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Distribution, habitat use, and growth of juvenile Chinook salmon in the Metolius River Basin, Oregon

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Title Distribution, habitat use, and growth of juvenile Chinook salmon in the Metolius River Basin, Oregon
Names Lovtang, Jens C. (creator)
Li, Hiram W. (advisor)
Date Issued 2005-03-17 (iso8601)
Note Graduation date: 2005
Abstract Chinook salmon (Oncorhynchus tshawytscha) have been absent from their
historic spawning and rearing grounds in the Metolius River Basin in central Oregon
since 1968, when fish passage was terminated at the Pelton Round Butte Hydroelectric
Project on the Deschutes River. Plans have been developed to reestablish passage of
anadromous fish through the Project. However, only anecdotal evidence exists on the
historic distribution of spring Chinook juveniles in the Basin. A recent approach to
characterizing habitat quality for anadromous fishes in the Basin was the development of
HabRate (Burke et al. In Press), which presented a relative quality rating of habitat based
upon published fish-habitat relationships at the stream reach spatial scale. The present
study was initiated to test the predictions of HabRate for summer rearing juvenile
Chinook salmon in the Metolius Basin. Chinook salmon fry were released in the winters
of 2002 and 2003, and their densities and sizes were quantified via snorkeling and fish
collection in six unique study reaches in the upper Metolius River Basin. Each of these
stream reaches varied in terms of temperature, habitat availability, invertebrate drift
availability, and fish community composition.
My observations were not consistent with the qualitative predictions of HabRate.
Moreover, habitat utilization was not consistent among study reaches. Similar to other
qualitative habitat rating models (e.g. Habitat Suitability Indices (Raleigh et al. 1986) and
Instream Flow Incremental Methodology (Bovee 1982)), HabRate's predictions rely
solely on physical habitat characteristics, with the assumption that habitat will be used
consistently among stream reaches (i.e. a pool in one reach is of equal importance as a
pool in another reach). My results suggest that the unique ecological setting of each
study reach provides the context for understanding the patterns of growth, habitat use,
and diurnal activity of juvenile Chinook salmon. The inclusion of ecological components,
such as food availability, the bioenergetic constraints of temperature, and the risk of
predation can make these models more biologically realistic.
Growth of juvenile Chinook salmon among study reaches had a curvilinear
relationship to water temperature, and was also positively related to the drift density of
invertebrate biomass. In three collection seasons (fall 2002, spring 2003 and fall 2003)
41 to 69% of the variations in fork lengths were explained by a multiple regression model
including temperature and invertebrate drift. Based on these findings, I present a
conceptual growth capacity model based on the tenets of bioenergetics as a basis for
understanding the relative quality of the habitat among stream reaches for juvenile
Chinook salmon.
Fish community composition can help to explain observed patterns in habitat
utilization and diel activity patterns. In the study reaches that had a greater presence of
adult trout (potential predators), observations of juvenile Chinook salmon in mid-channel
habitat were infrequent to non-existent during the day and abundances were higher in all habitat types at night. In the study reaches with colder water temperatures, observed
juvenile Chinook salmon densities were higher at night. I suggest that habitat selection
and diurnal activity patterns in some study reaches are reflective of strategies taken by the
fish to minimize risks of predation.
Genre Thesis/Dissertation
Topic Chinook salmon -- Oregon -- Metolius River -- Growth
Identifier http://hdl.handle.net/1957/19979

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