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<br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br />I <br /> <br />fish's environment. Chronological information from otoliths coupled with analysis of <br />otolith chemical makeup enables identification of chemically distinct environments <br />occupied over the litetime of a fish. Spatial distributions of selenium concentrations and <br />naturally-occurring stable isotope signatures of carbon, nitrogen, hydrogen, and strontium <br />within the Colorado River and adjacent tloodplain ponds, tributaries, and irrigation <br />ditches indicate that these elements have good potential to serve as natural markers of <br />non-native fish origins and movements. <br /> <br />Predator Removal and Control in the Colorado River Mainstem: What have we <br />learned? <br /> <br />Mueller, Gordon <br /> <br />USGS, Denver, CO <br /> <br />Predator removal programs have gained popularity, especially in the Colorado River <br />Basin. Non-native fish control features have benefited the recovery of several native <br />salmon and spring fish; however, these successes have been limited to headwater streams <br />and small, isolated ponds or springs. Never-the-less, these same approaches are being <br />applied to mainstem species on the belief that removing non-native predators will benefit <br />natives. Unfortunately, after 10 years. the expenditure of >$4 million (USA) and the <br />removal of> 1.5 million fish, we have yet to see any positive response from native <br />communities. This failure is primarily due to the severity of the problem coupled with <br />institutional issues and constraints. Predation is actually getting worst in some areas. <br />This leads to the obvious question; is predator removal or control in the mainstem <br />feasible? If not, recovery for some species may not be practical in the conventional <br />sense. This review examines what's been attempted, what has worked, and what has not <br />in the Colorado River mainstem and provides recommendations. <br /> <br />Suppression of populations and reproduction in a nonnative fish: sensitivity of <br />various life history stages of red shiners to environmental manipulation. <br /> <br />Hilwig, Kara D., Graduate Student, and Dr. W. Linn Montgomery <br /> <br />Department of Biological Sciences, Northern Ari=ona University, Flagstaff, AZ <br /> <br />Nonnative fishes may contribute to declines of native tishes in the southwest United <br />States and elsewhere. Strategies to recover native species often include removal of <br />nonnative species, but complete removal is unrealistic, especially where nonnatives have <br />established reproducing populations. An alternative approach would expose both types <br />of species to conditions that selectively suppress survival or reproductive success of <br />nonnative species. We seek environmentally realistic (e.g.. non-extreme) conditions that <br />suppress survival 0 f early I ire history stages Uggs. larvae) 0 f red shiners (Cyprinidae: <br />(,-,prinella llltrensis). We assess sUf\ival of eggs and laf\"ae subjected to physicochemical <br />variables (temperature and salinity) in Iaboratlwy tests. Data indicate red shiner eggs and <br />II <br />