The northeast corner of Grass Lakes map area is underlain by polydeformed metasedimentary, metavolcanic and metaplutonic rocks of Yukon-Tanana Terrane, and ultramafic rocks of unknown affinity. Layered metasedimentary and metavolcanic rocks, about half the area mapped, include a basal unit of quartz-rich schist, psammite, metapelitic schist, and grit with a laterally continuous sandy marble marker high in the unit; a unit made up of a variety of mafic metavolcanic (?) rock types interlayerd with carbonaceous phyllite, grey quartzite, quartzofeldspathic psammite and grit; Devono-Mississippian felsic metavolcanic (?) rocks interlayered with carbonaceous phyllite and grey quartzite, and an upper mafic metavolcanic (?) unit with quartzofeldspathic psammite and grit, and carbonaceous phyllite and quartzite. Metarhyolite of the third unit hosts the Kudz Ze Kayah massive sulphide deposit and underlies numerous gossans. The succession is thought to be upright based on an interpretation of the structure of metarhyolitic rocks at Kudz Ze Kayah. The remainder of the area is underlain by metaplutonic rocks. Quartz-feldspar metaporphyry near Kudz Ze Kayah is thought to be a hypabyssal intrusion coeval with the adjacent metavolcanic pile. Coarse-grained granitic to monozonitic Grass Lakes Orthogneiss of probably Early Mississippian age underlies much of the area; it and its apophyses intrude the layered units. The undated North Lakes Metadiorite is thought to intrude the Grass Lakes Orthogneiss. Three large undated bodies and numerous discordant dykes of weakly foliated biotite-muscovite granite intrude the layered succession. Ultramafic rocks occur in two settings in the eastern part of the area. Discontinuous 10 to 100 metre-scale bodies of ultra-mafic rock occur along the contact between actinolite-chlorite schist and calcareous quartzose psammite (above) near the Pack occurrence. A km-scale body of ultramafic rock also overlies the same calcareous quartzose psammite in the prominent peak along the east side of the map area. An axial surface trace of a recumbent north-closing fold lies between the two localities suggesting that the ultramafic rocks are folded. All rocks except biotite-muscovite granite and ultramafic rocks are strongly foliated and lineated. The prominent foliation transposes an older foliation and bedding and is axial-planar to south-vergent folds mappable at 1:50 000 scale. This deformation occurred after the intrusion of the Grass Lakes Orthogneiss (therefore post-Mississippian) and waned during the emplacement of biotite-muscovite granite. Two weak later phases of deformation comprise sporadically developed north-trending, east-vergent folds of the second-phase foliation and regional arching of the second phase foliation over a southwest-trending hinge in the central part of the map area.

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The region east of Lake Laberge in south-central Yukon was mapped from 2015–2018 as part of a 1:50¿000 scale bedrock mapping program conducted by the Yukon Geological Survey. The area encompasses the map sheets of Teslin Mountain (NTS 105E/2), and parts of Lake Laberge (105E/3) and Lower Laberge (105E/6). A 1:50¿000 scale bedrock geology map complements this report; Geoscience Map 2019-1 by E. Bordet.

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Geological mapping in Wolverine Lake area has outlined new Yukon-Tanana Terrane stratigraphy, constrained the stratigraphic position of the Wolverine Lake volcanogenic massive sulphide (VMS) deposit, and clarified the relationship of Yukon-Tanana Terrane to the Campbell Range belt. Yukon-Tanana Terrane comprises two stratigraphic successions separated by an angular unconformity. Beneath the unconformity are polydeformed felsic and mafic meta-volcanic rocks, carbonaceous meta-clastic rocks, marble and granitic orthogneiss. The Kudz Ze Kayah VMS deposit occurs in felsic meta-volcanic rocks of this sequence. Yukon-Tanana Terrane rocks above the unconformity are deformed by only one phase of deformation and consist primarily of carbonaceous meta-clastic rocks and quartz- and feldspar-phyric felsic meta-volcanic rocks. The Wolverine VMS deposit occurs in this succession, associated with siliceous exhalite and baritic magnetite iron formation. Meta-basalt of the Campbell Range belt, included previously in Slide Mountain Terrane, overlies the upper succession of Yukon-Tanana Terrane with sharp contact. This contact has been observed at several localities and it appears depositional. There is no evidence that it is a terrane boundary fault.

Geological map including geological cross sections and mineral occurrences.

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The Finlayson Lake district in southeastern Yukon is a remnant of a Late Paleozoic arc–back-arc system that consists of metamorphosed volcanic, plutonic, and sedimentary rocks of the Yukon-Tanana and Slide Mountain terranes. These rocks host more than 40 Mt of polymetallic resources in numerous occurrences and styles of volcanogenic massive sulphide (VMS) mineralization. Geochemical data from these rocks support previous interpretations that volcanism and plutonism occurred in arc–marginal arc (e.g., Fire Lake formation) and continental back-arc basin environments (e.g., Kudz Ze Kayah formation, Wind Lake formation, and Wolverine Lake group) where felsic magmatism formed from varying mixtures of crust and mantle-derived material. The rocks have elevated high field strength element (HFSE) and rare earth element (REE) concentrations in VMS-proximal stratigraphy relative to VMS-barren assemblages, suggesting that the petrogenetic conditions that generated felsic rocks likely played a role in the localization of VMS mineralization. Future work aims to constrain magmatic processes and outline prospectivity criteria for delineating productive VMS assemblages within the district, and in similar geodynamic settings globally.