The efficacy of the lipid soluble carotenoid astaxanthin (biosynthesised as a secondary
metabolite by the microalga Haematococcus pluvialis) as a source of pigment to enhance
the aesthetic appeal of the flesh of farmed salmonid species has been investigated, using
rainbow trout (Oncorhynchus mykiss) as a model. Accretion of astaxanthin within rainbow
trout epaxial white muscle was primarily shown to be dependent on dietary inclusion and
the type of diet used as a pigment carrier. Different dietary inclusion rates demonstrated a
dose response. Cold pressed low oil and commercially extruded high oil diets containing
similar astaxanthin concentration were tested, fish receiving the latter obtained higher
growth rates and retained higher concentrations of astaxanthin within their flesh as
compared to those receiving the former. Assessment of intact encysted H. pluvialis cells
and processed H. pluvialis cells which had been mechanically treated to ruptured their cell
wall revealed that the astaxanthin retained within the cells is only bioavailable to rainbow
trout when the cell wall has been breached. The carotenoid profile of H. pluvialis
confirmed that its astaxanthin was in three forms, i.e. free (5.9%), mono-esterified (82.3%)
and di-esterified (11.8 %) to fatty acid moieties. Assessment of H. pluvialis purified mono
and di-esterified astaxanthin extracts fed to rainbow trout demonstrated that astaxanthin
mono-esters were more bioavailable than di-esters. Image analysis confirmed the major
colour component of pigmented rainbow trout fillets is red and the distribution of
astaxanthin within fillets varies greatly, with the head region having the lightest hue, which
gradually increases towards the tail region. The addition of 2-palmitoylaminoproprionic
acid (Corbinol) as a feed additive to diets containing synthetic astaxanthin had no effect on
increasing the deposition of astaxanthin in the epaxial white muscle. Nevertheless, none of
the in vivo trials incorporating H. pluvialis cells or H. pluvialis derived astaxanthin extracts
demonstrated any detrimental effects on rainbow trout, in terms of feed utilisation, growth
performance or health. Also, the protection afforded to astaxanthin by ruptured H. pluvialis
cysts was demonstrated (during in vitro experiments) to provide increased stability as
compared to synthetic astaxanthin, with respect to diet storage, exposure to emulated
sunlight and loss in a turbulent water column. The present studies contribute to the
awareness of Haematococcus pluvialis as a source of natural astaxanthin for salmonid
species, by highlighting both negative and positive aspects with respect to its use in the
aquaculture industry.
Date of Award | 2001 |
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Original language | English |
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Awarding Institution | |
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Evaluation of Haematococcus pluvialis as a natural dietary source of the carotenoid astaxanthin for rainbow trout flesh pigmentation
Lagocki, S. (Author). 2001
Student thesis: PhD