A late Lake Minong transgression in the Lake Superior basin as documented by sediments from Fenton Lake, Ontario |
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| Authors: | Andy Breckenridge Thomas V Lowell Timothy G Fisher Shiyong Yu |
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| Institution: | (1) Department of Geology, Mercyhurst College, 501 E. 38th St, Erie, PA 16546, USA;(2) Department of Geology, University of Cincinnati, Cincinnati, OH 45221, USA;(3) Department of Environmental Science, The University of Toledo, Toledo, OH 43606, USA;(4) Department of Earth and Environmental Sciences, Tulane University, New Orleans, LA 70118, USA |
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| Abstract: | The evolution of the early Great Lakes was driven by changing ice sheet geometry, meltwater influx, variable climate, and
isostatic rebound. Unfortunately none of these factors are fully understood. Sediment cores from Fenton Lake and other sites
in the Lake Superior basin have been used to document constantly falling water levels in glacial Lake Minong between 9,000
and 10,600 cal (8.1–9.5 ka) BP. Over three meters of previously unrecovered sediment from Fenton Lake detail a more complex
lake level history than formerly realized, and consists of an early regression, transgression, and final regression. The initial
regression is documented by a transition from gray, clayey silt to black sapropelic silt. The transgression is recorded by
an abrupt return to gray sand and silt, and dates between 9,000 and 9,500 cal (8.1–8.6 ka) BP. The transgression could be
the result of increased discharge from Lake Agassiz overflow or the Laurentide Ice Sheet, and hydraulic damming at the Lake
Minong outlet. Alternatively ice advance in northern Ontario may have blocked an unrecognized low level northern outlet to
glacial Lake Ojibway, which switched Lake Minong overflow back to the Lake Huron basin and raised lake levels. Multiple sites
in the Lake Huron and Michigan basins suggest increased meltwater discharges occurred around the time of the transgression
in Lake Minong, suggesting a possible linkage. The final regression in Fenton Lake is documented by a return to black sapropelic
silt, which coincides with varve cessation in the Superior basin when Lake Agassiz overflow and glacial meltwater was diverted
to glacial Lake Ojibway in northern Ontario. |
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