ABSTRACT: The seismic stratigraphy of Okanagan Lake, Brtiish Columbia; a record of rapid deglaciation in a deep 'fiord-lake' basin.

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Abstract

This paper presents the first detailed data regarding the newly discovered deep infill of Okanagan Lake. OkanaganLake (50-degrees-00'N, 119-degrees-30'W) is 120 km long, approximately 3-5 km wide and occupies a glaciallyoverdeepened bedrock basin in the southern interior of British Columbia. This basin, and other elongate lakes ofthe region (e.g. Shuswap, Kootenay, Kalamalka, Canim and Mahood lakes), mark the site of westward flowing icestreams within successive Cordilleran ice sheets. An air gun seismic survey of Okanagan Lake shows that thebedrock floor is nearly 650 m below sea-level, more than 2000 m below the rim of the surrounding plateau.The maximum thickness of Pleistocene sediment in Okanagan Lake basin approaches 800 m. Forty-six seismicreflection traverses and an axial profile show a relatively simple stratigraphy composed of three seismic sequencesargued to be no older than the last glacial cycle (< 30 ka). A discontinuous basal unit (sequence I) characterizedby large-scale diffractions, and up to 460 m thick, infills the narrow, V-shaped bedrock floor of the basin and isinterpreted as a boulder gravel deposited by subglacial meltwaters. Overlying seismic sequence II is composed oftwo sub-sequences. Sub-sequence IIa is a chaotic to massive facies up to 736 m thick. Lakeshore exposures closeto where this unit reaches lake level show deformed and chaotically-bedded glaciolacustrine silts containinggravel lens and large ice-rafted boulders. The surface topography of this sub-sequence is irregular and in generalmimics the form of the underlying bedrock as a result of compaction. This sequence passes laterally into stratifiedfacies (sub-sequence IIb) at the northern end of the basin. Seismic sequence II appears to record rapidice-proximal dumping of glaciolacustrine silt as the Okanagan glacier backwasted upvalley in a deep lake. A thin(60 m max.) laminated seismic sequence (III) drapes the hummocky surface of sequence II and representspostglacial sedimentation from fan-deltas.The extreme thickness of sequences I and II in Okanagan Lake reflects the focussing of large volumes of meltwater and sediment into the basin during deglaciation; pre-existing sediments that pre-date the last glacial cycle appear to have been completely eroded. Glaciological conditions during sedimentation may have been similar to marine-based outlet glaciers calving in deep water in fiord basins. In contrast to marine settings where ice bergs are free to disperse, large volumes of dead ice were trapped within the basin; structural evidence for sedimentation around dead ice blocks has been previously used to argue that the Cordilleran Ice Sheetdownwasted in situ. We emphasize in contrast, the trapping of dead ice left behind by rapidly calving lake-based outlet glaciers.

Bibliography of Canadian Geomorphology