Dietary neutral lipid level and source in Senegalese sole (Solea senegalensis) larvae: Effect on growth, lipid metabolism and digestive capacity

Morais, Silvia; Caballero, M. J.; Conceição, Luı́s E.C.; Izquierdo, M.S.; Dinis, María Teresa

doi:10.1016/j.cbpb.2006.01.015

Cited by 67 publications

(30 citation statements)

References 45 publications

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“…REQUIREMENT Fish probably have an absolute requirement for phospholipids (PL), mainly phosphatidylcholine (PC) and possibly phosphatidylinositol (PI) (Coutteau et al 1997). The most striking example of this is seen in some marine larvae where lipid droplets tend to accumulate, sometimes in livers (Salhi et al 1999), but most commonly in enterocytes upon feeding with artificial or supplemented live feeds (Deplano et al 1989;Geurden et al 1997;Salhi et al 1999;Morais et al 2006;. The cause appears to be linked to impaired enterocyte lipoprotein synthesis where PC (and apolipoproteins) is needed to form a coat around the absorbed TAG enabling it to be transported out of the cell.…”

Section: Norwegian Scientific Committee For Food Safetymentioning

confidence: 99%

Criteria for Safe Use of Plant Ingredients in Diets for Aquacultured Fish

Hemre

Amlund

Aursand

et al. 2018

EJNFS

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Section: Norwegian Scientific Committee For Food Safetymentioning

confidence: 99%

Criteria for Safe Use of Plant Ingredients in Diets for Aquacultured Fish

Hemre

Amlund

Aursand

et al. 2018

EJNFS

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“…Following some promising trials in early 80s, rearing of S. senegalensis has succeeded in key points such as reproduction (Anguis and Cañavate, 2005), weaning (Cañavate and Fernández-Díaz, 1999;Engrola et al, 2009), or nutrition (Rønnestad et al, 2001;Aragão et al, 2003;Morais et al, 2006;Conceição et al, 2007). However, diverse growth performance and high size variability is still an important issue when rearing Senegalese sole in captivity (Dinis et al, 1999;Flos et al, 1995, Flos et al, 2001Rueda-Jasso et al, 2004).…”

Section: Introductionmentioning

confidence: 99%

Stocking density and sex influence individual growth of Senegalese sole (Solea senegalensis)

2010

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Growth is usually inversely correlated with stocking density of fish in culture. Senegalese sole aquaculture is affected by a high size variability and thus, this work tried to investigate the relationship of growth with density of two populations of 96 individually tagged Senegalese sole (318.7± 7.9 g; mean± standard error of the mean). Fish were reared at low (LD) and high (HD) density (60% and 180% of bottom coverage respectively) for 195 days. After 134 days (period 1), density conditions were exchanged between groups. Mean weight, standard length, maximum width and centroid size were calculated for each of the 11 census days of the experiment. White muscle biopsies were taken in 7 of the census days in order to assess the RNA/DNA ratio, as a biochemical indicator of growth. Stocking density had an important effect on growth, as fish reared under HD showed poor or no growth during a 'lag phase' on the first 61 days of the experiment, leading to a significantly lower specific growth rate (0.23 ± 0.014) for period 1 compared with LD fish (0.34 ± 0.016). Fitting of linear mixed-effects (LME) models for the first 134 days of experiment showed a significant effect of density and sex on all the assessed biometric parameters. These results could be attributed mainly to the first 61 days of the experiment, as no differences were observed between days 61 and 134 in all the measurements, except for standard length, that showed to be lower for HD fish throughout the whole period. Fish reared under high density tended to grow slower than fish held at low density, while females showed faster growth than males, particularly in HD. Nevertheless, due to high size variability, no significant differences could be found in the mean values of weight or standard length after 134 days (467.2± 21.6 g and 28.7± 4.2 cm; 502.6 ± 22.5 g and 29.7± 4.5 cm for HD and LD fish respectively). Size variability could be an indicator of the onset of hierarchies, being stronger and with more females as dominant individuals than males in HD. After exchanging densities, and up to day 195, a similar lagging effect could be observed in LD fish exposed to high density, suggesting that a sudden change in density, more than density itself, could be the responsible for a detrimental effect on growth. RNA/DNA ratios, were significantly lower for HD fish between days 20 and 61.

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“…Lipids seemed to be absorbed mainly by the posterior intestine, similarly as described for turbot Scophthalmus maximus (Koven et al, 1994), for Senegal sole Solea senegalensis (Morais et al, 2006) and brill Scophtalmus rhombus (HacheroCruzado et al, 2009). In S. aurata larvae the supranuclear vacuoles observed are of protein nature (González de Canales García et al, 1997).…”

Section: Discussion Larval Growth In Mesocosm and Development Of The mentioning

confidence: 58%

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Andrade¹,

Soares²,

Ribeiro³

et al. 2015

Turk. J. Fish. Aquat. Sci.

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The present study provides a description of the morphological, histological and histochemical development, and the ecological implications of red porgy larvae reared in mesocosm, from hatching to 30 days after hatching (DAH). Four development stages were defined by body total length (TL), in agreement with major patterns of larval organogenesis. The first stage was characterized by the highest TL relative growth rate (RGR=7.23 % day -1 ) as larvae elongate their body to escape the culture media viscous forces. RGR decreased in the second stage of development (4.34 % day -1 ), as larvae opened the mouth and initiated exogenous feeding. Protein inclusions at the posterior digestive epithelium were indicative of pinocytosis and intracellular digestion. Yolk reserves were consumed at slower rate (until 5 DAH) than larvae in intensive culture, although the peak of swim bladder inflation occur earlier (8-11 DAH). A significant decrease in RGR (1.55 % day -1 ) and the notochord flexion characterized the third stage of larval development. Larvae migrated deeper in the tank (14 DAH) and adopted an aggressive behavior (17-19 DAH). Gastric glands in the forthcoming stomach were common at 20 DAH. In the last stage of larval development the RGR was 3.62 % day -1. A sharp increase of Artemia consumption from 26 DAH and cannibalism denoted a change in the digestive mode. Results suggest that red porgy larvae growth and development priorities, and behavior patterns at early stages are directed to increase the number of captured prey.

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Dietary neutral lipid level and source in Senegalese sole (Solea senegalensis) larvae: Effect on growth, lipid metabolism and digestive capacity

Cited by 67 publications

References 45 publications

Criteria for Safe Use of Plant Ingredients in Diets for Aquacultured Fish

Criteria for Safe Use of Plant Ingredients in Diets for Aquacultured Fish

Stocking density and sex influence individual growth of Senegalese sole (Solea senegalensis)

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