A three-dimensional model of Lake Superior with ice and biogeochemistry

Brooke White; Jay Austin; Katsumi Matsumoto

doi:10.1016/j.jglr.2011.12.006

A three-dimensional model of Lake Superior with ice and biogeochemistry

Brooke White, Jay Austin, Katsumi Matsumoto

Research output: Contribution to journal › Article › peer-review

30 Scopus citations

Abstract

The formation of winter ice on Lake Superior has been shown to be important in determining the annual thermal cycle of the lake and long-term trends of surface water temperature increase. However, modeling studies of Lake Superior to date have not included dynamic and thermodynamic ice cover. These physical characteristics of the lake in turn can have significant impacts on biogeochemical cycling within the lake. We present a new three-dimensional model of Lake Superior that includes a dynamic and thermodynamic ice model and a biogeochemical model. Results from the model forced by observed meteorological conditions for the period 1985 to 2008 are discussed and compared with available observations. Modeled long-term interannual trends in increasing water temperature and decreasing ice cover are compared with observed rates. In the model, total annual gross primary productivity is found to correlate positively with mean annual temperature and negatively with mean winter ice-cover magnitude.

Original language	English (US)
Pages (from-to)	61-71
Number of pages	11
Journal	Journal of Great Lakes Research
Volume	38
Issue number	1
DOIs	https://doi.org/10.1016/j.jglr.2011.12.006
State	Published - Mar 2012

Bibliographical note

Funding Information:
Funding for this work was provided by the National Science Foundation ( NSF-OCE-0825633 to JA and NSF-OCE-0825576 to KM) and by the University of Minnesota McKnight Land Grant Professorship to KM. Support for BW was provided by the University of Minnesota Doctoral Dissertation Fellowship and graduate fellowships from the University of Minnesota Department of Earth Sciences .

Keywords

Biogeochemistry
Ice
Lake Superior
Numerical modeling

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title = "A three-dimensional model of Lake Superior with ice and biogeochemistry",

abstract = "The formation of winter ice on Lake Superior has been shown to be important in determining the annual thermal cycle of the lake and long-term trends of surface water temperature increase. However, modeling studies of Lake Superior to date have not included dynamic and thermodynamic ice cover. These physical characteristics of the lake in turn can have significant impacts on biogeochemical cycling within the lake. We present a new three-dimensional model of Lake Superior that includes a dynamic and thermodynamic ice model and a biogeochemical model. Results from the model forced by observed meteorological conditions for the period 1985 to 2008 are discussed and compared with available observations. Modeled long-term interannual trends in increasing water temperature and decreasing ice cover are compared with observed rates. In the model, total annual gross primary productivity is found to correlate positively with mean annual temperature and negatively with mean winter ice-cover magnitude.",

keywords = "Biogeochemistry, Ice, Lake Superior, Numerical modeling",

author = "Brooke White and Jay Austin and Katsumi Matsumoto",

note = "Funding Information: Funding for this work was provided by the National Science Foundation ( NSF-OCE-0825633 to JA and NSF-OCE-0825576 to KM) and by the University of Minnesota McKnight Land Grant Professorship to KM. Support for BW was provided by the University of Minnesota Doctoral Dissertation Fellowship and graduate fellowships from the University of Minnesota Department of Earth Sciences .",

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AU - White, Brooke

AU - Austin, Jay

AU - Matsumoto, Katsumi

N1 - Funding Information: Funding for this work was provided by the National Science Foundation ( NSF-OCE-0825633 to JA and NSF-OCE-0825576 to KM) and by the University of Minnesota McKnight Land Grant Professorship to KM. Support for BW was provided by the University of Minnesota Doctoral Dissertation Fellowship and graduate fellowships from the University of Minnesota Department of Earth Sciences .

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N2 - The formation of winter ice on Lake Superior has been shown to be important in determining the annual thermal cycle of the lake and long-term trends of surface water temperature increase. However, modeling studies of Lake Superior to date have not included dynamic and thermodynamic ice cover. These physical characteristics of the lake in turn can have significant impacts on biogeochemical cycling within the lake. We present a new three-dimensional model of Lake Superior that includes a dynamic and thermodynamic ice model and a biogeochemical model. Results from the model forced by observed meteorological conditions for the period 1985 to 2008 are discussed and compared with available observations. Modeled long-term interannual trends in increasing water temperature and decreasing ice cover are compared with observed rates. In the model, total annual gross primary productivity is found to correlate positively with mean annual temperature and negatively with mean winter ice-cover magnitude.

AB - The formation of winter ice on Lake Superior has been shown to be important in determining the annual thermal cycle of the lake and long-term trends of surface water temperature increase. However, modeling studies of Lake Superior to date have not included dynamic and thermodynamic ice cover. These physical characteristics of the lake in turn can have significant impacts on biogeochemical cycling within the lake. We present a new three-dimensional model of Lake Superior that includes a dynamic and thermodynamic ice model and a biogeochemical model. Results from the model forced by observed meteorological conditions for the period 1985 to 2008 are discussed and compared with available observations. Modeled long-term interannual trends in increasing water temperature and decreasing ice cover are compared with observed rates. In the model, total annual gross primary productivity is found to correlate positively with mean annual temperature and negatively with mean winter ice-cover magnitude.

KW - Biogeochemistry

KW - Ice

KW - Lake Superior

KW - Numerical modeling

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A three-dimensional model of Lake Superior with ice and biogeochemistry

Abstract

Bibliographical note

Keywords

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