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1 <br />1 <br />1 <br />Background <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br />1 <br /> <br />1 <br /> <br />CONCEPTUAL MANAGEMENT PLAN <br />FOR HABITAT ENHANCEMENT IN <br />FLOODED BOTTOMLANDS <br />GRAVEL PIT AT 29-5/8 ROAD <br />COLORADO RIVER NEAR <br />GRAND JUNCTION, COLORADO <br />INTRODUCTION <br />Historically, upper Colorado River basin floodplains were inundated <br />annually by flows during spring runoff, but today floodplains are not regularly <br />connected to the river because of channelization by either levees and dikes or <br />rip-rap near population centers and in agricultural areas. Introduced salt cedar <br />or tamarisk (Tamarix spp.) has become established along the shoreline of major <br />rivers resulting in sediment deposition and stabilized banks that further reduce <br />the connectivity of the river with historic flooded bottomlands (Graf 1978). The <br />periodicity of out-of-channel flooding in the upper Colorado River has <br />dramatically decreased following the onset of transmountain water diversions, <br />irrigation diversions, and the construction of mainstem dams (Osmundson and <br />Kaeding 1991). The construction of dikes coupled with the reduction of high <br />spring flows has altered the natural hydrograph and either reduced or eliminated <br />regular flooding of bottomlands. It is believed that flooded bottomlands may <br />have served as nursery areas for the razorback sucker, Xyrauchen texanus (McAda <br />1977; Osmundson and Kaeding 1991). In addition, Osmundson and Kaeding suggested <br />that oxbow lakes and flooded pastures in the Grand Valley near Grand Junction, <br />Colorado, were historically the primary spawning habitats of the razorback <br />sucker. They also suggested that low velocity, off-channel habitats were used <br />by adult Colorado squawfish (Ptychocheilus lucius) during high streamflows. <br />Numerous studies (Grawboski and Hiebert 1989; Tyus and Karp 1989; Wydoski <br />and Wick 1994) have suggested the importance of seasonal flooding to river <br />productivity. Other studies have suggested that flooded bottomlands were <br />important to adult razorback sucker for feeding prior to and after spawning and <br />also important for rearing of their young (Tyus and Karp 1989). Adult fish may <br />have used these off-channel habitats for "velocity shelters" to escape the high <br />water velocities from the spring runoff. <br />The turbid rivers in the upper basin are not very productive for <br />zooplankton that are essential for survival during the early life stages of the <br />razorback sucker. When compared to the riverine environment and river <br />backwaters, inundated bottomlands produce the highest densities of zooplankton <br />(Grabowski and Hiebert 1989; Mabey and Shiozawa 1993). Although predation has <br />been documented to be a limiting factor in survival of larval razorback sucker <br />in the lower basin (Minckley et al. 1991), starvation may also limit survival <br />(Marsh and Langhorst 1988; Papoulias and Minckley 1990). It is hypothesized that <br />the loss of these productive flooded bottomland habitats appears to be limiting <br />the recruitment of the razorback sucker in the upper Colorado River basin because <br />