By the early 1970s, only a third of the nation’s public water resources were safe for fishing and swimming. The lack of success in developing adequate water quality standards programs, combined with ineffective enforcement of existing laws, prompted the federal government to pass a comprehensive revision of the federal water pollution control law, known as the Federal Water Pollution Control Act (FWPCA) amendments of 1972. This act established that “the discharge of pollutants to navigable waters is not a right” and that “a discharge permit is required to use public water resources for waste disposal.”
To enforce the law and encourage these principles, FWPCA created the system of permitting wastewater discharges known as the National Pollutant Discharge Elimination System (NPDES). Focusing primarily on controlling pollutants from urban and industrial storm water discharges, Phase I of the NPDES program required all municipal separate storm sewer systems (MS4s) serving a population of 100,000 or more to acquire a permit.
Taking inventory
The city of Jacksonville (COJ), located in northeast Florida, is rich with natural water resources, such as the Atlantic Intracoastal and the St. Johns River. In June 1991, COJ, along with its co-permittees—the Florida Department of Transportation (FDOT) District II and the cities of Neptune Beach and Atlantic Beach—started the process of applying for an NPDES permit that would cover the largest MS4 in the nation. The application was accepted, and the permit was acquired in March 1997. COJ and FDOT jointly turned to England-Thims & Miller, Inc., of Jacksonville, an ESRI Business Partner, to prepare their permit applications and assist in the fulfillment of the permit’s requirements after its issuance.
Because the city of Jacksonville spans more than 758 sq miles, the most time-consuming and labor-intensive task associated with meeting the requirements of the permit was the mapping of the MS4. The inventory included the locations and pathways of storm water pipes, along with inlet, manhole and outlet construction information, all of which are stored in an ESRI geodatabase with submeter accuracy.
The MS4 spatial data was compiled through a process that involved both intensive field data collection and a review of design drawings and as-built drawings acquired from both the city of Jacksonville and FDOT. However, despite every effort to ensure the accuracy of the inventory, some logical gaps still exist within it. Gaps are due to a variety of reasons, including updates to the existing system, missing or inaccurate record drawings, a lack of access by field crews caused by private property rights, paved-over manholes, or any number of other real-world conditions that hinder the accuracy of any project. To correct these gaps and acquire MS4 information in areas of new or updated construction, England-Thims & Miller and its surveying partner Robert M. Angas Associates are conducting a field quality assurance (QA) program.
GIS technology
To optimize this field QA process, England-Thims & Miller selected the Field Adapted Survey Toolkit (FAST) from ESRI Business Partner GeoAge, Inc., of Jacksonville. COJ selected this software because it dynamically adjusts to changing data collection requirements and allows rapid design and deployment of mobile data collection forms to the field. Its designer module incorporates ArcGIS Engine technology directly so that ArcView users can view the survey locations spatially and open applicable collection forms from a map. Also, its ArcPad applet allows users to view locations of surveys on their Pocket PC mobile devices. FAST also allows digital photos and GPS coordinates to be easily associated with surveys.
The old method of cross-referencing of documents and paper maps in the field was tedious and time-consuming. Using mobile devices loaded with ArcPad and FAST working together allows field crews to take data layers crucial to resolve “gaps” into the field. The field crews now have instant access to feature classes depicting the current state of MS4, planimetric data, topographic data, aerial photography of the region, major and minor basin boundaries, and hydrologic features.
The evolution of hardware and software has allowed England-Thims & Miller to greatly improve the processes associated with the NPDES permit.
“When we started data collection in 1996, because of the state of the existing technology, we would go out with two teams: one that collected the attribute and image data and the other that collected the feature’s coordinates,” said Kim Garbade of England-Thims & Miller. “We would postprocess this data into shapefiles.”
As GIS technology has evolved, COJ has improved the process and can collect photographic, attribute and positional data simultaneously with a one-man crew, and now stores the data in a SQL Server geodatabase using ArcSDE.