Geochemical Reconstruction of Late Holocene Drainage and Mixing in Kluane Lake, Yukon Territory

The level of Kluane Lake in southwest Yukon Territory, Canada, has fluctuated tens of metres during the late Holocene. Contributions of sediment from different watersheds in the basin over the past 5,000 years were inferred from the elemental geochemistry of Kluane Lake sediment cores. Elements asso...

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Bibliographic Details
Main Authors: Brahney, Janice, Clague, John J., Menounos, Brian, Edwards, Thomas W. D.
Other Authors: Springer Netherlands
Format: Text
Language:unknown
Published: Hosted by Utah State University Libraries 2007
Subjects:
Lake sediment geochemistry
sediment provenance
constrained least squares
discriminant analysis
Kluane lake
Yukon Territory
Environmental Sciences
Bering Sea
Canada
Duke River
Kaskawulsh Glacier
Kluane Lake
Pacific
Slims River
Yukon
glacier*
Yukon river
Online Access:https://digitalcommons.usu.edu/wats_facpub/1078
https://digitalcommons.usu.edu/cgi/viewcontent.cgi?article=2094&context=wats_facpub
Description
Summary:The level of Kluane Lake in southwest Yukon Territory, Canada, has fluctuated tens of metres during the late Holocene. Contributions of sediment from different watersheds in the basin over the past 5,000 years were inferred from the elemental geochemistry of Kluane Lake sediment cores. Elements associated with organic material and oxyhydroxides were used to reconstruct redox fluctuations in the hypolimnion of the lake. The data reveal complex relationships between climate and river discharge during the late Holocene. A period of influx of Duke River sediment coincides with a relatively warm climate around 1,300 years BP. Discharge of Slims River into Kluane Lake occurred when Kaskawulsh Glacier advanced to the present drainage divide separating flow to the Pacific Ocean via Kaskawulsh and Alsek rivers from flow to Bering Sea via tributaries of Yukon River. During periods when neither Duke nor Slims river discharged into Kluane Lake, the level of the lake was low and stable thermal stratification developed, with anoxic and eventually euxinic conditions in the hypolimnion.

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