footwall rocks. An undeformed Eocene granite cuts the Sifton fault at the south end of the Sifton Ranges (Assessment Report 19583).

Locally, the geology surrounding the Slocomb 11 occurrence is divided into two packages which are separated by the Sifton fault. Those in the footwall of the Sifton fault are part of the Lower Plate and those of the hangingwall are part of the Upper Plate. The Lower Plate rocks form the core of an antiform and consist of (from the core outward) rusty weathering metaquartzite (unit Hlq); paragneiss and pelitic schist (unit Hlp); pure marble and calcsilicate rock (unit Hlm); pelitic schist (unit Hlps); and pelitic schist, metagrit, psammite and marble (unit Hlg) (Geological Survey of Canada Bulletin 376).

Limited exposures of Upper Plate stratigraphy are also evident near the Slocomb 11 prospect. These include pure metaquartzite, amphibolite, minor pelitic schist, feldspathic metaquartzite, and paragneiss (unit Hlqa); quartz lens schist, psammite and marble (unit Hlsm); and rusty weathering pelitic schist, minor psammite, and marble (unit Hlws) (Geological Survey of Canada Bulletin 376). For a more detailed description of each of these units from the Lower and Upper Plates refer to Assessment Report 19583.

The greatest volume of sulphide mineralization is found in units Hlm and Hlg, on the west side of the antiform. Pyrrhotite and lesser pyrite occurs in thin lenses, 10 centimetres to rarely 1 metre thick, at marble/calcsilicate and marble schist contacts, and within calcsilicate rocks. The sulphides are predominantly associated with fine to medium grained, dark green to black pyroxene skarn. The mineral content of the majority of the exposures varies from 10 to in excess of 80 per cent. Sphalerite, in minor quantities, is the most abundant economic sulphide. It is usually accompanied by argentiferous galena or, rarely, by chalcopyrite. Refer also to the various other Slocomb occurrences (094E 223-227).

Within unit Hlg, discontinuous lenses of disseminated to massive pyrrhotite and pyrite vary from 10 to 80 centimetres length and 10 to 100 centimetres thickness, hosted in calcsilicate rock with or without associated marble. In 1989, sample 27808 was taken from a massive pyrrhotite and pyrite horizon within calcsilicate and impure marble of unit Hlg; galena is reported from this sample. Analytical results from this sample were 4.09 per cent zinc, 1.68 per cent lead, 127.54 grams per tonne silver and 0.11 per cent copper (Assessment Report 19583). A second massive pyrrhotite and pyrite horizon with galena, 20 metres east, was also sampled with similar results. Sample 27815 analyzed 2.33 per cent zinc, 1.28 per cent lead and 121.03 grams per tonne silver (Assessment Report 19583). Other massive pyrrhotite and pyrite horizons with sphalerite and/or galena occur 1 kilometre east-northeast near the contact between units Hlg and Hlps. Sample 92590 from one of these horizons analyzed 2.52 per cent zinc, 1.31 per cent lead and 1223.43 grams per tonne silver (Assessment Report 19583).

No assessment reports have been filed for work in the vicinity of the Mt. Slocomb property prior to 1988. In 1984, Suncor Inc. conducted a reconnaissance geochemical sampling program collecting 180 stream sediment and 29 rock samples. All were analyzed for gold and silver, and some for copper, lead and zinc. Imperial Metals staked part of the present property in 1986, but the extent of their work is unknown. In November, 1987, the Slocomb 1-4 mineral claims were staked for Hillsborough Resources Ltd. These were followed by the Slocomb 5-32 claims in January, 1988 and the Harmonnie I-V claims in August, 1988. Derry, Michener, Booth and Wahl were retained by Hillsborough to conduct an exploration program on the Slocomb claims and between mid-June and August 25, 1988, they established a camp on Spinel Lake, collected 1249 sediment samples and 1491 soil samples, mapped most of the ridges and prospected the obvious rusty zones. A combined magnetometer/VLF-EM survey was flown, and aerial photographs taken from which 1:5000-scale orthophotos were produced. No significant mineralization was found.

In early 1989, Cordilleran Engineering Ltd. was asked to evaluate the results of the 1988 exploration program, and subsequently was retained to propose and supervise an exploration program to determine if there were potential mineral deposits on the Mt. Slocomb property. The 1989 program, based partly on the results of the 1988 work, consisted of establishing nine soil sample grids, collecting 2913 soil, 114 stream sediment and 494 rock samples, mapping and prospecting all the marble/calcsilicate/skarn horizons, and conducting a limited magnetometer survey over the area found to have the most significant base and precious metal values.

Bibliography
EMPR EXPL 1976-E176
EMPR FIELDWORK 1985
EMPR ASS RPT 18234, 19236, *19583
EMPR MAP 65 (1989)
EMPR GEOLOGY 1977-1981, pp. 156-161
EMPR PFD 680695
GSC BULL 12; 270; *376
GSC OF 306; 483
GSC P 71-1A, pp. 23-26; 72-1A, pp. 26-32; 74-1A, pp. 13-16; 76-1A, pp. 87-90; pp. 91-92; 77-1A, pp. 243-246; 80-1A, p. 348; 83-1A, pp. 221-227; 84-1A, pp. 105-108
GSC MAP 14-1973

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