Economic growth and the development, management, and protection of Virginia’s natural resources require anticipating peak stream flows and changes in peak stream flows over time. Extensive hydraulic analysis and smart design are needed to limit the environmental impacts of buildings, pavements, highways, and bridges. Effective design and placement of structures built near streams and on flood plains requires an understanding of peak discharges and basin characteristics of streams. Knowledge of the magnitude and frequency of peak discharge is needed to construct highway bridges and culverts, locate transportation infrastructure, and design flood-control structures. Knowledge of basin characteristics is needed to use peak flow characteristics at ungaged locations.
These needs are addressed through cooperative study and a series of scientific investigations.
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Digital basin boundaries have been determined at approximately 550 current and historic surface-water gaging stations. They may be found here: Drainage Area of Selected Streams in Virginia
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Annual flood-peak data have been summarized for over 500 Virginia stream gaging stations, and may be found here: Annual Maximum Stages and Discharges of Selected Streams in Virginia Through 2007
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Peak-Flow characteristics have been analyzed and summarized for 476 Virginia stream gaging stations. Statewide regional regression equations describing peak-flow characteristics at ungaged locations have been developed. These may be found here: Peak-Flow Characteristics of Virginia Streams
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Models and equations for estimating Virginia urban basin peak water discharge per square mile have been developed. They describe urban area peak discharge per square mile as a function of percent urban area, and basin drainage area, for basins anywhere in Virginia with urban land use ranging from 10-percent to 96-percent, and basin drainage area ranging from 0.07 square-miles to 2,404 square-miles. They may be found here: Methods and Equations for Estimating Peak Streamflow Per Square Mile in Virginia's Urban Basins.
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Curves and equations are being developed to describe the actual chance of a particular peak flow event occurring. One of the more confusing concepts in flow prediction is the idea of an average recurrence interval associated with a particular peak flow. It is possible for a 20-year event to occur in each of two consecutive years, or not to occur at all during 30 consecutive years or more. When using calculations of the average frequency of peak flows, therefore, one should take note of the variation in their occurrence. This set of curves and equations will help determine the actual chance of a particular peak flow event occurring, as a function of the average recurrence interval of an event and the number of years in the interval within-which the event may occur. Check here soon for more information about acquiring and using these curves and equations.
A Network of Peak-Flow Gaging Stations
Since 1949, the USGS, in cooperation with the Virginia Department of Transportation (VDOT), has maintained a network of partial-record peak-discharge gaging stations. These, combined with other continuous-record gaging stations, provide annual peak-discharge data at more than 550 gaging station locations throughout Virginia. Most of these gages have 10 years or more of peak-discharge data. Data from these gages may be found here: Peak Flow Network Data.
Benefits of Quality Data and Science
Quality peak-flow data, combined with continued collaborative scientific investigation, provide uniquely useful application oriented information and analyses vital to understanding, anticipating, and better managing Virginia stream flows, basins, and ecosystems.
Reports Summarizing Peak-Flow, Urban Peak-Flow, and Annual Maximum Flow Characteristics of Virginia Streams
Peak-flow characteristics of Virginia streams
Methods and equations for estimating peak streamflow per square mile in Virginia’s urban basins
Peak-flow characteristics of Virginia streams
Annual Maximum Stages and Discharges of Selected Streams in Virginia through 2007
- Overview
Economic growth and the development, management, and protection of Virginia’s natural resources require anticipating peak stream flows and changes in peak stream flows over time. Extensive hydraulic analysis and smart design are needed to limit the environmental impacts of buildings, pavements, highways, and bridges. Effective design and placement of structures built near streams and on flood plains requires an understanding of peak discharges and basin characteristics of streams. Knowledge of the magnitude and frequency of peak discharge is needed to construct highway bridges and culverts, locate transportation infrastructure, and design flood-control structures. Knowledge of basin characteristics is needed to use peak flow characteristics at ungaged locations.
These needs are addressed through cooperative study and a series of scientific investigations.
-
Digital basin boundaries have been determined at approximately 550 current and historic surface-water gaging stations. They may be found here: Drainage Area of Selected Streams in Virginia
-
Annual flood-peak data have been summarized for over 500 Virginia stream gaging stations, and may be found here: Annual Maximum Stages and Discharges of Selected Streams in Virginia Through 2007
-
Peak-Flow characteristics have been analyzed and summarized for 476 Virginia stream gaging stations. Statewide regional regression equations describing peak-flow characteristics at ungaged locations have been developed. These may be found here: Peak-Flow Characteristics of Virginia Streams
-
Models and equations for estimating Virginia urban basin peak water discharge per square mile have been developed. They describe urban area peak discharge per square mile as a function of percent urban area, and basin drainage area, for basins anywhere in Virginia with urban land use ranging from 10-percent to 96-percent, and basin drainage area ranging from 0.07 square-miles to 2,404 square-miles. They may be found here: Methods and Equations for Estimating Peak Streamflow Per Square Mile in Virginia's Urban Basins.
-
Curves and equations are being developed to describe the actual chance of a particular peak flow event occurring. One of the more confusing concepts in flow prediction is the idea of an average recurrence interval associated with a particular peak flow. It is possible for a 20-year event to occur in each of two consecutive years, or not to occur at all during 30 consecutive years or more. When using calculations of the average frequency of peak flows, therefore, one should take note of the variation in their occurrence. This set of curves and equations will help determine the actual chance of a particular peak flow event occurring, as a function of the average recurrence interval of an event and the number of years in the interval within-which the event may occur. Check here soon for more information about acquiring and using these curves and equations.
A Network of Peak-Flow Gaging Stations
Since 1949, the USGS, in cooperation with the Virginia Department of Transportation (VDOT), has maintained a network of partial-record peak-discharge gaging stations. These, combined with other continuous-record gaging stations, provide annual peak-discharge data at more than 550 gaging station locations throughout Virginia. Most of these gages have 10 years or more of peak-discharge data. Data from these gages may be found here: Peak Flow Network Data.
Benefits of Quality Data and Science
Quality peak-flow data, combined with continued collaborative scientific investigation, provide uniquely useful application oriented information and analyses vital to understanding, anticipating, and better managing Virginia stream flows, basins, and ecosystems.
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- Publications
Reports Summarizing Peak-Flow, Urban Peak-Flow, and Annual Maximum Flow Characteristics of Virginia Streams
Peak-flow characteristics of Virginia streams
Peak-flow annual exceedance probabilities, also called probability-percent chance flow estimates, and regional regression equations are provided describing the peak-flow characteristics of Virginia streams. Statistical methods are used to evaluate peak-flow data. Analysis of Virginia peak-flow data collected from 1895 through 2007 is summarized. Methods are provided for estimating unregulated peakAuthorsSamuel H. Austin, Jennifer L. Krstolic, Ute WiegandMethods and equations for estimating peak streamflow per square mile in Virginia’s urban basins
Models are presented that describe Virginia urban area annual peak streamflow per square mile based on basin percent urban area and basin drainage area. Equations are provided to estimate Virginia urban peak flow per square mile of basin drainage area in each of the following annual exceedance probability categories: 0.995, 0.99, 0.95, 0.9, 0.8, 0.67, 0.5, 0.43, 0.2, 0.1, 0.04, 0.02, 0.01, 0.005,AuthorsSamuel H. AustinPeak-flow characteristics of Virginia streams
Peak-flow annual exceedance probabilities, also called probability-percent chance flow estimates, and regional regression equations are provided describing the peak-flow characteristics of Virginia streams. Statistical methods are used to evaluate peak-flow data. Analysis of Virginia peak-flow data collected from 1895 through 2007 is summarized. Methods are provided for estimating unregulated peakAuthorsSamuel H. Austin, Jennifer L. Krstolic, Ute WiegandAnnual Maximum Stages and Discharges of Selected Streams in Virginia through 2007
Annual maximum stages and discharges for continuous-record and partial-record streamflow-gaging stations in Virginia are summarized through the 2007 water year. Data are included for over 500 active and discontinued streamflow-gaging stations operated by the U.S. Geological Survey, the Virginia Department of Environmental Quality, and other agencies for which 2 or more years of record are availablAuthorsSamuel H. Austin, Ute Wiegand