Effects of temperature and dietary energy/protein ratio on growth of channel catfish (Ictalurus punctatus) /

Bibliographic Details
Main Author:	Masser, Michael P. (Michael Paul)
Other Authors:	Matis, J. H. (degree committee member.), Neill, W. H. (degree committee member.), Robinson, E. H. (degree committee member.)
Format:	Thesis Book
Language:	English
Published:	1986.
Subjects:	Channel catfish. Fish culture. Major wildlife and fisheries sciences. Academic theses
Online Access:	Link to ProQuest copy Link to OAKTrust copy

Description
Abstract:	The interaction of water temperature and dietary energy/protein (DE/P) ratio on the growth, voluntary feed consumption, and body composition of channel catfish (Ictalurus punctatus) was examined experimentally, and a simulation model that includes functional relationships representing the effects of water temperature, DE/P ratio and their interaction on catfish growth was developed. Fingerling channel catfish, acclimated and maintained at a temperature of 23, 28, or 33°C, were fed for 12 weeks on one of six diets that contained 25 or 35 percent crude protein and had DE/P ratios of 6.0, 8.4 or 10.6 (kcal/g). Fish fed the 35 percent crude protein diet with a DE/P ratio of either 8.4 or 10.6 exhibited the fastest growth. At 28°C fish growth and protein deposition were faster than at the other temperatures. At 23°C fish growth was supressed on the high protein-low DE/P ratio (6.0) diet. Voluntary feed consumption was inversely related to the dietary energy level at each temperature. Feed consumption was lowest at 23°C, but was not different at 28 and 33°C for fish fed to satiation twice daily. Whole body protein, ash, and moisture were inversely related to DE/P ratio, while whole body fat was directly related to DE/P ratio at each temperature. The simulation model was developed by modifying a general bioenergetics model of fish growth proposed by Cuenco et al. (1985a) to include new functional relationships representing the effects of crude protein and DE/P ratio requirements on consumption and assimilation by channel catfish. The simulation model predicted growth and feed consumption near buy slightly above the observed experimental results.
Item Description:	"Major subject: Wildlife and Fisheries Sciences." Typescript (photocopy). Vita.
Physical Description:	x, 112 leaves : illustrations ; 29 cm
Bibliography:	Includes bibliographical references (leaves 86-92).