Elevated Temperature and the Production of Juvenile Chinook Salmon (Oncorhynchus Tshawytscha) in a Model Stream PDF Download
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Author: Peter Andre Bisson
Publisher:
ISBN:
Category : Chinook salmon
Languages : en
Pages : 160
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Book Description
Temperature was elevated approximately 4° C in a model stream relative to an unheated, but otherwise similar control stream. The streams were located outdoors, received identical amounts of exchange water from a nearby creek, and followed natural diurnal and seasonal temperature cycles Juvenile spring chinook salmon (Oncorhynchus tshawytscha) were introduced into each stream and allowed to remain about 1 year until the following winter. Their production was measured tri-weekly and related to changes in temperature, food availability, and other environmental factors. Ancillary experiments utilizing water from the model streams measured changes in pre-feeding survival and weight and differences in growth efficiencies at various rations. Two year-classes of juvenile salmon were studied. Chinook production in the unheated control stream exceeded that in the heated stream. In 1972 total production was twofold greater and in 1973 it was about 30 percent higher. Elevated temperature lowered productivity of the heated stream by causing increased mortality of eggs and fry and reduced growth efficiencies of juveniles as food became less abundant. It also resulted in lower biomasses of food organisms, either because the experimental elevation directly affected survival and growth of benthic invertebrates or because increased siltation associated with heavier growths of filamentous algae made riffle substrate less suitable for immature stages of certain insects. Beneficial effects of increased temperature included protection from infection by a trematode parasite (Nanophyetus salmincola) and, possibly, increased tendencies of some invertebrates to enter the drift.
Author: Peter Andre Bisson
Publisher:
ISBN:
Category : Chinook salmon
Languages : en
Pages : 160
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Book Description
Temperature was elevated approximately 4° C in a model stream relative to an unheated, but otherwise similar control stream. The streams were located outdoors, received identical amounts of exchange water from a nearby creek, and followed natural diurnal and seasonal temperature cycles Juvenile spring chinook salmon (Oncorhynchus tshawytscha) were introduced into each stream and allowed to remain about 1 year until the following winter. Their production was measured tri-weekly and related to changes in temperature, food availability, and other environmental factors. Ancillary experiments utilizing water from the model streams measured changes in pre-feeding survival and weight and differences in growth efficiencies at various rations. Two year-classes of juvenile salmon were studied. Chinook production in the unheated control stream exceeded that in the heated stream. In 1972 total production was twofold greater and in 1973 it was about 30 percent higher. Elevated temperature lowered productivity of the heated stream by causing increased mortality of eggs and fry and reduced growth efficiencies of juveniles as food became less abundant. It also resulted in lower biomasses of food organisms, either because the experimental elevation directly affected survival and growth of benthic invertebrates or because increased siltation associated with heavier growths of filamentous algae made riffle substrate less suitable for immature stages of certain insects. Beneficial effects of increased temperature included protection from infection by a trematode parasite (Nanophyetus salmincola) and, possibly, increased tendencies of some invertebrates to enter the drift.
Author:
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ISBN:
Category : Fisheries
Languages : en
Pages : 216
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Author:
Publisher:
ISBN:
Category : Fish culture
Languages : en
Pages : 776
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Author: Keith Richard Marine
Publisher:
ISBN:
Category :
Languages : en
Pages : 170
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Author: Laura Nicole Martini Harrahy
Publisher:
ISBN:
Category : Chinook salmon
Languages : en
Pages : 178
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Stress, including extreme or rapidly changing temperatures, are known to have deleterious effects on fish health and physiology. This thesis examines the combined effects of elevated acclimation temperature and acute handling stress on the number of antibody producing cells, plasma lysozyme concentrations, and the number of pronephric leukocytes in juvenile chinook salmon (Oncorhynchus tshawytscha). An additional goal of this thesis was to explore the effects of a temperature fluctuation, as a potential instigator of thermal shock, on innate immunity in wild fall chinook salmon of the Columbia River, specifically to determine if there are effects on plasma lysozyme concentrations and on the frequencies of lymphocytes, neutrophils, and thrombocytes in circulation. Finally, based on results found in an experiment involving elevated acclimation temperature, the relationship between the number of antibody producing cells and fish body weight was examined. Plasma lysozyme concentrations and the number of pronephric leukocytes were both affected by acclimation to 21°C compared to 13°C. While a positive relationship was found between temperature and lysozyme, an inverse relationship was found between temperature and the number of pronephric leukocytes. Plasma lysozyme concentrations, the number of pronephric leukocytes, and the number of antibody producing cells did not respond to the stressor, and the combination of elevated temperature and stress did not have an additive effect on any of the physiological or immunological variables studied. Differences between controls and temperature-treated fish were not detected among individual time points throughout a temperature fluctuation experiment, despite overall responses in plasma lysozyme concentrations and the frequencies of circulating lymphocytes. The frequencies of circulating neutrophils and thrombocytes did not respond to the thermal stressor. Finally, a significant positive relationship was detected between the number of antibody producing cells (assessed by a hemolytic plaque assay) and body weight among non-stressed fish acclimated to 21°C and 13°C. Regardless of acclimation temperature, these results emphasize the importance of the standardization of fish size for immunological experiments. Results from this thesis suggest that some components of innate immunity are affected by elevated acclimation temperatures and that the adaptive immune system is affected by acclimation temperature differently in small and large fish.
Author: Terry A. Jackson
Publisher:
ISBN:
Category : Chinook salmon
Languages : en
Pages : 244
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Habitats for juvenile chinook salmon (Oncorhynchus tshawytscha) were observed at a high flow during the spring of 1989 and at a low flow during the spring of 1991 in the lower American River of California. Parameters of microhabitats in eight macrohabitats were measured. Mean column water velocity and total water depth variables were used to statistically compare juvenile chinook salmon microhabitat distributions between and among macrohabitat type/reach and flow combinations. Using mean column water velocity and total water depth as independent variables, each macrohabitat type/reach appeared to be unique. Mean column water velocity seemed to be a better descriptor of juvenile chinook salmon habitat selection than was total water depth. Riffles appeared to be the preferred macrohabitats for large non-schooling chinook salmon at both flow levels. Root wads, woody debris, and submerged terrestrial vegetation were utilized extensively and provided a significant cover for schooling chinook salmon during the high flow period. Habitat utilization by chinook salmon appears to be influenced by nonhydraulic variables. Application of models in current instream flow studies need to include factors such as water temperature and aquatic insect production.
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Category : Hydrology
Languages : en
Pages : 962
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Author: Jon Joseph Lauer
Publisher:
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Category : Salmon
Languages : en
Pages : 148
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Author: John M. Plumb
Publisher:
ISBN:
Category : Chinook salmon
Languages : en
Pages : 43
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Author: Jens C. Lovtang
Publisher:
ISBN:
Category : Chinook salmon
Languages : en
Pages : 210
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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.
