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A model for the demise of large, glacial Lake Ojibway, Ontario and Quebec |
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| Authors: | Justin S Stroup Thomas V Lowell Andy Breckenridge |
| Institution: | 1. Department of Geology, University of Cincinnati, 500 Geo./Phys. Bld., Cincinnati, OH, 45221-0013, USA 3. Department of Earth Science, Dartmouth College, HB 6105 Fairchild Hall, Hanover, NH, 03755, USA 2. Department of Natural Sciences, University of Wisconsin-Superior, Belknap and Catlin, Superior, WI, 54880, USA |
| Abstract: | Large glacial lakes modulated the return of meltwater to the ocean during deglaciation, and their drainage may have initiated global climate change. Yet few records of their drainage come from observations within their basins. Sediment cores from nine lakes along a 240-km transect from northwestern Quebec to northeastern Ontario cover a portion of former Lake Ojibway and provide a stratigraphy of the terminal phase of this large glacial lake. Magnetic susceptibility, density, grain size, X-ray fluorescence chemistry and X-ray diffraction data were used to characterize stratigraphic changes within the basin. The basal sequence consists of till and rhythmites, with ice-proximal debris flows overlain by varves. The varves thin up-section and become unrecognizable, which indicates decreased deposition rates. This fine-grained sediment forms the matrix of a clay-pebble conglomerate. The clay-pebbles are ice-rafted debris (IRD). The IRD flux was probably constant, whereas the sedimentation rate of the finer-grained matrix decreased. The end of IRD marks the cessation of icebergs in the lake and is the best indication for drainage of the glacial lake. The conglomerate is capped by laminated to massive gray silt deposited after lake drainage and marks the transition to organic-rich, post-glacial lakes. Such sequences place drainage into the broader context of deglaciation. |
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