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service area are available for a number of heavy metals that are harmful to aquatic life, such <br />as zinc, cadmium, chromium, copper, lead, mercury, and nickel. Above a certain <br />concentration, these metals have been determined to be toxic to aquatic life; thus, the <br />Oregon DEQ has established a set of water quality standards for their protection. These are <br />specified in OAR 340-41. When applicable, the standards consider water hardness (a <br />measure of mineral salts dissolved in the water). A discussion of the heavy metals found in <br />the Willamette River within the MWMC service area is presented below. <br /> <br />Mercury has been found in some species of fish caught in the Willamette River and its major <br />tributaries. The mercury in the fish is believed to come from natural volcanic and mineral <br />sources and mining wastes in the headwaters of the Willamette River, and from human <br />sources along the r~ver. Fish with high levels of mercury are resident fish that eat other fish, <br />such as largemouth bass and northern pike mirmow. Anadromous fish that spend most of <br />their adult life in the ocean do not have high mercury levels in their bodies. Potential <br />sources of human-derived mercury include household products, food products, dental <br />waste, wrecking yards (mercury-based automobile switches), fluorescent and compact <br />lamps, and deposition of air-borne particles. <br /> <br />In Lane County, perhaps one of the largest single sources of mercury in the Coast Fork <br />Willamette River is rtmoff from the Black Butte rrdne, which was once the second largest <br />mercury mine in Oregon until operations ceased in 1968. It is estimated that mine tailings on <br />the site contain about 90,000 pounds of mercury, and that between 180 and 1,800 pounds of <br />mercury is potentially mobilized into the environment each year (Weiss and Wright, 2001). <br />The Oregon DEQ is currently conducting a TDML study of mercury in the W~amette basin. <br />The Health Division has issued health for in fish for the <br /> Oregon <br /> advisory <br /> a <br /> mercury <br />Willamette River. <br /> <br />Ambient water quality monitoring of the Willamette River at four stations above, within, <br />and below the Eugene-Springfield urban growth boundary suggests mg2Jmal mercury <br />discharges from urban stormwater runoff and permitted point-source discharges. The <br />average total mercury concentration upstream of the urban growth boundary is <br />0.00217/zg/L, while the average downstream of the urban growth boundary is <br />0.00232 gg/L. Effluent from the Eugene-Springfield wastewater treatment plant averages <br />0.00553 gg/L of mercury. These values are lower than the state chronic criteria standard of <br />0.012 #g/L. Flow-weighted averages for those days on which samples were collected are <br /> 60 grams per day (g/day) of mercury in the Willamette River, and 0.71 g/day of mercttry in <br /> effluent from the treatment plant. The City of Eugene reported no statistically significant <br /> difference between mercury concentrations detected upgradient and downgradient of the <br /> urban growth boundary. <br /> <br /> An evaluation of the long-term concentration trends for metals by the City of Eugene found <br /> that arsenic was decreasing over time. This was the only analyte demonstrating a <br /> statistically significant trend. Arsenic, a metalloid, is included in this discussion because it is <br /> toxic to aquatic organisms. Its chronic criterion is 48 #g/L and it is hardness- dependent. <br /> The decreasing trend is significant at I percent; that is, there is a 1 percent probability that <br /> the observed trend is caused by random sample variability. The cause for the decreasing <br /> trend is unknown, although changes in land use or practices within the drainage basin <br /> could lead to this phenomenon. <br /> <br /> MWMC_20_REV23 DOC 2-2~ <br /> <br /> <br />