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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Evaluation of dietary carbohydrate utilization by captive sablefish (Anoplopoma fimbria)

Walsh, Mark Gordon January 1991 (has links)
Carbohydrates have variable digestibilities and metabolizable energy values in carnivorous fish. Simple sugars are generally more digestible than complex polysaccharides, and low levels of dietary carbohydrate may contribute more metabolizable energy than high levels. Two experiments were conducted to study the effects of dietary level and processing treatment of wheat starch on the digestibility of diets fed to sablefish (Anoplopoma fimbria), in different regions of the digestive tract. Moreover, an experiment was undertaken to determine if the dietary concentration of an indigestible external marker (chromic oxide) influenced its motility, relative to other ingredients in the ingesta, as it passed through the digestive tract. Lastly, a growth experiment was undertaken to compare the performance of sablefish fed formulated diets containing one of two levels of carbohydrate to that of fish fed a natural fish diet. The gastric evacuation of a formulated and a natural diet were also investigated. Apparent digestibility values for the nutrients in a formulated diet (containing 44.4% cooked wheat and 0.1% chromic oxide) fed to sablefish were noted to increase progressively from the anterior to the posterior regions of the intestinal tract. Within each region of the gut, the apparent digestibility values for most nutrients declined over three sample periods. Carbohydrate (nitrogen-free extract) digestibility down to the distal section of the intestine ranged from 51.0 to 82.8%. An experiment designed to assess the effect of carbohydrate treatment on the digestibility of four isonitrogenous, isocaloric diets met with partial failure. It was determined that the 1.0% chromic oxide marker flowed at a differential rate to the rest of the ingesta in the digestive tract, which violated the criteria for an effective marker. Consequently, diet digestibility was not determined in this experiment. Hepatic glycogen levels in fish receiving the dietary treatments were compared, and these values were used to estimate the relative availability (digestibility) of carbohydrate from the respective diets. According to this index, the sequence for digestibility was as follows: pregelatinized starch > cooked wheat > pregelatinized starch/cooked wheat > unprocessed wheat. Differential movement of chromic oxide relative to other ingesta was observed in sablefish fed on alternate days regardless of the dietary concentration of the indigestible marker (0.1 or 1.0%). It was surmised that the feeding protocol established the circumstances from which marker 'streaming' was observed in the results. Differential transport of Cr₂O₃ through the gut by ingested seawater was suggested as a possible mechanism for the phenomenon. Sablefish fed a natural fish diet had the highest growth rates, condition factors, liver lipid levels and the lowest feed conversion ratios and liver glycogen levels. Sablefish fed a diet containing 22.2% cooked wheat had a higher growth rate, condition factor, and a lower food conversion ratio, than those fed a diet containing 44.4% cooked wheat. Ingestion of the 44.4% cooked wheat diet resulted in the highest values for liver glycogen and hepatosomatic index. It was concluded that sablefish have a limited ability to metabolically utilize digestible carbohydrate and that most of the dietary non-protein energy should originate from high quality lipid for maximum protein sparing. / Science, Faculty of / Resources, Environment and Sustainability (IRES), Institute for / Graduate
2

A comparison of the effects of carbohydrate and fat as energy sources in trout and chick diets on tissue glycogen concentration and on the rate of glycogen depletion from the tissues during a subsequent period of fast

Hickling, David Robert January 1981 (has links)
Rainbow trout, about one-year-old, were fed diets containing either glucose (C) or herring oil (F) as the non-protein energy source for a period of two weeks. As well, they were fed each diet at satiation (C-2, F-2) and at levels half that (C-l, F-l). The trout were subsequently fasted and sampled for tissue glycogen, protein, dry matter and glucose-6-phosphatase activity at full feeding and at 2, 4, 8, 10, 13 and 16 days of fasting. The livers of the C-fed fish had 12% wet weight glycogen and the livers of the F-fed fish had 3% wet weight glycogen at full feeding. Upon fasting, glycogen concentrations in the F-fed fish livers fell to basal levels of 1% by 2 days while glycogen concentrations in the C-fed fish livers fell to basal levels only after 10 days. The protein concentration in the trout livers was inversely related to the glycogen concentration. The amount of liver protein in the trout carcass, however, was directly related to dietary carbohydrate levels. Trout liver glucose-6-phosphatase activity increased as fasting progressed but there were no treatment differences in enzyme activity. The muscle of the C-2 fed trout contained .4% glycogen at full feeding. The muscle of the other dietary treatments contained .1-.15% glycogen. It appears that trout muscle stored dietary carbohydrate that was not taken up by the liver or that was not oxidized. Upon fasting there was a depletion in muscle glycogen to basal levels of .05% after 4 days. Thereafter there occurred a rebound in muscle glycogen to levels at or greater than full-fed levels followed by a decline back to basal values. The rebound was greater and peaked earlier (8 days) in the C-fed trout than in the F-fed trout (10 days). Broiler (BR) and White Leghorn (WL) pullet chicks were fed diets, where 25% of the energy was supplied as corn starch (C) or corn oil (F), for a three-week period. The chicks were then fasted and sampled for tissue glycogen, protein and dry matter at full feeding and at 8, 16, 24, 32, 44, 56, 80, 104 and 128 hours of fasting. The BR livers contained more glycogen (3%) than the WL livers (2%) and the C-fed chicks had greater liver glycogen concentrations (3%) than the F-fed chicks (2%) at full feeding. Upon fasting, liver glycogen fell to basal levels of .03% after 8 hours. Thereafter there was a rebound increase in liver glycogen levels to a peak of 1% and a subsequent tapering off. The rebound occurred earlier in the C-fed chicks than in the F-fed chicks. The peak was attained earlier in the WL (32-44 hours) than in the BR (50 hours). The amount of liver protein in the C-fed chicks was higher than that in the F-fed chicks over the entire fasting period. Chick muscle glycogen concentrations were initially higher in the C-fed than in the F-fed chicks and higher in BR (1.2%) than in WL (.8%). Upon fasting, BR muscle glycogen concentrations were maintained while those of WL fell to .3%. There were erratic fluctuations in muscle glycogen levels. / Land and Food Systems, Faculty of / Graduate

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