Denise I. Skonberg scite author profile

Gatlin and Barrows are Chair and Vice-chair, respectively, of the Plant Products in Aquafeeds Working Group, and coordinated the development of this document; all other authors are listed in alphabetical order. AbstractContinued growth and intensi¢cation of aquaculture production depends upon the development of sustainable protein sources to replace ¢sh meal in aquafeeds. This document reviews various plant feedstu¡s, which currently are or potentially may be incorporated into aquafeeds to support the sustainable production of various ¢sh species in aquaculture. The plant feedstu¡s considered include oilseeds, legumes and cereal grains, which traditionally have been used as protein or energy concentrates as well as novel products developed through various processing technologies. The nutritional composition of these various feedstu¡s are considered along with the presence of any bioactive compounds that may positively or negatively a¡ect the target organism. Lipid composition of these feedstu¡s is not speci¢cally considered although it is recognized that incorporating lipid supplements in aquafeeds to achieve proper fatty acid pro¢les to meet the metabolic requirements of ¢sh and maximize human health bene¢ts are important aspects. Speci¢c strategies and techniques to optimize the nutritional composition of plant feedstu¡s and limit potentially adverse e¡ects of bioactive compounds are also described. Such information will provide a foundation for developing strategic research plans for increasing the use of plant feedstu¡s in aquaculture to reduce dependence of animal feedstu¡s and thereby enhance the sustainability of aquaculture.

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Metabolic response to dietary phosphorus intake in rainbow trout (Oncorhynchus mykiss)

Skonberg

Yogev

Hardy³

et al. 1997

Aquaculture

158

139

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Nutrient composition of green crab (Carcinus maenus) leg meat and claw meat

Skonberg¹,

Perkins²

2002

Food Chemistry

125

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Fatty Acid Composition of Salmonid Muscle Changes in Response to a High Oleic Acid Diet

Skonberg

Rasco

Dong

1994

The Journal of Nutrition

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Substitution of high oleic acid sunflower oil for herring oil in formulated salmonid diets affected the fatty acid composition of muscle, liver and visceral fat from coho salmon (Oncorhynchus kisutch) and rainbow trout (O. mykiss). Fish were fed diets containing either high oleic acid sunflower oil or herring oil as the supplemental lipid source (12.4 g/100 g diet) for 1-2 mo. Muscle from fish fed the sunflower oil diet had twice the concentration of oleic acid (approximately 25 g/100 g lipid) as muscle from fish fed the herring oil diet (approximately 12 g/100 g lipid). The maximum concentration of oleic acid in the muscle was obtained after only 2 wk of feeding the sunflower oil diet. Oleic acid concentrations in liver and visceral fat of fish fed the sunflower oil diet were significantly higher than in fish fed the herring oil diet. Rainbow trout fed the sunflower oil diet for 4 wk maintained the higher oleic acid concentrations in muscle and liver when deprived of feed for 2 wk compared with fish fed the herring oil diet. These data indicated that accumulation of oleic acid in coho salmon and rainbow trout muscle was fairly rapidly achieved when a high oleic acid diet was fed. The differences between the fish receiving the two dietary treatments in fatty acid composition and in concentrations of thiobarbituric acid-reactive substances in muscle stored at refrigerated temperatures were consistent with previously reported differences in aroma perceived by a sensory panel.

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Color and flavor analyses of fillets from farm-raised rainbow trout (Oncorhynchus mykiss) fed low-phosphorus feeds containing corn or wheat gluten

Skonberg

Hardy²,

Barrows

et al. 1998

Aquaculture

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