Laserfiche WebLink
I <br />fish in some years. An end product of that study was to produce a process to coordinate <br />operations of participating reservoirs on an annual basis to achieve this peak flow <br />enhancement. <br />In a combined effort to contribute to the recovery program, a Coordinated Reservoir <br />Operations team, which included the Division of Water Resources as well as major <br />reservoir owners/operators and other water management entities, was formed to develop <br />a program to enhance peak river flows. Coordinated reservoir releases were made from <br />Ruedi, Williams Fork, Green Mountain, and Wolford Mountain Reservoirs this year <br />beginning on May 30th and continuing through June 5th. The chart on the next page <br />shows graphically the effect of these combined reservoir releases on the flows of the <br />Colorado River at the Cameo gage. The goal was to increase the spring flows as much <br />as possible without exceeding the National Weather Service flood level of 26,600 cfs, and <br />this goal was successfully accomplished. The US Fish and Wildlife Service and the <br />Division S Engineer were charged with the responsibility to determine when it was <br />appropriate to begin and end the releases, determine the amount of the releases, and to <br />notify participants accordingly. The Division 5 Engineer was required to conduct an <br />accounting of releases and provide a record of releases during the specified time period. <br />Coordinated Reservoir Operations are expected to continue annually until the <br />endangered fish are fully recovered. " <br />VIII. Fish & Wildlife Service Monitoring <br />Recent biological and geomorphology studies have documented changes in physical processes and native <br />fish populations related to the modification of the natural snowmelt hydrograph due to the construction of <br />reservoirs upstream of the Colorado-Utah State line. These changes have reduced the ability of the <br />Colorado River to move sediment and rework the river channel (Pitlick 1999). It is generally accepted <br />that these reservoirs have altered stream flows of the Colorado River and have caused changes in the <br />amount, diversity and quantity of habitat used by the endangered Colorado River fish. <br />In compliance with the Recovery Program RIPRAP, monitoring of embeddedness of gravel and cobble <br />substrates in the upper Colorado River was initiated. Twelve measurements were taken at each of 15 sites <br />(eight in the 15-mile reach, seven in the 18-mile reach - which is the stretch of the Colorado River, 18 <br />miles downstream from the Gunnison River) on seven dates in 1996 (three during runoff; four during <br />baseflow) and five dates in 1997 (three during runoff, two during baseflow). Rock sizes were generally <br />larger lower in the channel at base flow elevations than higher in the channel margin inundated during <br />runoff. <br />r Additionally, average rock size was slightly larger in the 18-mile reach than in the 15-mile reach but only <br />at base flow locations. Spring runoff flows in both the 15- and 18-mile reaches were sufficient in both <br />years to mobilize the bed in many areas. In addition, runoff flows during 1995 (prior to sampling) <br />produced widespread mobilization of the bed. Average rock sizes changed significantly between 1996 and <br />1997 at several of the sampling sites. Mean depth to embeddedness (distance from the top of rocks in the <br />surface layer down to the point where rocks are embedded in fine sediment) ranged from 80 to 171 mm; <br />the adjusted mean of the samples was 125 mm in 1996 and 123 mm in 1997. The mean number `free <br />rocks' (those making up the layer above the level of embeddedness) ranged from 1.1 to 4.3; the adjusted <br />i mean was 1.9 rocks in both years. <br />Riffles had slightly greater depths to embeddedness than did runs. For other comparisons, depths to <br />embeddedness were found to be similar between 15- and 18- mile reaches, between 1996 and 1997, and <br />14