To determine how climate-induced changes in hydrology and water level may affect the trophic state (productivity) of stratified lakes, two relatively pristine dimictic temperate lakes in Wisconsin, USA, were examined. Both are closed-basin lakes that experience changes in water level and degradation in water quality during periods of high water. One, a seepage lake with no inlets or outlets, has a small drainage basin and hydrology dominated by precipitation and groundwater exchange causing small changes in water and phosphorus (P) loading, which resulted in small changes in water level, P concentrations, and productivity. The other, a terminal lake with inlets but no outlets, has a large drainage basin and hydrology dominated by runoff causing large changes in water and P loading, which resulted in large changes in water level, P concentrations, and productivity. Eutrophication models accurately predicted the effects of changes in hydrology, P loading, and water level on their trophic state. If climate changes, larger changes in hydrology and water levels than previously observed could occur. If this causes increased water and P loading, stratified (dimictic and monomictic) lakes are expected to experience higher water levels and become more eutrophic, especially those with large developed drainage basins.
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Research Article|
March 01 2011
Response in the trophic state of stratified lakes to changes in hydrology and water level: potential effects of climate change
Dale M. Robertson;
1US Geological Survey, 8505 Research Way, Middleton, Wisconsin, USA
Tel.: +608-821-3867 Fax: +608-821-3817; E-mail: [email protected]
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William J. Rose
William J. Rose
1US Geological Survey, 8505 Research Way, Middleton, Wisconsin, USA
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Journal of Water and Climate Change (2011) 2 (1): 1–18.
Article history
Received:
December 29 2009
Revision Received:
December 13 2010
Citation
Dale M. Robertson, William J. Rose; Response in the trophic state of stratified lakes to changes in hydrology and water level: potential effects of climate change. Journal of Water and Climate Change 1 March 2011; 2 (1): 1–18. doi: https://doi.org/10.2166/wcc.2011.026
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