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Baseline water quality of Fish Creek upstream of the mine is typically a calcium sulfate-bicarbonate type with <br />relatively high concentrations of magnesium and moderate to low dissolved solids. The Trilinear Diagram Plot <br />• illustrates typical surface water chemistry for the Fish Creek Site 16 and Station 1001 included in Figures 6-f and 6-g, <br />respectively. Station 1002 and 1003 located downstream show a shift to higher dissolved solids and higher <br />concentrations of sulfate and sodium as illustrated by the Trilinear Diagram Plot for the Fish Creek Stations 1002 (26) <br />and 1003 included in Figures 6-h and 6-i, respectively. <br />Water quality seasonal plots on Fish Creek included in Figures 6-j, 6-k, and 6-1 show no trends in the plotted water <br />quality characteristics over the relevant monitoring period. The plots do illustrate the seasonal trends in TDS as well <br />as the changes along the stream reach through Twentymile Park Upstream of the mine, TDS levels vary from about <br />250 mg/1 during the high snowmelt runoff months of March, April, and May to concentrations about 500 mg/1 during <br />low flow periods for the months of July, August, and September. Downstream neaz the mouth of Fish Creek, TDS <br />levels vary from about 200 mg/1 to concentrations in excess of 1000 mg/I. No obvious seasonal trend appears at the <br />downstream station, although TDS concentrations appear to decrease during the summer months. <br />The seasonal plots in Figure 6-m of Fish Creek water quality at Station 1002/26 show that stream standards for iron, <br />copper, and TDS are often exceeded. Period of record water quality data for Fish Creek surface sites (16, 16A, 307, <br />302, SW-13, 1002, SW-14, SW-15, 305 62 and 1003) are provided in Table 1Q Surface Water Data. <br />Baseline water quality characteristics on Trout Creek are chazacterized by data from Station 69 located on Tmut <br />Creek above the confluence with Fish Creek (Map 13, Twentymile Pazk Hydrology}. Baseline water chemistry on <br />Foidel Creek is acalcium-bicarbonate type with relatively high concentrations of magnesium and sulfate (Figure 6-0). <br />The seasonal plots in Figure 6-n do not reveal pronounced seasonal patterns for TDS. Highest concentrations appeaz <br />during the spring and late summer. Iron, manganese, sulfate and TSS all show a similar pattem of high concentrations <br />in March through June with substantial decreases in concentrations during the remainder of the year. The iron, <br />• manganese and TSS pattern is typical of the pattem observed on other streams such as Fish Creek and Foidel Creek. <br />The sulfate pattem is atypical. It is possible that this pattern for sulfate occurs as a result of baseflow contributions to <br />Trout Creek from a ground water aquifer that is predominantly acalcium-bicarbonate type. The seasonal plots in <br />Figure 6-n of Trout Creek water quality show that stream standards or irrigation standards for sulfate, suspended <br />solids, and iron aze often exceeded during spring runoff. Total manganese and copper appeaz to be well below the <br />stream standards. <br />Further baseline water quality characterization of streams in the general area was facilitated by use of a digital- <br />computer modeling analysis of water quantity and quality conditions in streams of the Trout Creek Basin and in a <br />reach of the Yampa River upstream and downstream from the confluence of Trout Creek (Exhibit 32, quantity and <br />Quality Modeling Analyses of Surface-Water Resources of the Trout Creek Basin). In this modeling analysis, <br />ambient (i.e., baseline) streamflow and selected water-quality characteristics were depicted using historical data <br />available over an 8-year period of record (1976 through 1983 water years) at approximately 24 monitoring sites <br />located throughout the study area. Much of the available monitoring data is referenced herein. In order to achieve a <br />better balance of streamflows and associated chemical solute loads in the Trout Creek Basin, estimated flows and <br />water-quality characteristics are introduced at 6 additional locations in the stream system that have not been monitored <br />to account for observed conditions at actual monitoring sites (Exhibit 32, Quantity and Quality Modeling Analyses of <br />Surface-Water Resources of the Trout Creek Basin). Water quality constituents of interest considered in the modeling <br />analysis included: specific conductance, dissolved solids, total suspended solids, and suspended sediment as indicator <br />variables; calcium, magnesium, sodium, and potassium as major cations; bicarbonate, sulfate, and chloride as major <br />anions; dissolved solids as sum-of-constituents as a check on directly analyzed dissolved-solids concentrations, and <br />total iron and total manganese concentrations as indicator trace metals. <br />• <br />PR 03-06 2.04-35 05/07/03 <br />