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<br />Assessment of Metal Transport Into and Out of <br />Terrace Reservoir, Conejos County, Colorado, <br />April 1994 Through March 1995 <br /> <br />By Sheryl Ferguson and Patrick Edelmann <br /> <br />Abstract <br /> <br />Terrace Reservoir is the primary source of <br />water for crops and livestock in the southwestern <br />part of the San Luis Valley in southern Colorado. <br />Mining activities have occurred in the basin for <br />more than 100 years, and substantial mining <br />of gold has occurred intennittently at the <br />Summitville Mine. Historically, the Summitville <br />Mine site has produced highly acidic, metal- <br />enriched water that drained from the mine site <br />into Wightman Fork and flowed to the Alamosa <br />River and Terrace Reservoir. In 1994, a study <br />was begun as part of risk-assessment and remedi- <br />ation efforts and to evaluate metal transport into <br />and out of Terrace Reservoir. <br />During the study period, the pH immedi- <br />ately upstream from Terrace Reservoir ranged <br />from 4.3 to 7.8. The highest pH occurred during <br />the pre-peak snowmelt period; the lowest pH <br />occurred during storm runoff during summer. <br />Downstream froin Terrace Reservoir, the pH <br />ranged from 4.6 to 7.6. The highest pH occurred <br />during the pre-peak snowmelt period, and the <br />lowest pH occurred during summer in mid-July. <br />A comparison of the streamflow hydrographs <br />upstream and downstream from Terrace Reservoir <br />indicated that there was only a small difference <br />between the annual volume of water that entered <br />the reservoir and the annual volume of water that <br />was released from the reservoir. <br />Large spatial and temporal variations in <br />concentrations of the metals of concern occurred <br />during the study. The median and maximum <br />concentrations of dissolved and total aluminum, <br />iron, copper, cadmium, manganese, and zinc <br />were larger upstream from the reservoir than <br /> <br />downstream from the reservoir. The largest <br />concentrations of dissolved aluminum, iron, <br />copper, cadmium, manganese, and zinc generally <br />occurred between mid-June and November. <br />Throughout the study, aluminum was transported <br />into the reservoir predominantly in the particulate <br />or suspended form. Downstream from the <br />reservoir, the suspended-aluminum fraction was <br />predominant only during the pre-peak snowmelt <br />and peak snowmelt periods. The temporal <br />variations in the percentage of dissolved <br />and suspended fraction of iron and copper <br />downstream from Terrace Reservoir were similar <br />to the temporal variations that occurred upstream <br />from the reservoir. During the study period, <br />cadmium, manganese, and zinc generally were <br />transported into and out of the reservoir predomi- <br />nantly in the dissolved form. <br />Metal loads varied considerably as a result <br />of changes in streamflow or changes in metal <br />concentrations, or both. The largest daily loads <br />of aluminum, iron, and manganese were <br />transported into and out of Terrace Reservoir <br />during the peak snowmelt period. The reservoir <br />was a sink for an estimated 294 tons of aluminum <br />and 596 tons of iron. However, about 68.5 tons <br />of total aluminum and about 194 tons of total iron <br />were transported out of the reservoir during the <br />study period. During the study period, about <br />22 tons of total copper remained in the reservoir, <br />and 39 tons was transported downstream from the <br />reservoir. About 47 tons of total manganese and <br />18 tons of total-zinc loads were transported out of <br />the reservoir; the reservoir was a sink for only a <br />small fraction of total-manganese and -zinc loads. <br /> <br />003158 <br /> <br />Ab81rect 1 <br />