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File Created: 24-Feb-1989 by George Owsiacki (GO)
Last Edit:  08-Jul-2020 by Nicole Barlow (NB)

Summary Help Help

NMI
Name ALICE (L.698) Mining Division Greenwood
BCGS Map 082E017
Status Prospect NTS Map 082E02E
Latitude 049º 11' 03'' UTM 11 (NAD 83)
Longitude 118º 37' 36'' Northing 5449203
Easting 381463
Commodities Silver, Gold, Lead, Zinc Deposit Types H08 : Alkalic intrusion-associated Au
Tectonic Belt Omineca Terrane Plutonic Rocks, Quesnel
Capsule Geology

The Jewel Lake area is underlain by a complex of metamorphic rocks mostly of sedimentary and volcanic origin correlative with the Carboniferous or older Anarchist Group, and a large granodiorite intrusion correlative to the Juro-Cretaceous Nelson Plutonic Rocks. Small dykes and sill-like bodies, feeders to nearby Tertiary lavas, pervade these units.

Locally the metamorphosed volcanic and sedimentary rocks are not always distinguishable, both being fine-grained and medium or dark coloured with primary structures such as bedding and flow banding being confused with foliation or gneissosity. Generally the sedi- mentary rocks are brittle and quartz-rich, however, compositions vary and some biotitic varieties have the same competence as the amphibole- rich volcanic rocks. These rocks are locally called quartzites but few are true quartzites and more appropriate terms would be quartz wacke or lithic wacke. The massive character of the volcanic rocks is due to a combination of intense regional metamorphism and primary structures. Field and petrographic data indicate that at least some of the original rock formed as a result of massive accumulations of lava flows and pillow lava. Crosscutting feeder dykes and sills are significant and contribute to the massive aspect of the volcanic rocks. The metamorphosed schistose volcanic rocks are compositionally basalts. These metasedimentary and metavolcanic rocks form part of the Carboniferous (Pennsylvanian-Mississippian) or older Anarchist Group.

Igneous intrusions in the Jewel Lake camp include a large Lower Cretaceous granodiorite pluton and a host of younger pulaskite and lamprophyre dykes. The granodiorite is correlative with Nelson Plutonic Rocks. It is a homogeneous medium-grained grey body which intrudes the metavolcanic rocks along a northwest trending contact in the southwest part of the camp. The intrusive has produced little effect in both the metavolcanic and metasedimentary rocks. Grano- diorite dykes occur and are compositionally similar to the main grano- diorite body and are probably offshoots from it. Pulaskite dykes are numerically most important. Several types are evident including both quartz-bearing and undersaturated types. Post-vein lamprophyre dykes as well as the pulaskite dykes are of probable Lower Tertiary age and cut all other major geological units.

The Alice claim (L.698) adjoins the Amandy claim (L.2795, 082ESE126) in the north. North striking fractured and sheared meta- sedimentary rocks of the Carboniferous (Pennsylvanian-Mississippian) or older Anarchist Group dip 30 to 60 degrees east. The rocks are schistose quartz wackes or lithic wackes and are intruded by Lower Tertiary pulaskite dykes and Lower Cretaceous granodiorite dykes.

Quartz fissure-veins have a tendency to occur in fracture zones that roughly parallel the bedding/foliation planes of the meta- sedimentary rocks. The quartz vein on the Alice claim is a northern extension of the vein on the Amandy claim. One the Alice claim the vein ranges from 30 to 46 centimetres in width and has been traced on surface for 61 metres. Mineralization consists of galena, pyrite, pyrrhotite, sphalerite and tellurides (possibly sylvanite).

In 1934 to 1941, a series of exploration programs were completed on the property containing the occurrence.

Bibliography
EMPR AEROMAG MAP 8497G
EMPR AR 1897-590; 1947-A156
EMPR ASS RPT 1814, 11464
EMPR EXPL 1983-20
EMPR GEM 1969-304
EMPR MR MAP 6 (1932)
EMPR OF 1990-25
EMPR P 1986-2
EMPR PRELIM MAP 59
GSC MAP 828; 45-20A; 6-1957; 10-1967; 1500A; 1736A
GSC OF 481; 637; 1969
GSC P 67-42; 79-29
EMPR PFD 1050, 670889, 21809
Martin, D. (2016-07-12): National Instrument 43-101 Technical Report on the Gold Drop Property.

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