Since 1991, the U.S. Geological Survey (USGS), in cooperation with the Flood Control District of Maricopa County (FCDMC), the city of Phoenix, and the city of Glendale, has been collecting, analyzing, and interpreting urban stormwater information from selected basins throughout the metropolitan Phoenix area. Water-resource managers and policy makers have used this information to determine pollutant loads discharged from urban basins to receiving waters and will be using this information in the future to develop and test management strategies designed to mitigate pollutant loads. The basins monitored during this investigation are generally categorized by land use type. This approach has aided in determining the effect of land use type on the variability of pollutant loads discharged from basins during storms.
Objectives
Objectives of this study are to (1) collect rainfall, runoff, and water-quality data to characterize stormwater quality from representative urban land uses at seven urban monitoring stations and (2) update pollutant-load regression equations to be used to transfer results of this investigation to similar unmonitored urban basins.
Approach
The USGS will collect stormwater samples during representative storm events at seven urban basins in the metropolitan Phoenix area and five urban basins in the metropolitan Glendale area. These samples will be analyzed to determine the basin characteristics and factors that contribute to the variability of urban runoff quality for selected land use types.
Four flow-weighted composite samples will be collected and analyzed annually for each of the urban sites. Two samples will be collected during the winter months and two samples will be collected during the summer months to characterize seasonal changes in pollutant loads. Automatic samplers already installed at most of the sites will collect the composite samples. Grab samples for bacteria, volatile organic compounds, total petroleum hydrocarbons, oil and grease, and synthetic organic chemicals, will be collected at the site by sampling personnel as soon as possible after the beginning of a storm event.
Relevance and Benefits
The collection, compilation, and analysis of urban stormwater information will result in increased knowledge of the chemistry of urban stormwater runoff in a major metropolitan area that is in an arid region. Because of the many municipal entities involved in characterizing the chemistry of stormwater runoff in Maricopa County, the information gathered and relations developed by the USGS will provide a substantial database and resource that the communities can use for planning and operation purposes. The information collected during this study is needed to develop better sampling criteria for future stormwater permitting in arid regions. The USGS is collecting similar stormwater chemistry information for major metropolitan areas throughout the United States; this study will contribute information to national databases that can be used to advance the understanding of regional variations in hydrologic conditions.
In most urban settings, the receiving waters for stormwater runoff are tributaries that eventually flow into major river systems. This region is unique in that most runoff enters into dry riverbeds and eventually is transpired by plants or percolates into the groundwater system. Very little is known about the chemicals entering the groundwater system and the fate of these chemicals as they move from surface-water systems into the unsaturated zone or the groundwater system. Data from this project combined with data from earlier work will provide a needed database for future studies of these processes.
Below are publications associated with this project.
Statistical summary of selected physical, chemical, and toxicity characteristics and estimates of annual constituent loads in urban stormwater, Maricopa County, Arizona
Chemical characteristics of urban stormwater sediments and implications for environmental management, Maricopa County, Arizona
Physical, chemical, biological, and toxicity data from the study of urban stormwater and ephemeral streams, Maricopa County, Arizona, water years 1992-95
Selected chemical characteristics and acute toxicity of urban stormwater, streamflow, and bed material, Maricopa County, Arizona
Statistical summary of selected physical, chemical, and microbial characteristics, and estimates of constituent loads in urban stormwater, Maricopa County, Arizona
Chemistry and toxicity of urban sediments, Maricopa County, Arizona, data and summary statistics
Since 1991, the U.S. Geological Survey (USGS), in cooperation with the Flood Control District of Maricopa County (FCDMC), the city of Phoenix, and the city of Glendale, has been collecting, analyzing, and interpreting urban stormwater information from selected basins throughout the metropolitan Phoenix area. Water-resource managers and policy makers have used this information to determine pollutant loads discharged from urban basins to receiving waters and will be using this information in the future to develop and test management strategies designed to mitigate pollutant loads. The basins monitored during this investigation are generally categorized by land use type. This approach has aided in determining the effect of land use type on the variability of pollutant loads discharged from basins during storms.
Objectives
Objectives of this study are to (1) collect rainfall, runoff, and water-quality data to characterize stormwater quality from representative urban land uses at seven urban monitoring stations and (2) update pollutant-load regression equations to be used to transfer results of this investigation to similar unmonitored urban basins.
Approach
The USGS will collect stormwater samples during representative storm events at seven urban basins in the metropolitan Phoenix area and five urban basins in the metropolitan Glendale area. These samples will be analyzed to determine the basin characteristics and factors that contribute to the variability of urban runoff quality for selected land use types.
Four flow-weighted composite samples will be collected and analyzed annually for each of the urban sites. Two samples will be collected during the winter months and two samples will be collected during the summer months to characterize seasonal changes in pollutant loads. Automatic samplers already installed at most of the sites will collect the composite samples. Grab samples for bacteria, volatile organic compounds, total petroleum hydrocarbons, oil and grease, and synthetic organic chemicals, will be collected at the site by sampling personnel as soon as possible after the beginning of a storm event.
Relevance and Benefits
The collection, compilation, and analysis of urban stormwater information will result in increased knowledge of the chemistry of urban stormwater runoff in a major metropolitan area that is in an arid region. Because of the many municipal entities involved in characterizing the chemistry of stormwater runoff in Maricopa County, the information gathered and relations developed by the USGS will provide a substantial database and resource that the communities can use for planning and operation purposes. The information collected during this study is needed to develop better sampling criteria for future stormwater permitting in arid regions. The USGS is collecting similar stormwater chemistry information for major metropolitan areas throughout the United States; this study will contribute information to national databases that can be used to advance the understanding of regional variations in hydrologic conditions.
In most urban settings, the receiving waters for stormwater runoff are tributaries that eventually flow into major river systems. This region is unique in that most runoff enters into dry riverbeds and eventually is transpired by plants or percolates into the groundwater system. Very little is known about the chemicals entering the groundwater system and the fate of these chemicals as they move from surface-water systems into the unsaturated zone or the groundwater system. Data from this project combined with data from earlier work will provide a needed database for future studies of these processes.
Below are publications associated with this project.