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Watershed Monitoring and Modeling in Switzer, Chollas, and Paleta Creek Watersheds. Kenneth Schiff Southern California Coastal Water Research Project www.sccwrp.org. By The End Of Today. Overview from previous meetings Review wet season empirical results
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Watershed Monitoring and Modeling in Switzer, Chollas, and Paleta Creek Watersheds Kenneth Schiff Southern California Coastal Water Research Project www.sccwrp.org
By The End Of Today • Overview from previous meetings • Review wet season empirical results • Demonstrate success at building watershed models • Assessment guidance so SCCWRP can write final report
At Our Previous Meetings • Sediments at the mouth of several urban creeks draining to SD Bay are listed as impaired • - chemistry, toxicity, benthic community • Two questions for this study • What are the loads of COPC to the creek mouth? • How much of the total load deposits in the creek mouth? • Several COPC • Chlordane, PAHs, PCBs, Cu, Pb, Zn, • As, Hg
Sources of COPC • Chollas Creek watershed • - Paleta and Switzer Creek watersheds • Runoff directly to the Chollas Creek mouth • Navy, NASSCO • Atmospheric deposition to the creek mouth • San Diego Bay • - tidal inputs
Watershed Inputs • Break into two parts • Use combination of empirical data and wet weather modeling • TSS, metals, PAHs • Can we predict changes in loads and concentrations? • Use empirical data • Chlorinated hydrocarbons • Can we detect loads or concentrations?
Sampling Design for Wet Weather • Four sites • - North and South Fork Chollas, Switzer, Paleta • Three storms each • - continuous flow data • Pollutograph for model validation • 10 to 12 samples per site event • TSS, metals, and PAH • Flow weighted composites for non-modeled components • - large volume samples for low detection limits
* Sampled event * * *
By The End Of Today • Overview from previous meetings • Review wet season empirical results • Demonstrate success at building watershed models • Assessment guidance so SCCWRP can write final report
Approach to Building a Watershed Model • Physical data for the model domain • - watershed delineation, stream properties, land use, etc. • Calibrate flow and water quality at small homogeneous land uses • utilize land use data from Los Angeles • Validate flow and water quality at the end of the watershed • - cumulative of all land uses
Sampling Design for Wet Weather • Four sites • - North and South Fork Chollas, Switzer, Paleta • Three storms each • - continuous flow data • Pollutograph for model validation • 10 to 12 samples per site event • TSS, metals, and PAH • Flow weighted composites for non-modeled components • - large volume samples for low detection limits
Hydrologic Calibration and Validation • Modeled at hourly time steps • Hourly averages • Hydrographs • Hydrograph simulations • Assess accuracy, bias, precision
Peak Flow Mean Flow
Water QualityCalibration and Validation • Modeled at hourly time steps • Hourly averages • Pollutographs • - simulations • Event mean concentrations • Accuracy, bias, precision
Lead Copper Zinc
Long Term Model Runs • Decadal simulation • 1996 to 2006 • All four watersheds • All constituents • Example output • what other simulations do we want?
Chollas Ck Switzer Ck Paleta Ck
Average Annual Pollutant Loads 1996-2005
Percent Landuse Loadings for Copper Switzer Creek Chollas Creek Paleta Creek
Load Reduction Scenarios Assumed BMP Storage 22% Reduction 44% Reduction
Sources of COPC • Chollas Creek watershed • - Paleta and Switzer Creek watersheds • Runoff directly to the Chollas Creek mouth • Navy, NASSCO • Atmospheric deposition to the creek mouth • San Diego Bay • - tidal inputs
Sampling Design for Atmospheric Deposition • Focus was deposition onto the water surface of creek mouth • One site as close to creek mouth as possible • Minimum of 8 sample events • Use surrogate surfaces for metals • Use high volume samplers for organics • Supplement with water samples for diffusion estimates
Comparison Among Sources Copper
Wet Weather of Summary • Successfully completed wet weather sampling from last season • Empirical data for all constituents at all watersheds • Developed a dynamic model • flow and water quality • Accuracy, bias, and precision near expectations • EMCs versus pollutographs • Modeled long term pollutant loads • - additional model runs?
Atmospheric Dry Deposition Summary • Successfully completed dry deposition sampling from last summer • San Diego > other harbors in So Cal • direct dep of metals small relative to wet weather at Chollas Ck mouth • Estimates of dry deposition for organic constituents is nearly finished
Upcoming Work • Focused goal on creek mouth modeling • - How much of the total load deposits in the creek mouth? • Designed study plan last year • - SCCWRP and Navy collaboration • Enhance existing Bay model for Chollas Creek mouth • Use our new watershed model for inputs • Increased spatial resolution • Concentrate on particle (and associated COPCs) dynamics • Deposition is mostly a function of settling
Wet Season Sampling • Wet weather runoff from Chollas Ck • Large volume samples for particle separation and COPC analysis • Creek mouth sampling for hydrodynamics • Three dimensional plume mapping • Creek mouth sampling for particle dynamics • in situ particle size measurements • Creek mouth sampling for COPCs • Large volume samples for low detection limits
Next Steps • Final watershed model runs • Complete atmospheric deposition analysis • Draft Loading Report by March • Creek mouth sampling • one dry weather, two storm events
Percent Landuse Loadings for Lead Switzer Creek Chollas Creek Paleta Creek
Percent Landuse Loadings for Zinc Switzer Creek Chollas Creek Paleta Creek