Predicting chlorophyll vertical distribution in response to epilimnetic nutrient enrichment in small stratified lakes |
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Authors: | Christensen, David L. Carpenter, Stephen R. Cottingham, Kathryn L. |
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Affiliation: | Center for Limnology 680 N. Park Street University of Wisconsin Madison, WI 53706, USA |
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Abstract: | Light-limited metalimnetic phytoplankton communities are thoughtto be negatively impacted by epilimnetic nutrient enrichmentbecause of shading by increased epilimnetic phytoplankton biomass.We tested this expectation with a dynamic simulation model thatwas calibrated to three lakes undergoing whole-lake nutrientand food web manipulations. Total areal chlorophyll increaseddue to nutrient enrichment in each lake, but the magnitude ofthe response varied between lakes. Modeling experiments, whichallowed analysis of separate components of each lake's responseto nutrient enrichment, indicated that the response to enrichmentdepended on lake water color and food web structure. In weaklystained lakes ({small tilde}10 mg Pt 11, k4 = 0.4 m1),metalimnetic chlorophyll was stimulated by nutrient enrichmentup to moderate levels (1 µg Pt11 day1).In more strongly colored lakes (25 mg Pt 11, k4 = 1.0),metalimnetic chlorophyll responded negatively to nutrient enrichmentat all P loading rates. Food web structure, as expressed byrates of zooplanktivory, interacted with water color in twoways. One impact was through direct grazing losses on metalimneticchlorophyll. The other process involved was indirect impactfrom grazing on epilimnetic phytoplankton, which reduced shadingon metalimnetic chlorophyll. Vertical redistribution of chlorophyllbetween the epilimnion and the metalimnion led to little accumulationof areal chlorophyll with increased P loading over limited rangesof water color and nutrient input rates. Model predictions maybe most effectively tested with whole-lake experiments contrastingfood web structure, water color and nutrient loading. |
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