Elin Kjørsvik scite author profile

Histological alterations in the liver of sea bream, Sparus aurata L., caused by short-or long-term feeding with vegetable oils. Recovery of normal morphology after feeding fish oil as the sole lipid source A short-term trial (3 months) and longterm trial (6 months) were carried out feeding sea bream with the following experimental diets: FO100%; SO60% + FO40%; RO60% + FO40%; LO60% + FO40%; SO + RO + LO60% + FO40%. Finally, all groups from the long-term trial were fed with FO100% for 95 days (washout period). Liver samples were taken for histological and biochemical studies. In both the short-and long-term trials, livers of sea bream fed LO60% and SO + RO + LO60% showed a similar hepatic morphology to that observed in fish fed FO100%. In contrast, sea bream fed SO60% showed an intense steatosis, with foci of swollen hepatocytes containing numerous lipid vacuoles. After the washout period, a considerable reduction of the cytoplasmic vacuolation and the lipid vacuole accumulation were observed in the livers of fish fed the different experimental diets. The results of this study suggested that the type of non-essential fatty acid, characteristic of vegetable oils, induces the appearance of steatosis in the following order: linoleic acid > linolenic acid > oleic acid. However, the liver alterations found during the experimental periods with vegetable oils are reversible when the fish are re-fed with a balanced diet (FO100%), indicating the non-pathological character of these histological changes.

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Morphological aspects of intestinal cells from gilthead seabream (Sparus aurata) fed diets containing different lipid sources

Caballero

Izquierdo

Kjørsvik³

et al. 2003

Aquaculture

212

141

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Early development of the digestive tract of cod larvae, Gadus morhua L., during start‐feeding and starvation

Kjørsvik

Meeren

Kryvi

et al. 1991

Journal of Fish Biology

202

132

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Cod larvae, Gadus morhua L., were reared in the laboratory and released to a large marine enclosure4 to Sdaysafter hatching(6-8" C). Thedevelopment ofthedigestive system was studied until day 24 after hatching. Morphological investigations of the jaw apparatus and the digestive tract showed that the larvae are able to absorb ingested food well before exhaustion of the yolk sac. The foregut, and especially the midgut, were particularly active in lipid absorption, and the hindgut was characterized by pinocytotic activity. During the first days of feeding, no distinct prey organisms were observed in the gut. and signs of food absorption in the epithelial cells of the gut were sparse. A distinct red fluorescence, restricted to the hindgut, was observed from day I 1 to day 19. On the basis of changes in absorptive pattern in the gut we suggest that changes in digestive and absorptive abilities, as well as in nutritional needs, take place around days 15-17 after hatching.In starved larvae, signs of degeneration of the gut tissue were first visible in the foregut. By day 9 after hatching, microvilli was degenerated to such an extent that the ability to absorb food must have been severely restricted. Iflarvae are starved longer than this, they will probably not survive.

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From Fertilisation to the End of Metamorphosis—Functional Development

Kjørsvik¹,

Pittman²,

Павлов³

2004

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Elin Kjørsvik

Egg Quality in Fishes

Histological alterations in the liver of sea bream, Sparus aurata L., caused by short‐ or long‐term feeding with vegetable oils. Recovery of normal morphology after feeding fish oil as the sole lipid source

Morphological aspects of intestinal cells from gilthead seabream (Sparus aurata) fed diets containing different lipid sources

Early development of the digestive tract of cod larvae, Gadus morhua L., during start‐feeding and starvation

From Fertilisation to the End of Metamorphosis—Functional Development

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