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<br />Final Report <br /> <br />3-27 <br /> <br />September 2000 <br /> <br />Green and Duchesne Rivers. Like the Yampa River, the White River is not significantly regulated. <br />However, the yield of the White River basin is only about one third that of the Yampa River. <br /> <br />Both the Price and San Rafael Rivers originate in the Wasatch Plateau in the central part <br />of Utah. Each river flows southeast to join the Green River near Green River, Utah. Although these <br />two rivers are the largest tributaries in the 393-km area downstream of Ouray, Utah, their combined <br />contribution is only 4% to the entire flow of the Green River. <br /> <br />Scofield Reservoir in the Price River basin and Joe's Valley Reservoir in the San Rafael <br />River basin regulate the flows of these two rivers. Peak flows (Table 3.9) generally occur in late <br />summer, either as a result of runoff from intense summer thunderstorms or releases from upstream <br />storage. <br /> <br />3.4.5 Stage-Flow Relationships and the Effect of Hydropower Operations on Daily <br />Fluctuations <br /> <br />Water-surface elevation (stage) is dependent on flow, but the nature of that relationship <br />varies along the river and is strongly influenced by channel morphology. Stage-flow relationships <br />at the Greendale, Jensen, and Green River gages are presented in Figure 3.13. This figure illustrates <br />the differences in the relationship at these different locations and the asymptotic nature of each <br />relationship; i.e., as flow increases, the relative incremental increase in stage lessens. Differences in <br />channel width and floodplain characteristics at each location are reflected in the shape of the curves <br />depicted in Figure 3.13. The river is considerably wider at the Jensen and Green River gages than <br />at Greendale; consequently, as flow increases at Jensen and Green River, the rate of stage change <br />is less than the rate at Greendale. <br /> <br />Variations in channel morphology along the river and tributary inputs serve to dampen flow <br />and stage fluctuations that result from hydropower operations at Flaming Gorge Dam. The degree <br />of attenuation of operations-induced fluctuations also depends on specific release parameters, <br />including the ramp rate (the rate of change from minimum and maximum flow expressed as m3/s/h), <br />minimum and maximum flow levels, and duration of peak releases. This dampening or attenuation <br />becomes greater at increasing distances from the dam until operations-induced fluctuations are no <br />longer detectable. <br /> <br />Operations-induced fluctuations in flow and stage are thought to be important to endangered <br />fishes because changes in these parameters can result in changes in the availability and quality of <br />low-velocity habitats (Hlohowskyj and Hayse 1995). Fluctuations have obvious adverse effects if <br />they are of sufficient magnitude and frequency to empty and fill important habitats on a daily basis. <br />Adverse effects at lower fluctuation levels could result if fluctuations significantly reduced water <br />temperatures and productivity within the habitat or caused fish to expend excess energy during <br />winter. These effects are discussed further in Chapter 4. <br />