Utilization of glucose, maltose, dextrin and cellulose by juvenile flounder ( Paralichthys olivaceus)

A study was conducted to determine the ability of juvenile flounder to utilize different sources of carbohydrate in their diets. Triplicate groups of fish (average weight, 4 g) were hand-fed visual satiety one of seven diets containing 15% cellulose, 15% glucose, 15% maltose, and 5–25% dextrin for 4...

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Published inAquaculture Vol. 221; no. 1; pp. 427 - 438
Main Authors Lee, Sang-Min, Kim, Kyoung-Duck, Lall, Santosh P.
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.05.2003
Elsevier Science
Elsevier Sequoia S.A
Subjects
Animal aquaculture
Animal productions
Aquaculture
Biological and medical sciences
Carbohydrate
Carbohydrates
Diet
Fish
Flounder
Fundamental and applied biological sciences. Psychology
Glucose
Glucose tolerance
Growth
Marine
Paralichthys olivaceus
Pisciculture
Plasma chemistry
Vertebrate aquaculture
Korea, Rep
Glucose tolerance
Carbohydrate
Growth
Flounder
Plasma chemistry
Plasma
Chemical analysis
Animal feeding
Cellulose
Dextrin
Glucose
Maltose
Young animal
Feed conversion efficiency
Vertebrata
Diet
Energetic efficiency
Pisces
Pisciculture
Comparative study
Paralichthys olivaceus
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Abstract A study was conducted to determine the ability of juvenile flounder to utilize different sources of carbohydrate in their diets. Triplicate groups of fish (average weight, 4 g) were hand-fed visual satiety one of seven diets containing 15% cellulose, 15% glucose, 15% maltose, and 5–25% dextrin for 45 days in flush-out aquarium system. Weight gain, feed efficiency ratio, protein efficiency ratio (PER), energy retention efficiency, hepatosomatic index (HSI), and liver glycogen were measured. Fish fed the diet containing 15% cellulose had the lowest weight gain ( P<0.05) among all groups. Weight gain of fish fed the diets containing 15% maltose and 15–25% dextrin was higher than that of fish fed the diets containing 15% cellulose and 5% dextrin. The feed efficiency ratio and PER of fish fed the diets containing 15–25% dextrin were significantly higher ( P<0.05) than those of the other groups. Growth and feed utilization increased with an increase in the dextrin level of the diet. Lipid content of the whole body and liver decreased with an increase in dietary dextrin level. Liver glycogen and HSI of fish fed the 15% glucose and 15% maltose diets were higher ( P<0.05) than those of fish fed the other carbohydrates, however these values were not affected by an increase in dextrin intake. Flounder (average weight, 15 g) were fasted for 48 h for a glucose tolerance test and blood was collected after feeding at 0, 1, 3, 5, 8, 11, 16, 24 and 48 h. Plasma glucose concentrations of fish fed the diets containing 15% glucose and 15% maltose peaked at 5–8 h (200 mg/100 ml) and 5 h (148 mg/100 ml), respectively, then decreased at 24 and 16 h. Fish fed the diets containing 5–25% dextrin showed a lower glucose level (87–97 mg/100 ml) than fish fed the other diets and it peaked between 3 and 5 h. Flounder utilized dextrin more efficiently than glucose, and dextrin was a better source of energy than lipid. The best growth and feed utilization were achieved with the diet containing 25% dextrin and 6% lipid.
AbstractList A study was conducted to determine the ability of juvenile flounder to utilize different sources of carbohydrate in their diets. Triplicate groups of fish (average weight, 4 g) were hand-fed visual satiety one of seven diets containing 15% cellulose, 15% glucose, 15% maltose, and 5-25% dextrin for 45 days in flush-out aquarium system. Weight gain, feed efficiency ratio, protein efficiency ratio (PER), energy retention efficiency, hepatosomatic index (HSI), and liver glycogen were measured. Fish fed the diet containing 15% cellulose had the lowest weight gain (P<0.05) among all groups. Weight gain of fish fed the diets containing 15% maltose and 15-25% dextrin was higher than that of fish fed the diets containing 15% cellulose and 5% dextrin. The feed efficiency ratio and PER of fish fed the diets containing 15-25% dextrin were significantly higher (P<0.05) than those of the other groups. Growth and feed utilization increased with an increase in the dextrin level of the diet. Lipid content of the whole body and liver decreased with an increase in dietary dextrin level. Liver glycogen and HSI of fish fed the 15% glucose and 15% maltose diets were higher (P<0.05) than those of fish fed the other carbohydrates, however these values were not affected by an increase in dextrin intake. Flounder (average weight, 15 g) were fasted for 48 h for a glucose tolerance test and blood was collected after feeding at 0, 1, 3, 5, 8, 11, 16, 24 and 48 h. Plasma glucose concentrations of fish fed the diets containing 15% glucose and 15% maltose peaked at 5-8 h (200 mg/100 ml) and 5 h (148 mg/100 ml), respectively, then decreased at 24 and 16 h. Fish fed the diets containing 5-25% dextrin showed a lower glucose level (87-97 mg/100 ml) than fish fed the other diets and it peaked between 3 and 5 h. Flounder utilized dextrin more efficiently than glucose, and dextrin was a better source of energy than lipid. The best growth and feed utilization were achieved with the diet containing 25% dextrin and 6% lipid. [PUBLICATION ABSTRACT]
A study was conducted to determine the ability of juvenile flounder to utilize different sources of carbohydrate in their diets. Triplicate groups of fish (average weight, 4 g) were hand-fed visual satiety one of seven diets containing 15% cellulose, 15% glucose, 15% maltose, and 5–25% dextrin for 45 days in flush-out aquarium system. Weight gain, feed efficiency ratio, protein efficiency ratio (PER), energy retention efficiency, hepatosomatic index (HSI), and liver glycogen were measured. Fish fed the diet containing 15% cellulose had the lowest weight gain ( P<0.05) among all groups. Weight gain of fish fed the diets containing 15% maltose and 15–25% dextrin was higher than that of fish fed the diets containing 15% cellulose and 5% dextrin. The feed efficiency ratio and PER of fish fed the diets containing 15–25% dextrin were significantly higher ( P<0.05) than those of the other groups. Growth and feed utilization increased with an increase in the dextrin level of the diet. Lipid content of the whole body and liver decreased with an increase in dietary dextrin level. Liver glycogen and HSI of fish fed the 15% glucose and 15% maltose diets were higher ( P<0.05) than those of fish fed the other carbohydrates, however these values were not affected by an increase in dextrin intake. Flounder (average weight, 15 g) were fasted for 48 h for a glucose tolerance test and blood was collected after feeding at 0, 1, 3, 5, 8, 11, 16, 24 and 48 h. Plasma glucose concentrations of fish fed the diets containing 15% glucose and 15% maltose peaked at 5–8 h (200 mg/100 ml) and 5 h (148 mg/100 ml), respectively, then decreased at 24 and 16 h. Fish fed the diets containing 5–25% dextrin showed a lower glucose level (87–97 mg/100 ml) than fish fed the other diets and it peaked between 3 and 5 h. Flounder utilized dextrin more efficiently than glucose, and dextrin was a better source of energy than lipid. The best growth and feed utilization were achieved with the diet containing 25% dextrin and 6% lipid.
A study was conducted to determine the ability of juvenile flounder to utilize different sources of carbohydrate in their diets. Triplicate groups of fish (average weight, 4 g) were hand-fed visual satiety one of seven diets containing 15% cellulose, 15% glucose, 15% maltose, and 5-25% dextrin for 45 days in flush-out aquarium system. Weight gain, feed efficiency ratio, protein efficiency ratio (PER), energy retention efficiency, hepatosomatic index (HSI), and liver glycogen were measured. Fish fed the diet containing 15% cellulose had the lowest weight gain (P0.05) among all groups. Weight gain of fish fed the diets containing 15% maltose and 15-25% dextrin was higher than that of fish fed the diets containing 15% cellulose and 5% dextrin. The feed efficiency ratio and PER of fish fed the diets containing 15-25% dextrin were significantly higher (P0.05) than those of the other groups. Growth and feed utilization increased with an increase in the dextrin level of the diet. Lipid content of the whole body and liver decreased with an increase in dietary dextrin level. Liver glycogen and HSI of fish fed the 15% glucose and 15% maltose diets were higher (P0.05) than those of fish fed the other carbohydrates, however these values were not affected by an increase in dextrin intake. Flounder (average weight, 15 g) were fasted for 48 h for a glucose tolerance test and blood was collected after feeding at 0, 1, 3, 5, 8, 11, 16, 24 and 48 h. Plasma glucose concentrations of fish fed the diets containing 15% glucose and 15% maltose peaked at 5-8 h (200 mg/100 ml) and 5 h (148 mg/100 ml), respectively, then decreased at 24 and 16 h. Fish fed the diets containing 5-25% dextrin showed a lower glucose level (87-97 mg/100 ml) than fish fed the other diets and it peaked between 3 and 5 h. Flounder utilized dextrin more efficiently than glucose, and dextrin was a better source of energy than lipid. The best growth and feed utilization were achieved with the diet containing 25% dextrin and 6% lipid.
Author Lall, Santosh P.
Lee, Sang-Min
Kim, Kyoung-Duck
Author_xml – sequence: 1
  givenname: Sang-Min
  surname: Lee
  fullname: Lee, Sang-Min
  email: smlee@kangnung.ac.kr
  organization: Faculty of Marine Bioscience and Technology, Kangnung National University, Kangnung, Gangneung 210-702, South Korea
– sequence: 2
  givenname: Kyoung-Duck
  surname: Kim
  fullname: Kim, Kyoung-Duck
  organization: Faculty of Marine Bioscience and Technology, Kangnung National University, Kangnung, Gangneung 210-702, South Korea
– sequence: 3
  givenname: Santosh P.
  surname: Lall
  fullname: Lall, Santosh P.
  organization: National Research Council, Institute for Marine Biosciences, 1411 Oxford Street, Halifax, NS, Canada
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Issue 1
Keywords Glucose tolerance
Carbohydrate
Growth
Flounder
Plasma chemistry
Plasma
Chemical analysis
Animal feeding
Cellulose
Dextrin
Glucose
Maltose
Young animal
Feed conversion efficiency
Vertebrata
Diet
Energetic efficiency
Pisces
Pisciculture
Comparative study
Paralichthys olivaceus
Language English
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Elsevier Science
Elsevier Sequoia S.A
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Snippet A study was conducted to determine the ability of juvenile flounder to utilize different sources of carbohydrate in their diets. Triplicate groups of fish...
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SubjectTerms Animal aquaculture
Animal productions
Aquaculture
Biological and medical sciences
Carbohydrate
Carbohydrates
Diet
Fish
Flounder
Fundamental and applied biological sciences. Psychology
Glucose
Glucose tolerance
Growth
Marine
Paralichthys olivaceus
Pisciculture
Plasma chemistry
Vertebrate aquaculture
Title Utilization of glucose, maltose, dextrin and cellulose by juvenile flounder ( Paralichthys olivaceus)
URI https://dx.doi.org/10.1016/S0044-8486(03)00061-9
https://www.proquest.com/docview/204691752
https://search.proquest.com/docview/18902201
Volume 221
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