David J Rosa scite author profile

The Storm Water Management Model was used to simulate runoff and nutrient export from a low impact development (LID) watershed and a watershed using traditional runoff controls. Predictions were compared to observed values. Uncalibrated simulations underpredicted weekly runoff volume and average peak flow rates from the multiple subcatchment LID watershed by over 80%; the single subcatchment traditional watershed had better predictions. Saturated hydraulic conductivity, Manning's n for swales, and initial soil moisture deficit were sensitive parameters. After calibration, prediction of total weekly runoff volume for the LID and traditional watersheds improved to within 12 and 5% of observed values, respectively. For the validation period, predicted total weekly runoff volumes for the LID and traditional watersheds were within 6 and 2% of observed values, respectively. Water quality simulation was less successful, Nash-Sutcliffe coefficients >0.5 for both calibration and validation periods were only achieved for prediction of total nitrogen export from the LID watershed. Simulation of a 100-year, 24-h storm resulted in a runoff coefficient of 0.46 for the LID watershed and 0.59 for the traditional watershed. Results suggest either calibration is needed to improve predictions for LID watersheds or expanded look-up tables for Green-Ampt infiltration parameter values that account for compaction of urban soil and antecedent conditions are needed.

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Transabdominal endoscopic computer-enhanced coronary artery bypass grafting

Falk

Moll

Rosa

et al. 1999

The Annals of Thoracic Surgery

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Water quality changes in a short-rotation woody crop riparian buffer

Rosa

Clausen

Kuzovkina

2017

Biomass and Bioenergy

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David J Rosa

Calibration and Verification of SWMM for Low Impact Development

Transabdominal endoscopic computer-enhanced coronary artery bypass grafting

Water quality changes in a short-rotation woody crop riparian buffer

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