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RICE CREEK CHAIN OF LAKES TMDL
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PELTIER LAKE TOTAL PHOSPHORUS MONITORING DATA
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PELTIER LAKE TOTAL PHOSPHORUS MONITORING DATA, 2006 outlier removed
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PELTIER LAKE CHOLORPHYLL MONITORING DATA
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PELTIER LAKE SECCHI DEPTH MONITORING DATA
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PELTIER LAKE 1991 – 2006, growing season
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PELTIER LAKE DISSOLVED OXYGEN
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PELTIER LAKE TOTAL PHOSPHORUS - SURFACE VS BOTTOM
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CENTERVILLE LAKE TOTAL PHOSPHORUS MONITORING DATA
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CENTERVILLE LAKE CHOLORPHYLL MONITORING DATA
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CENTERVILLE LAKE SECCHI DEPTH MONITORING DATA
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CENTERVILLE LAKE 2000 – 2006, growing season
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CENTERVILLE LAKE DISSOLVED OXYGEN
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CENTERVILLE LAKE TOTAL PHOSPHORUS - SURFACE VS BOTTOM
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IN-LAKE MODELING Bathtub: Reservoir water quality model developed by the U.S. Army Corps of Engineers Includes models for TP, chlorophyll-a, and Secchi transparency Steady-state water and nutrient balance calculations in a spatially segmented hydraulic network; accounts for advective and diffusive transport and nutrient sedimentation
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MODEL STRUCTURE Peltier Lake Centerville Lake Upper Rice Creek Clearwater Creek Peltier direct drainage Hardwood Creek Centerville direct drainage Direct precip Direct precip Internal
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PRECIPITATIONPRECIPITATION
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MODEL SELECTION Phosphorus: Canfield & Bachman, lakes (option 8) Chlorophyll-a: P, light, T (option 2) Secchi transparency: vs. Chl-a and turbidity (option 1)
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MODEL CALIBRATION Phosphorus calibration coefficient - adjusted from 1.0 to 0.6 for Peltier Lake Chlorophyll-a calibration coefficient - adjusted from 1.0 to 1.5 for both Peltier and Centerville Lakes Internal loading rate adjusted to further calibrate model
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INTERNAL LOADING Sediment data
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CALIBRATION - 2001
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VALIDATION - 2004
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PELTIER LAKE TP LOADS Watershed loads represent 48% of total load
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CENTERVILLE LAKE TP LOADS
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