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general northeastern flow of the Edwards Aquifer (Murray, Straud, Hammond, 2007; Schindel et al., 2009; Smith, Hunt, Schindel, 2005). Methods to assess water quality will include Ion Chromatography to determine the presence and concentrations of cations and anions, Gas Chromatography Mass Spectrometry (GC -MS) and Liquid Chromatography Mass Spectrometry (LC -MS) to assess the presence of compounds from the City's effluent as well as chosen pesticides and herbicides, and the use of semi - permeable Gore survey modules within airtight flow - through chambers to detect the presence of volatile organic carbons, semi - volatile organic carbons and polycyclic aromatic hydrocarbons that may be byproducts of the construction process. Analysis of total alkalinity, total dissolved solids, total hardness, and total coliform bacteria will also be performed. Field parameters such as pH, dissolved oxygen, water temperature, and specific conductance will be obtained for the wells upon each collection event. Water level of structurally accommodating wells will be assessed with an electronic water level meter. Measurements will be taken prior to well pumping at the time of sampling. In addition, an ISCO -6712 Portable Storm water sampler will be deployed at the base of an observed drainage, known as Cottonwood Creek, that runs through the Paso Robles development site toward Hunter Road (Figure 6). Each surface runoff sample collected will be analyzed for total suspended solids, nitrate, calcium, magnesium, sodium, potassium, sulfate, chloride, dissolved organic carbon, alkalinity, and conductivity (Table 7). In addition, a rough estimate of flow will be determined with the use of a flow meter and the construction of a weir. This data will aid in the evaluation of surface runoff which may enter the aquifer as Paso Robles and the associated golf course are being constructed. Baseline water quality data, acquired prior to development, will be compared to that collected during development of Paso Robles as a means of tracking water quality. Ultimately, this thesis project will enhance the likelihood of timely identification of potential contamination and promote further investigation of the effects of anthropogenic surface activity on subsurface aquatic environments such as the Edwards Aquifer. The project may also aid in expediting corrective management practices for Paso Robles and its associated golf course if needed, and help protect crucial environmental aspects of the aquifer and its sources of recharge from future contamination. Statement of Need There are over 40 specialized surface and subsurface aquatic species associated with the Edwards Aquifer and connected streams. Of these, seven are listed as endangered (Longley, 1986). They include the fountain darter (Etheostoma fonticola), Texas blind salamander (Eurycea rathbuni), Comal Springs riffle beetle (Heterelmis comalensis), Comal Springs dryopid beetle (Stygoparnus comalensis), Peck's Cave amphipod (Stygobromus pecki), and Texas wild rice (Zizania texana). The San Marcos salamander (Eurycea nana) inhabits San Marcos Springs, which discharges from the Edwards Aquifer, and is listed as threatened under the US Fish and Wildlife Service's endangered and threatened species report (U.S. Fish and Wildlife Service, 2010). Groundwater from the Edwards Aquifer, which encompasses sections of Kinney, Uvalde, Zavala, Medina, Frio, Atascosa, Bexar, Comal, Guadalupe, and Hays counties (Figure 1); is heavily used for municipal, agricultural, and recreational purposes (Longley, Jordan, 1996; Schindel et al., 2009). Historically, the high - quality water of the Edwards Aquifer prompted the cities of New Braunfels, Uvalde, San Antonio, and San Marcos to be founded near the springs that discharge from the aquifer (Schindel et al., 2009). The two largest spring groups in the state of Texas, Comal and San Marcos Springs, are sustained by water discharged from the Edwards Aquifer. Additional springs that