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| Author | : Eric J. Gonzales |
| Publisher | : |
| Total Pages | : 132 |
| Release | : 2006 |
| Genre | : Coho salmon |
| ISBN | : |
| Author | : Heather Anne Pert |
| Publisher | : |
| Total Pages | : 164 |
| Release | : 1993 |
| Genre | : Pudding Creek (Calif.). |
| ISBN | : |
| Author | : Anthony O. Olegario |
| Publisher | : |
| Total Pages | : 114 |
| Release | : 2007 |
| Genre | : Coho salmon |
| ISBN | : |
Over-winter growth of juvenile salmonids may be linked to ocean survival and thus species persistence. Diet, growth, and prey available to juvenile coho, Oncorhynchus kisutch, were examined from December 2004 to April 2005 in four tributaries of the West Fork Smith River (WFSR), Oregon. Juvenile coho growth rate and condition were greatest in spring. Growth rate varied through winter and was highest in Crane Creek, a small intermittent stream (4.3km2 basin area) and lowest in Beaver Creek (7.5 km2), a perennial stream. Prey availability and growth rate decreased in January and February as temperatures dropped, however stomach fullness was highly variable and not correlated to growth rate. The stomach contents of 477 juvenile coho (age-0), were quantitatively examined using an index of relative importance. Juvenile coho fed primarily on benthic invertebrates; rarely consumed non-insectan food included coho fry, salmon eggs, aquatic snails (Juga silicula), salamanders (Dicamptodon tenebrosus), and terrestrial invertebrates. The major portions of their diets, in order of relative importance, were aquatic chironomid larvae (Diptera), baetid mayfly larvae (Ephemeroptera), limnephilid caddisfly larvae (Trichoptera), and winter stonefly larvae (primarily Capniid Stonefly). Similarities in Relatively Important prey distinguished the two intermittent streams from the two perennial streams. In the WFSR tributaries, juvenile coho appear to rely on a variety of food sources to sustain growth and condition during winter. Small intermittent headwater streams may be disproportionately more important to stream fish with greater availability of prey than larger perennial streams highlighting the need to conserve and restore these habitats.
| Author | : Benjamin O. Ransom |
| Publisher | : |
| Total Pages | : 144 |
| Release | : 2007 |
| Genre | : Coho salmon |
| ISBN | : |
| Author | : Larry B. Everson |
| Publisher | : |
| Total Pages | : 136 |
| Release | : 1973 |
| Genre | : Coho salmon |
| ISBN | : |
The growth and food consumption of juvenile coho salmon [Oncorhynchus kisutch (Walbaum)] exposed to natural and elevated fluctuating temperatures were studied in the laboratory with wild fish collected from a salmonid rearing stream. Control temperatures were similar to the temperature regime of a natural stream and the elevated temperatures were increased incrementally 3-4 C and 7-8 C. Short-term, 30-day experiments were conducted during five different seasonal periods in 1969 and 1970. Concurrent long-term studies were carried out during the entire experimental period. Relationships between rates of food consumption, growth and food assimilation of the fish were determined for the different experimental temperature conditions during the short-term experiments. Relationships between maintenance ration and temperature were derived from curves relating rates of food consumption and growth. The efficiency of food assimilation was determined from measurements of the quantities of the food consumed and the amounts of fecal wastes produced. Caloric measurements were obtained from oxygen bomb calorimetry of the fish and food consumed, and from wet combustion of the fecal wastes collected during short intervals within each experiment. Bioenergetic measurements were used to estimate the major fates of the energy of food consumed under the different temperature conditions during a period of fluctuating high summer temperatures. Long-term studies were conducted over eight-month and four-month periods under temperature conditions similar to those of the short-term experiments. Growth rates of the juvenile coho salmon were obtained from measurement of changes in their wet weight during 15-day intervals. The growth rates of salmon at equivalent ration levels were compared between the short- and long-term experiments. Growth rates of juvenile coho salmon kept as controls were generally greater than those of fish exposed to elevated temperatures for each of the five short-term experiments. Increases of ration size generally ameliorated the effects of elevated temperatures on the salmon growth rates. Comparisons of the caloric values of coho salmon recorded for a natural rearing stream with those of experimentally fed fish suggest that wild fish subsist on a restricted ration. Results of the long-term studies showed that salmon exposed to naturally fluctuating temperatures in the laboratory and fed restricted rations reached sizes typical of downstream smolts in Oregon coastal streams, whereas the fish exposed to incremental temperature increases of 3-4 C and 7-8 C were respectively 25 and 47 percent smaller than the control fish. Comparison of results of studies based upon naturally fluctuating temperatures with those of other workers based upon constant temperatures indicates that at average temperatures above 20 C the fluctuation of temperature is favorable for coho salmon growth. The results of the study suggest that temperature criteria for juvenile coho salmon derived from measurements based upon constant temperatures may not be satisfactory for protecting the fish during the extended period of their freshwater existence. Measurements of the growth of the young salmon during long-term experiments indicated that any substantial increases of temperature would result in a reduction in the size of smolts. Significant reductions of juvenile salmon growth resulting from elevated stream temperatures could influence the production of salmon populations through decreased marine survival. Long-term studies of the fish as well as other components of stream communities influenced by elevated temperatures are necessary for establishing meaningful temperature criteria.
| Author | : Kailan F. Mackereth |
| Publisher | : |
| Total Pages | : 44 |
| Release | : 2016 |
| Genre | : Coho salmon |
| ISBN | : |
Loss of lowland estuarine and freshwater off-channel habitats along the Pacific Northwest coast has contributed to the decline of salmonid populations. These habitats serve as nursery grounds for juvenile salmonids providing them with food, winter shelter, and a transition zone between freshwater and saltwater. Lowland areas have undergone anthropogenic alterations (e.g., installation of tide gates, construction of dikes, channelization) to increase the net area of land suitable for agriculture and development resulting in watershed fragmentation and reduction in the amount of habitats with high intrinsic potential to support populations of juvenile salmonids. Until recent years, sub-yearling coho salmon found in lowland riverine habitats and estuarine marshes were assumed to have been displaced from optimal upland reaches by competition and high water discharge. Recent studies have concluded that early estuarine migrant behavior is volitional and these fish return as 20-40% of the spawning population, but there are few studies that delve into the capacity of estuarine habitat to support early estuarine life history strategies in systems heavily altered by human practices. This study documented differences in diet and condition factor (K) between sub-yearling and yearling coho salmon foraging concurrently in brackish or freshwater lowland habitat of the upper estuarine intertidal zone. Fish stomach contents were sampled by means of gastric lavage in three coastal lowland creeks in Coos Bay on the southern Oregon coast. Prey found in the samples were sorted, counted, identified, and dried to obtain dry weight biomass. Condition factor (K) and total dry weight prey biomass of fishes were not different between brackish and freshwater habitat; however, non-metric multidimensional scaling indicated that prey composition was substantially different between habitat and age class. These findings suggest that early migrating sub-yearlings and yearling smolts diverge in their diets whether they occupy the same or different habitats in the stream to estuary transition zone. Insects were important prey within the diets of yearling and sub-yearling freshwater foragers and sub-yearling brackish water foragers while crustaceans were important in the diets of yearling brackish water foragers. Future research exploring prey abundance and availability in relation to prey selected by juvenile coho salmon would denote habitat foraging quality and habitat exploitation by early estuarine migrants. Expanding this research to contrast natural intertidal habitats with those regulated by tide gates would be beneficial towards understanding the impact different styles of tide gates have on biotic communities and hydrological attributes (e.g., flow, chemistry, temperature, tidal exchange). Identification of factors that influence habitat selection in the stream-estuary ecotone by alternative early life history strategies of juvenile coho salmon is essential towards enhancing genetic diversity thereby strengthening the resiliency of the population.
| Author | : Marisa Norma Chantal Litz |
| Publisher | : |
| Total Pages | : 203 |
| Release | : 2017 |
| Genre | : Chinook salmon |
| ISBN | : |
The early marine phase following freshwater emigration has been identified as a critical period in salmonid (Oncorhynchus spp.) life history, characterized by high but variable mortality. Consistent with the “growth-mortality” and “bigger-is-better” hypotheses, at least some of the mortality during the critical period appears to be size-dependent – with smaller or slower growing individuals less likely to survive than larger, faster growing conspecifics. Size and growth are flexible morphological traits that vary with prey availability, yet there is incomplete information on the temporal and spatial match/mismatch between juvenile salmonids and their marine prey in the Northern California Current Ecosystem. This work addressed a gap in the understanding of seasonal variability in prey community composition, abundance, and quality during early marine residence. Three studies were conducted using a population of subyearling (age-0) Chinook salmon (O. tshawytscha) from the upper Columbia River in order to evaluate the effects of prey on salmon growth, biochemistry, and performance. The first was a laboratory study that tested for growth rate and swimming speed differences in salmon reared on three treatment diets followed by three fasting treatments to assess the effects of variability in summer diet quality and winter diet quantity. Significant differences in growth were detected among fasting treatments but not diet treatments. Also, larger salmon with more storage lipids swam faster than smaller leaner fish following fasting, indirectly supporting the notion that growth during the critical period provides a carryover benefit important for overwinter survival. Salmon fatty acids and bulk stable isotopes of carbon and nitrogen were measured throughout the experiment to provide estimates of turnover and incorporation rates. The next study was a longitudinal field study that measured variation in salmon size and prey field community throughout the early ocean period (May – September) over two years of high marine survival (2011 and 2012) to better understand the relationship between prey community composition and salmon growth. Maximum growth rates were associated with high biomass of northern anchovy (Engraulis mordax) which peaked in abundance at different times in each year. The final bioenergetics modeling study combined data from the laboratory and field studies to evaluate the relative importance of prey availability, prey energy density, and temperature on salmon growth. Variation in feeding rate was related most with growth rate variability and least with prey energy density. Throughout their range, subyearlings can grow at high rates in the ocean (>2% body weight per day) by consuming both invertebrate and marine fish prey. However, when marine fish prey are highly abundant they likely provide an energetic advantage over invertebrate prey by reducing overall foraging costs. Quantifying the abundance, size, diet, and distribution of juvenile salmonids relative to their prey field throughout early ocean residence will contribute to a better understanding of seasonal differences in trophic interactions that are associated with differences in annual growth and survival rates. Moreover, an integrated approach that combines sampling of prey with measurements of predator growth, diet, fatty acids, and stable isotopes provides a useful framework for assessing trophic dynamics and evaluating the effects of climate variability and change on predator and prey communities.
| Author | : Wendall Scott Willey |
| Publisher | : |
| Total Pages | : 164 |
| Release | : 2004 |
| Genre | : Coho salmon |
| ISBN | : |
| Author | : Terry R. Culp |
| Publisher | : |
| Total Pages | : 166 |
| Release | : 1972 |
| Genre | : Coho salmon |
| ISBN | : |
| Author | : Michael P. Limm |
| Publisher | : |
| Total Pages | : 70 |
| Release | : 2004 |
| Genre | : Chinook salmon |
| ISBN | : |
