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• Pitch Reclamation Project April 29, 2004 <br />2003 Annual Reclamation Repoli Page 10 <br />4.3.2 Groundwater Levels <br />Seven piezometers were installed in the area of the Pinnacle Mine to monitor the piezometic <br />surface within the workings area behind the adit plug. The piezometers are identified as P4 <br />through P10. Piezometer P7 was installed as a replacement for P6, which was lost during plug <br />grouting/construction. The locations of these piezometers are provided in Figure 3. All seven <br />piezometers fluctuate seasonally with the highest levels in late May or early June. The water <br />levels are sympathetic with snowmelt and large precipitation events and decrease to stable <br />levels after these events. During 2003, the phreatic surfaces in all piezometers showed a <br />comparatively normal spring cycle following the reduced level of fluctuation observed in spring <br />2002, probably attributable to the below average precipitation experienced in the region during <br />2002. In 2003, the seasonal low water levels observed in P-7 and P-10 have resumed the <br />gradual upward trends that have been observed since 2000. Low water levels in these two wells <br />in 2003 were slightly lower than, those observed in the preceding two-year period likely due to <br />the drought conditions. A hydrograph of the piezometer water levels is provided in Figure 4. <br />4.3.3 Pinnacle Adit Flow <br />The flow rate from the Pinnacle Adit at PP-01 has been monitored since November 1993. The <br />flow from the adit remains in a seasonal pattern of high flows during the short period of spring <br />melt in late May or early June and stable flows of less than 10 gallons per minute (gpm) <br />throughout the year. The measured peak flow in 2003 was 35.1 gpm on May 28, 2003. The <br />average flow for 2003, excluding the peak flow of May 2003, was 7.4 gpm. A hydrograph of the <br />Pinnacle Adit flow at PP-01 is provided in Figure 5. <br />Water management practices employed at the Pitch site include storing additional water in the <br />North Pit Lake during the spring thaw. This seasonal practice results in the elevation of the <br />North Pit Lake water level rising by several feet during May and June. The purpose of this <br />practice is to aid in control of total suspended solids in surface waters on the site, which may <br />become elevated during the spring snow melt. The Pinnacle Adit discharge point PP-01 is <br />located just down gradient of the North Pit Lake. As shown on Figure 5, the discharge at PP-01 <br />increases every year in June. It is theorized that there is a hydrologic connection between the <br />North Pit Lake at the higher water elevation and the Pinnacle Adit, causing increased flow at the <br />PP-01discharge point. snowmelt and runoff from other surrounding sources, originating <br />between the Pinnacle plug and the PP-01 discharge point, may also contribute to the seasonal <br />pattern. Once the snowmelt period is over, water is released from the North Pit Lake, the water <br />level drops back to the original elevation range, and the discharge at PP-01 returns to normal <br />levels. <br />4.3.4 Radium and Uranium Concentrations at PP-07 <br />Dissolved radium 226 and total uranium have been monitored at PP-01 since March 1994. After <br />construction of the Pinnacle Adit plug in September 1995, both the dissolved radium 226 and <br />total uranium concentrations have stabilized at reduced concentrations. A graph of the radium <br />and uranium concentrations at PP-01 is provided in Figure 6. <br />During 2003, total uranium and dissolved radium 226 levels remained at the reduced <br />concentrations observed over the preceding seven-year period. No elevated uranium levels, <br />such as that observed in June 2001, were recorded in 2003. <br />