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Eastern San Joaquin Groundwater Basin Groundwater Management Plan <br /> 4. Telemetry <br /> Selected wells (as many as 10) will be instrumented to provide real-time water-level data and <br /> potentially water-quality data (such as pH and specific conductance). Data will be output <br /> through satellites using the Geostationary Observational Environmental System (GOES) and <br /> uploaded to the Automatic Data Acquisition System (ADAPS) on California District computers. <br /> Graphical and tabular data will be available in near-real time through the Internet. Where <br /> available the data also will be output through local Supervisory Control and Data Acquisition <br /> (SCADA) systems. Equipment will be calibrated and serviced at 15-week intervals by U.S. <br /> Geological Survey personnel. <br /> 5. 3-D Visualization <br /> Spatial data will be stored in a GIS which will be the basis of a 3-D visualization of the ground <br /> water flow system using Earth Vision computer software. The visualization will incorporate <br /> hydrogeologic units and spatially connect data in the area of high-chloride water and along <br /> study flow paths. The visualization will be a tool to evaluate data uncertainty and illustrate the <br /> effects of aquifer hydraulic properties and ground-water flow on the movement of high-chloride <br /> water toward wells. <br /> 6. Data Interpretation and Report Preparation <br /> Sources of high-chloride water to wells will be determined primarily from trace-element to <br /> chloride ratios and further refine by '$O and Deuterium analysis. Results will be compared to <br /> similar data collected in coastal aquifers elsewhere in California. The recharge temperature and <br /> tritium/helium-3 age of younger ground water will be estimated using the computer program <br /> NOBLEGAS. Recharge temperature will be used to evaluate focused sources (such as <br /> infiltration from stream flow) and diffuse sources (such as infiltration of precipitation, and <br /> irrigation return) of ground-water recharge. Changes in ground water chemistry and the age of <br /> older ground water interpreted from carbon-14 data will be evaluated along selected flow paths <br /> using the computer program NETPATH. <br /> Interim papers describing the source of high-chloride water to wells and the movement and age <br /> of water from wells will be published during the course of the study. Annual progress meetings <br /> with cooperators and stakeholders will be held. A final report integrating information from all <br /> aspects of the study including data review, well installation, data collection, telemetry, and 3-D <br /> visualization will commence at the end of the Study. <br /> 7. Project Costs <br /> The total cost of the study is $2,579,350. The proposed USGS contribution will be $625,000 <br /> over 5 fiscal years as well as an additional $625,000 from the DWR over the first 3 fiscal years. <br /> Member agencies within the Authority will contribute the remaining $1,322,350 over next 5 fiscal <br /> years. <br /> 5.2 Monitoring Protocols <br /> In order to ensure that groundwater data is collected in a systematic and consistent manner, the <br /> Authority has adopted the Groundwater Monitoring Program Quality Assurance/Quality Control <br /> (QA/QC) Plan, prepared by MWH in 1998. The QA/QC Plan addresses the following items: <br /> monitoring and sampling preparations, sample collection procedures, chain-of-custody <br /> procedures, sample transport, laboratory procedures and methods, and data validation and <br /> reporting. The QA/QC Plan can be obtained at the San Joaquin County Department of Public <br /> Works Stormwater Management Division. The revised QA/QC plan proposed as part of the <br /> GDC is expected to be completed by the spring of 2005. <br /> Northeastern San Joaquin County Section 5 <br /> Groundwater Banking Authority 94 Groundwater Monitoring Program <br />