15 results on '"FISH digestive organs"'
Search Results
2. Size affects digestive responses to increasing temperature in fishes: physiological implications of being small under climate change.
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Di Santo, Valentina and Lobel, Phillip S.
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SYMBIOSIS , *CORAL reef fishes , *CLIMATE change , *EFFECT of temperature on fishes ,FISH digestive organs - Abstract
Digestive metabolism is considered key to resilience of fish populations as it determines energy and nutrient availability for growth and survival. In cleaner fishes, digestion performance also influences the amount and the rate at which parasites can be removed from co-operating fishes, called hosts. Therefore, understanding the effect of temperature on digestive metabolic scope ( i.e. the energy allocated to digestive processes) is crucial to predicting responses of fish communities to ocean warming. Body size can affect many physiologic processes and is thought to decrease with increasing temperature; therefore, we examined the effect of body mass and warming on digestive metabolic scopes in two sister species of cleaner gobies of the genus Elacatinus that reach different adult sizes. The dwarf-size Elacatinus lobeli increased digestive metabolic rates and scope while the larger Elacatinus oceanops decreased digestive metabolic scope with warming. Intra-specifically, larger E. lobeli also showed a decreased scope when compared to smaller individuals. Results from this study suggest that perhaps smaller fishes may have a digestive and metabolic advantage at higher temperatures and may be more resilient under warming temperatures. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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3. A complete chitinolytic system in the atherinopsid pike silverside Chirostoma estor: gene expression and activities.
- Author
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Pohls, P., González‐Dávalos, L., Mora, O., Shimada, A., Varela‐Echavarria, A., Toledo‐Cuevas, E. M., and Martínez‐Palacios, C. A.
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ATHERINOPSIDAE , *GENE expression in fishes , *SILVERSIDES , *CHITINASE , *FISH food , *POLYMERASE chain reaction ,FISH digestive organs - Abstract
The expression and digestive activity of pike silverside Chirostoma estor endogenous chitinases were analysed in samples from four life stages: whole eggs; larvae; juvenile intestine and hepatopancreas and adult intestine and hepatopancreas. A chitinase cDNA was cloned and partially sequenced ( GenBank accession number: FJ785521). It was highly homologous to non-acidic chitinase sequences from other fish species, suggesting that it is a chitotriosidase. Quantitative PCR showed that this chitinase was expressed throughout the life span of C. estor, with maximum expression in the hepatopancreas of juveniles. Chitotriosidase and chitobiosidase activities were found at all life stages, along with a very high level of N-acetyl glucosaminidase ( NAGase). The chitotriosidase activity could be encoded by the cloned complementary (c) DNA, although additional chitinase genes may be present. The chitotriosidase activity appeared to be transcriptionally regulated only at the juvenile stage. The expression and activity of chitinases tended to increase from the early to juvenile stages, suggesting that these variables are stimulated by chitin-rich live food. Nevertheless, the feeding of juvenile and adult fish with both live food and a balanced commercial diet seemed to provoke significant reductions in pancreatic NAGase secretion and/or synthesis in the gut. Moreover, all chitinase activities were lower in adults, probably reflecting a higher intake and use of the balanced diet. The observation of chitotriosidase and chitobiosidase activities together with a very high NAGase activity suggest the presence of a complete and compensatory chitinolytic chitinase system that enables this stomachless short-gut fish species to use chitin as an energy substrate. These novel findings suggest that dietary inclusions of chitin-rich ingredients or by-products might reduce the farming costs of C. estor without impairing performance. [ABSTRACT FROM AUTHOR]
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- 2016
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4. Goblet Cells and Mucus Types in the Digestive Intestine and Respiratory Intestine in Bronze Corydoras (Callichthyidae: Teleostei).
- Author
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Leknes, I. L.
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EXFOLIATIVE cytology , *MUCUS , *FISHES , *CORYDORAS , *HISTOCHEMISTRY , *RESPIRATORY organs ,FISH digestive organs - Abstract
The structure and histochemical properties of the intestine in bronze corydoras ( Corydoras aeneus), a stomach-containing teleost, are described, with emphasis on goblet cells and mucin types. The proximal intestine displayed a normal structure for teleosts, whereas the distal intestine was wide, translucent, thin-walled, richly vascularized and constantly filled with air, suggesting an important respiratory role. Goblet cells were common throughout the entire intestine and displayed a variable, but mainly faint metachromatic colour after toluidine blue. They were moderately coloured by alcian blue at both pH 2.5 and 0.2 and displayed no colour after periodic acid followed by Schiff's solution (PAS), but a distinct purple-brown colour after high iron diamine followed by alcian blue (p H 2.5). Together, these results suggest that the mucin in the intestine goblet cells consists mainly of sulphated proteoglycans. Further, the results from the present lectin and neuraminidase tests suggest that these mucins contain much N-acetylglucoseamines and some N-acetylgalactosamines and sialic acid, but seem to lack glucose and mannose. They also contain some galactose- N-acetylgalactosamines sequences, normally hidden by sialic acid. The distinct brush border and mucus layer on the epithelial cells in the respiratory intestine may indicate some digestive roles, such as absorption of water, ions and simple carbohydrates. As sulphated proteoglycans are tough and attract much water, this mucus may play important roles in the protection against mechanical and chemical damages and in the defence against micro-organisms throughout the entire intestine, but in the respiratory intestine it may impede significantly the oxygen uptake. However, as this part of the intestine usually contains no digesta, but is completely filled with air, frequently renewed by dry air from the atmosphere, and the main function of the mucus may be to protect the respiratory epithelium against a destroying and dangerous desiccation. [ABSTRACT FROM AUTHOR]
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- 2015
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5. Histological and histochemical study of the digestive system of the Argentine anchovy larvae ( Engraulis anchoita) at different developmental stages of their ontogenetic development.
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Cohen, Stefanía, Diaz, Marina V., and Díaz, Alcira O.
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FISH larvae , *HISTOCHEMISTRY , *FISH development , *ONTOGENY , *ENGRAULIS anchoita ,FISH digestive organs - Abstract
In this work, histological and histochemical features of the larval digestive system of Argentine anchovy Engraulis anchoita were described. Structural changes during ontogenetic development were also characterized, and comparisons between the beginning and the end of larval development were made. Histological sections of larvae were subjected to histochemical and routine histological techniques to localize and differentiate glycoproteins ( GPs). Both at an early and a late larval stage, the oesophageal goblet cells reacted more intensely than those of the rest of the digestive tract, and only the oesophagus exhibited metachromasia with toluidine blue techniques at different pHs, thus revealing diverse GPs at different concentrations. The GPs histochemical composition in the intestine varied with the developmental stage and the intestinal zone. The absence of goblet cells characterized the foregut; however, they started differentiation at an advanced stage in the midgut. These cells could be detected in the hindgut both at the beginning and at the end of development. The attached glands showed a varied glycoprotein composition. The digestive tract of E. anchoita presented a high level of complexity, related to the multiple functions of mucus in the digestive tract, such as lubrication, protection, antimicrobial function and ionic and osmotic regulation. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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6. Seagrass feeding choices and digestive strategies of the herbivorous fish Sarpa salpa.
- Author
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Goldenberg, S. U. and Erzini, K.
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SEAGRASS restoration , *HERBIVORES , *FISH feeds , *FISH physiology , *FISH nutrition ,FISH digestive organs - Abstract
This is the first study investigating the plant-herbivore interaction between Sarpa salpa, which has overgrazed seagrass transplants in Portugal, and the seagrasses Cymodocea nodosa, Zostera marina and Zostera noltii, which have been considered for restoration. When offered the choice between the three seagrasses in outdoor tanks, adult S. salpa clearly preferred Z. noltii. Testing the seagrasses separately, mean ± s.d. feeding rates ranged from 21 ± 11 g seagrass fresh mass kg−1 fish mass day−1 for Z. marina to 32 ± 9 g seagrass fresh mass kg−1 fish mass day−1 for C. nodosa and 40 ± 11 g seagrass fresh mass kg−1 fish mass day−1 for Z. noltii (temperature = 16° C). Food-processing rate in S. salpa did not differ between seagrasses, and there was no evidence of a regulation of processing rate according to food intake. Seagrasses differed substantially in nitrogen content and C:N, with C. nodosa containing the highest nitrogen content and lowest C:N (2·5 ± 0·1% and 14·0 ± 1·0), followed by Z. noltii (2·1 ± 0·1% and 17·0 ± 1·0) and Z. marina (1·4 ± 0·1% and 26·0 ± 2·0). Food-processing rate in S. salpa and the nutritional value of the seagrasses were not correlated with the observed feeding preference and rate. The study suggests that C. nodosa and Z. marina are less at risk of overgrazing by S. salpa and might thus be preferable to Z. noltii for seagrass restoration in areas with noticeable abundances of this fish. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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7. Ontogenetic Development of the Digestive System in Agastric Chinese Sucker, Myxocyprinus asiaticus, Larvae.
- Author
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Liu, Cai‐Xia, Luo, Zhi, Tan, Xiao‐Ying, and Gong, Shi‐Yuan
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FISHES ,FISH digestive organs ,CATOSTOMIDAE ,FISH larvae ,FISH feeds ,EGG incubation ,ONTOGENY - Abstract
This study was conducted to determine the ontogenetic development of the digestive tract and its accessory structures (liver, pancreas, and gall bladder) in agastric larval Chinese sucker Myxocyprinus asiaticus with the histological and ultrastructural approaches from hatching to 56 days after hatching ( DAH). On the basis of its feeding mode, and analyzing the main histological features of the digestive system, larval development in Chinese sucker was divided into three stages from hatching: stage 1 (endotrophic period): 1-6 DAH; stage 2 (endoexotrophic period): 7-14 DAH; stage 3 (exclusively exotrophic period): from 15 DAH onward. At hatching, the digestive tract of the larvae consisted of an undifferentiated straight tube. At 4 DAH, the mouth opened, and the digestive tract was differentiated into buccopharyngeal cavity, esophagus and intestine. At 7 DAH, fish started to feed exogenously. Yolk sac was completely exhausted at 15 DAH. Until 56 DAH, the digestive tract of the larvae displayed regularly arranged microvilli, abundant vacuoles, and protein inclusion bodies. The pancreas, liver, and gall bladder were functional from 6 DAH, which enabled larvae to ingest, digest, and assimilate the first exogenous food. In comparison with teleosts that have a stomach, the development of the digestive tract of the agastric Chinese sucker seemed relatively slow. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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8. Prolonged feed deprivation does not permanently compromise digestive function in migrating European glass eels Anguilla anguilla.
- Author
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Gisbert, E., Fernández, I., and Alvarez-González, C. A.
- Subjects
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GLASS eels , *ANGUILLA anguilla , *PROTEINS , *BODY mass index , *CONTROL groups , *STIMULUS satiation ,FISH digestive organs - Abstract
The effects of prolonged feed deprivation (40 days at 18° C) and re-feeding (30 days) on body mass, growth and the activity of selected pancreatic and intestinal enzymes were evaluated in migrating European glass eels Anguilla anguilla by comparison with a control group fed to satiation with hake Merluccius merluccius roe for the duration of the experiment. Feed deprivation resulted in mass loss and a reduction in digestive function, as revealed by a decrease in the total and specific activities of pancreatic (trypsin and α-amylase) and intestinal brush border (alkaline phosphatase and leucine aminopeptidase) enzymes. The total activity of intestinal brush border enzymes diminished after 5 days of feed deprivation, whereas that of pancreatic enzymes did not decrease until 10 days, indicating that the intestine is more sensitive to feed deprivation than the pancreas. Re-feeding A. anguilla that were starved for 40 days resulted in compensatory growth, with specific growth rates that were 2·6 times higher than the control group. This compensatory growth was associated with the recovery of trypsin and intestinal brush border enzyme activities, which were restored to control levels within 5 days of re-feeding. The ability to maintain pancreatic enzyme activity during 40 days of feed deprivation, and rapidly recover capacity for protein digestion upon re-feeding, would enable A. anguilla at this glass eel stage to withstand periods without food but rapidly provide amino acids for protein synthesis and growth when suitable food was available. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
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9. Is peak postprandial oxygen consumption positively related to growth rate and resting oxygen consumption in a sedentary catfish Silurus meridionalis?
- Author
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Fu, S. J., Cao, Z. D., Peng, J. L., and Wang, Y. X.
- Subjects
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CATFISHES , *SILURUS , *OXYGEN consumption , *MARINE sciences ,FISH digestive organs - Abstract
The resting oxygen consumption , postprandial and post-exercise peak oxygen consumption of 137 juvenile southern catfish Silurus meridionalis, weighing 18·5 ± 0·8 g (mean ±s.d.), were measured at 25° C to determine whether is positively related to postprandial and post-exercise in sedentary S. meridionalis. In addition, postprandial metabolic response [ i.e. the specific dynamic action (SDA)] after a satiating meal and the growth performance as a consequence of a 3 week feeding-growth trail were measured in 40 S. meridionalis, weighing 14·3 ± 0·2 g, at 25° C to determine whether postprandial is positively related to growth rate. Postprandial was positively correlated with , while post-exercise was not. Both postprandial and post-exercise were positively correlated with factorial and absolute scope. There was no significant correlation between the growth rate and postprandial in S. meridionalis. It suggested that as a sit-and-wait forager with low , low post-exercise and high postprandial , the expenditure of energy for maintenance in S. meridionalis may be more closely related to digestive processes than locomotor activities. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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10. How are prey fishes of multiple meals evacuated from the stomach of a piscivorous fish?
- Author
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Andersen, N. G. and Beyer, J. E.
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ATLANTIC cod , *AMMODYTES tobianus , *PISCIVOROUS fishes , *PREDATION ,FISH digestive organs - Abstract
The observations that the gastric evacuation of a meal was accelerated after ingestion of an additional meal, whereas the evacuation of the latter meal was slowed down were compared to the predictions of mass-dependent models derived from experiments on evacuation of single meals. In contrast, the present study on cod Gadus morhua fed identical double meals of sandeel Ammodytes tobianus demonstrated that the evacuation of each meal was slowed down relative to the evacuation of a single meal. This fact could be explained by the exposed meal surface area being reduced while the meals were together in the stomach as it was expected by a surface-dependent cylinder interpretation of the square-root model. The cylinder model forecasted accurately the observed evacuation of each meal in the double-meal situation. The simple surface considerations of the model further explained the discrepancies between observed and expected evacuation rates using mass-dependent models, which suggested that the above finding of the previous studies was an artefact. The ability of the cylinder model to predict properly also the evacuation of multiple meals in juvenile coho salmon Oncorhynchus kisutch indicated that the model would apply to gastric evacuation in small-sized predatory fishes as well. This should increase considerably its value as a generic tool for studies on the feeding biology of fishes in the wild. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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11. Fasting modulates metabolic responses to cortisol, GH and IGF-I in Arctic charr hepatocytes.
- Author
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Aas-Hansen, Ø., Jørgensen, E. H., and Vijayan, M. M.
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ARCTIC char , *CHAR fish , *LIVER cells , *FISH research , *FISH growth , *FISH nutrition ,FISH digestive organs - Abstract
Hepatocytes in primary culture from fed and 2 month fasted Arctic charr Salvelinus alpinus were exposed to physiological doses of either cortisol, salmon growth hormone (GH), salmon insulin-like growth factor-I (IGF-I) or a combination of salmon GH and salmon IGF-I. Fasting significantly lowered medium glucose levels compared to the fed fish, but had no significant effects on hepatocyte glycogen content or on the activities of enzymes involved in the intermediary metabolism. Cortisol treatment had no effect on hepatocyte glycogen content or on the enzyme activities investigated, but resulted in a significant increase in medium glucose concentration in hepatocytes isolated from fasted, but not fed fish. GH and IGF-I treatments, both singly and in combination, significantly increased the glycogen content of hepatocytes isolated from fed fish, with less pronounced effects on hepatocytes isolated from fasted fish. The combination of GH and IGF-I significantly increased lactate dehydrogenase activity regardless of the feeding state and significantly reduced the phosphenolpyruvate carboxykinase activity and medium glucose concentration in hepatocytes isolated from fed fish. Further, GH and IGF-I significantly increased the activities of alanine aminotransferase and aspartate aminotransferase in hepatocytes isolated from fasted fish, but not fed fish. There were no effects of GH, IGF-I, or their combination, on glucose 6-phosphate dehydrogenase or 3-hydroxyacyl-CoA dehydrogenase activities. The results demonstrated that nutritional status of the animal modulates hepatocyte responsiveness to metabolic hormones, and suggested a role for GH and IGF-I in hepatic glycogen conservation. [ABSTRACT FROM AUTHOR]
- Published
- 2005
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12. Composition and antagonistic activity of the indigenous intestinal microbiota of Prochilodus argenteus Agassiz.
- Author
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Silva, F. C. P., Brito, M. F. G., Farias, L. M., and Nicoli, J. R.
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FISH research , *PROCHILODUS , *FISH physiology , *AEROMONAS hydrophila , *BACTERIAL genetics ,FISH digestive organs - Abstract
The composition and antibacterial properties of indigenous intestinal microbiota from Prochilodus argenteus were studied during reproductive (alimentary restriction) and non-reproductive (normal feeding) periods. Dilutions of intestinal contents from 21 specimens of P. argenteus captured from São Francisco Basin, Minas Gerais State, Brazil, were used for enumeration, isolation, identification and determination of in vitro antibacterial properties of predominant components of the intestinal microbial ecosystem. Predominant species recovered for both periods were: Aeromonas hydrophila, Plesiomonas shigelloides, Lactococcus lactis and an unidentified Gram-positive rod for facultative anaerobes and Bacteroides stercoris/eggerthii and Fusobacterium mortiferum for obligate anaerobes. Gram-positive components of this microbiota showed high antagonistic activity against gram-negative species. Coagulase-negative Staphylococcus sp., Enterococcus durans, Enterococcus faecium and the unidentified gram-positive rod had wider range of antagonism properties. The indigenous intestinal microbiota of P. argenteus was quite similar to that of other fishes and the reproductive and alimentary status has few influences on its composition. [ABSTRACT FROM AUTHOR]
- Published
- 2005
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13. Seasonal, diel and ontogenetic variation in feeding patterns of small yellow croaker in the central Yellow Sea.
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Y. Xue, X. Jin, B. Zhang, and Z. Liang
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FISH feeds , *PSEUDOSCIAENA , *SCIAENIDAE , *PREDATORS of fishes ,FISH digestive organs - Abstract
Stomach contents of 1603 small yellow croaker Pseudosciaena polyactis, sampled from seasonal bottom trawl surveys in the central Yellow Sea between March 2001 and January 2002, were examined. The results showed that small yellow croaker was a carnivorous predator and >30 prey species were identified from stomach contents analysis. Crustaceans (mainly euphausiids and decapods) were the most important prey, occurring in 93·1% of the stomachs containing food, and accounting for 77·6% of the total food by mass. Feeding activity was highest in autumn and lowest in spring and winter. Decapods were more important in summer, whereas euphausiids were more important during other seasons. Ontogenetic differences were found in the diet composition and feeding activity within the range of size (standard length, LS) studied. The importance of fishes and decapods increased with LS, whereas euphausiids, copepods and amphipods decreased in importance with LS. Dietary breadth increased markedly for adults. A positive relationship was found between LS and prey size. In each season the maximum diel feeding activity occurred at 0800 and 2400 hours, indicating that there was crepuscular and nocturnal feeding by small yellow croaker. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
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14. Digestion and absorption of a pure triacylglycerol and a free fatty acid by Clupea harengus L. larvae.
- Author
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Morais, S., Rojas-Garcia, C. R., Conceição, L. E. C., and Rønnestad, I.
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FISH metabolism , *ATLANTIC herring , *FATTY acids , *FISH feeds , *DIGESTION ,FISH digestive organs - Abstract
The digestion, absorption and post absorptive metabolism of a radiolabelled triacylglycerol (TAG; triolein) and a free fatty acid (FFA; oleic acid), delivered by tube feeding, was studied in herring Clupea harengus larvae, using metabolic chambers and video analysis. In general, a large amount of the delivered lipid was evacuated. Most of the evacuation occurred between 2 and 6 h after tube feeding although a group of larvae responded by rapidly evacuating the lipid (>50% before 2 h). The volume of the tube-fed lipid affected its utilization. A small volume of triolein (9·2 nl, representing c. 6% of gut filling capacity) resulted in a lower proportion of fast evacuating larvae and improved utilization (lower evacuation and higher absorption: body incorporation and catabolism) compared with 50·6 nl ( c. 17% of gut filling capacity). Increases in the volume of tube fed triolein enhanced only marginally label absorption and led to a steep rise in evacuation. At a comparable high volume (50·6 nl), oleic acid, which does not require digestion, was better absorbed and less evacuated than triolein. The video observation of the lipid digestive process revealed a considerable gut contractile activity that appeared effective in processing the tube fed lipid. Also, the gut wall seemed very sensitive to physical pressure. Signs of chemical degradation during lipid digestion were also noted. The metabolic studies, together with video image analysis, suggested that the limiting step for the utilization of high dietary lipid levels may have been the lipid absorption into the enterocytes and transport into the body, rather than lipid digestion. The results support the notion that the rate of lipid digestion and absorption in fishes is slower than that of mammals. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
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15. Apparent digestibility coefficients for common feed ingredients in formulated diets for tropical catfish, Mystus nemurus (Cuvier & Valenciennes).
- Author
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Khan, M. S.
- Subjects
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ANIMAL feeds , *TROPICAL fish , *CATFISHES , *PROTEINS , *FISH nutrition , *AMINO acids ,FISH digestive organs - Abstract
Apparent digestibility coefficients were determined for six feedstuffs, subsequent to their processing into pelleted feed for tropical freshwater catfish, Mystus nemurus (Cuvier & Valenciennes), using a reference diet and test diets composed of 70% reference diet and 30% test ingredient. It was found that most ingredients were fairly well digested except maize and chicken viscera. Digestibility coefficient for protein (P), dry matter (DM) and energy (E) were: (1) fish meal: 97.8% P, 97% DM. 77.88% E: (2) soybean meal: 86% P, 95.55% DM, 67.89% E: (3) rice bran: 81% P, 85.81% DM, 67.93% E: (4) copra meal: 79.90% P, 86% DM, 71.89% E: (5) maize: 51.93% P, 49.0% DM. 63.40% E and (6) chicken viscera: 37% P, 29% DM. 52% E. Digestibility coefficients for feedstuffs indicated that animal protein product, such as fish meal and grain by-product, such as rice bran were more digestible than starchy and fibrous feed, e.g. maize. Chicken viscera was poorly digested largely due to inefficient processing. As most feedstuffs were well digested, ingredient selection should, therefore, be based primarily on their protein content, amino acid composition and palatability. [ABSTRACT FROM AUTHOR]
- Published
- 1994
- Full Text
- View/download PDF
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