Stratigraphy of the mid-Holocene black bands in Lakes Michigan and Huron: Evidence for possible basin-wide anoxia

The post-glacial history of the Great Lakes has involved several changes in lake levels throughout the latest Pleistocene and Holocene, resulting from the changing position of the retreating Laurentide ice sheet, outlet incision and isostatic rebound. The final lowering of lake levels occurred at ap...

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Bibliographic Details
Main Authors: Odegaard, Carrie, Rea, David K., Moore, Theodore C.
Other Authors: Department of Geological Sciences, University of Michigan, Ann Arbor, 48109-1063, U.S.A, Ann Arbor
Format: Article in Journal/Newspaper
Language:English
Published: Kluwer Academic Publishers; Springer Science+Business Media 2003
Subjects:
Life Sciences
Geochemistry
Hydrogeology
Meteorology/Climatology
Sedimentology
Hydrobiology
Great Lakes
Lake Huron
Lake Michigan
Mid-Holocene Warm Period
Paleolimnology
Geology and Earth Sciences
Science
Ice Sheet
Online Access:http://hdl.handle.net/2027.42/43087
https://doi.org/10.1023/A:1023239908588
Description
Summary:The post-glacial history of the Great Lakes has involved several changes in lake levels throughout the latest Pleistocene and Holocene, resulting from the changing position of the retreating Laurentide ice sheet, outlet incision and isostatic rebound. The final lowering of lake levels occurred at approximately 7600 14 C yr BP, after which lake levels began to rise again to the Nipissing highstand at approximately 4700 14 C yr BP. During this time of rising lake levels, black bands of iron sulfide were being formed in the sediments of all five of the Great Lakes. These bands signify suboxic to anoxic conditions, at least within the sediments and possibly at the sediment-water interface, during the middle Holocene warm interval. During this interval, the climate was warmer and drier than present, possibly resulting in the occasional absence of seasonal turnover in the lakes. We examined a series of piston cores from northern Lakes Michigan and Huron and found that the black bands are correlatable among cores taken from within the same basin. The observation that the banding can be correlated suggests a basin-wide cause, near-bottom or sub-bottom anoxia in the northern Michigan and northern Huron sediments during the mid-Holocene warm period. The sedimentary and geochemical processes in the Great Lakes during the middle Holocene warm interval are good indicators of possible future scenarios for the lakes as a result of global warming, as 21 st -century temperatures are predicted to reach similar levels due to increased concentrations of greenhouse gases. Peer Reviewed http://deepblue.lib.umich.edu/bitstream/2027.42/43087/1/10933_2004_Article_5111842.pdf

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