Nutrient and Sediment Concentrations, Yields and Loads in Impaired Streams and Rivers in the Taunton River Basin, Massachusetts, 1997-2008 Jeffrey R. Barbaro.

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Presentation transcript:

Nutrient and Sediment Concentrations, Yields and Loads in Impaired Streams and Rivers in the Taunton River Basin, Massachusetts, Jeffrey R. Barbaro and Jason R. Sorenson, U.S. Geological Survey, New England Water Science Center Massachusetts-Rhode Island District Prepared in cooperation with Massachusetts Department of Environmental Protection, Division of Watershed Management Jeffrey R. Barbaro and Jason R. Sorenson, U.S. Geological Survey, New England Water Science Center Massachusetts-Rhode Island District Prepared in cooperation with Massachusetts Department of Environmental Protection, Division of Watershed Management

Problem Impaired, nutrient-rich waters from the Taunton River discharge into Mount Hope and Narragansett Bays likely contribute to eutrophication problems Information is needed to develop TMDLs and load allocations in the Taunton basin

Matfield River at North Central Street, East Bridgewater Objectives 1.Compiled existing water-quality data to assess selected impaired 303d-listed reaches 2.Collected limited new water-quality data at two locations on the Matfield and Taunton Rivers 3.Developed an HSPF precipitation-runoff model calibrated for the selected impaired reaches 4.Examined nutrient and sediment yield-duration curves using simulated daily mean streamflow and existing water-quality data 5.Mean annual nutrient loads and load allocation among point and diffuse sources in the basin were estimated using SPARROW models Objectives 1.Compiled existing water-quality data to assess selected impaired 303d-listed reaches 2.Collected limited new water-quality data at two locations on the Matfield and Taunton Rivers 3.Developed an HSPF precipitation-runoff model calibrated for the selected impaired reaches 4.Examined nutrient and sediment yield-duration curves using simulated daily mean streamflow and existing water-quality data 5.Mean annual nutrient loads and load allocation among point and diffuse sources in the basin were estimated using SPARROW models

Results Three USGS streamgages with sufficient periods of continuous record available for calibration Three major wastewater return flows Two climate stations 20 reaches (RCHRES) containing 303d- listed impaired reaches

Results Nine reaches (RCHRES) established on the Taunton River mainstem, and 54 reaches on the tributaries Water-use data from impaired reaches only Simulated flows agree well with observed flows Beaver Brook MA62-09 Matfield River MA62-32 Taunton River near Berkley Bridge

Taunton River looking downstream from Weir Village, Taunton Results Previous water-quality data from 50 sampling locations collected generally during warmer months and dry weather conditions Collected new water-quality data at two locations on the Matfield and Taunton Rivers Results Previous water-quality data from 50 sampling locations collected generally during warmer months and dry weather conditions Collected new water-quality data at two locations on the Matfield and Taunton Rivers

Taunton River looking downstream from Weir Village, Taunton Results Yield-duration curves were created using simulated flows, concentration data from the water-quality database of new and previously collected data, and high and low threshold values Higher threshold based on the EPA’s Gold book Standard (1986) Lower threshold is based on the 75 th percentile concentration from two USGS reference sites in New England (Stillwater River in Sterling MA and Black Brook in Manchester NH) Results Yield-duration curves were created using simulated flows, concentration data from the water-quality database of new and previously collected data, and high and low threshold values Higher threshold based on the EPA’s Gold book Standard (1986) Lower threshold is based on the 75 th percentile concentration from two USGS reference sites in New England (Stillwater River in Sterling MA and Black Brook in Manchester NH) Total yield, in pounds per square mile per day Exceedance probability Total PTotal N

Matfield River near Elmwood, East Bridgewater Total yield, in pounds per square mile per day Exceedance probability Total P Total N Conclusions Yield duration curves of impaired reaches downstream of wastewater effluent discharge indicate point sources are the major influence on water quality and augmented low flows Water quality at all other impaired reaches appear to be more dominated by diffuse sources Conclusions Yield duration curves of impaired reaches downstream of wastewater effluent discharge indicate point sources are the major influence on water quality and augmented low flows Water quality at all other impaired reaches appear to be more dominated by diffuse sources

Matfield River near Elmwood, East Bridgewater Total yield, in pounds per square mile per day Exceedance probability Total N Total P * Prior to wastewater treatment plant upgrades which may have reduced TP and TN loads by 80% and 30%, respectively Conclusions Predicted mean annual nutrient loads using the Northeast/Mid-Atlantic SPAtially-Referenced Regression On Watershed (SPARROW) models were consistent with measured yield and load data. Treated wastewater effluent accounted for over 75% and 93% of TN and TP loads in the Salisbury Plain and Matfield Rivers, respectively, and about 76% and 46% of TN and TP loads to Mount Hope Bay, respectively ( )*. Conclusions Predicted mean annual nutrient loads using the Northeast/Mid-Atlantic SPAtially-Referenced Regression On Watershed (SPARROW) models were consistent with measured yield and load data. Treated wastewater effluent accounted for over 75% and 93% of TN and TP loads in the Salisbury Plain and Matfield Rivers, respectively, and about 76% and 46% of TN and TP loads to Mount Hope Bay, respectively ( )*.

Temporary Berkley-Dighton Bridge, photo courtesy Taunton Gazette Questions