Advanced DHA, EPA and ArA
enrichment materials for marine aquaculture using single cell heterotrophs
M. Harel, W. Koven, I. Lein, Y. Bar, P. Behrens, J.
Stubblefield, Y. Zohar, A.R. Place-2002
Aquaculture, 213(1-4): 347-362
Abstract:
Heterotrophically grown algae and fungal biomass and
their residual materials from an industrial oil extraction process were used
as components in marine larval and broodstock diets. Crypthecodinium
sp. phospholipid extract and meal, used to enrich rotifers and Artemia
nauplii, produced higher levels of DHA and higher DHA/EPA ratios in these
zooplankters than Schizochytrium sp. algal whole cell preparation or
fish oil-based emulsion. The improved enrichment resulted in enhanced growth
of Atlantic halibut larvae, whereas several other marine larvae species (sea
bream, European sea bass and striped bass) respond almost equally to all
enrichment materials. In addition, a 60% replacement of menhaden oil with
algal oil and meal in striped bass broodstock diets resulted in a similar
growth increase to that obtained with standard commercial diets. Striped
bass broodstock fish diets supplemented with an arachidonic acid (ArA)-rich
oil obtained from heterotrophically grown fungi, Mortierella alpina,
was shown to have significant benefits on the hatching rate of larvae. These
findings demonstrate the potential of single cell heterotrophs as a partial
substitute or replacement for fish-based ingredients in aquaculture diets.
(Center of Marine Biotechnology, University of
Maryland, 701 East Pratt St., Baltimore, MD 21202, USA, e-mail: harel@umbi.umd.edu)