Three trials were conducted to investigate the effects of dietary immuno-stimulant
supplementation on various physiological, haematological and immunological parameters
of ornamental fish following stress and vaccination.
The first series of experiments investigated the mucosal stress response of mirror carp,
(Cyprinus carpio), using urinalysis strips and established stress indicators within
peripheral blood. A netting stressor, which combined aerial exposure and confinement,
of 6 minutes duration was applied and the response of fish was measured 1.5, 3, 5, 24 and
168 hours post-stress. Mucosal haemoglobin and protein were established as consistent
indicators of stress and strong relationships could be drawn between them and plasma
glucose concentration and peripheral monocytes and lymphocytes counts, firmly
establishing them as secondary stress indicators. Visual assessment of the strips was
found to overestimate mucosal parameters compared to results obtained using instrument
based analysis, but the underlying changes were similar. Further experiments conducted
on goldfish, (Carassius auratus), and tilapia, (Oreochromis niloticus x. 0. mossambicus),
showed that the mucosal response to stress was conserved between fish species.
The second trial investigated the potential of dietary immuno-stimulants to
modify the immune status of fish and their response to stress. Fish were fed either a
control, beta-glucan (0.2 % w/w), nucleotide (0.2 % w/w) or combined supplement (0.2
% beta-glucan + 0.2% nucleotide) diet for 3 weeks at 1 % BW.dˉ¹ and then to the same
stressors as used in Trial 1. Significant stress-induced changes in mucosal protein (p =
0.006), plasma glucose (p = <0.004) and protein concentration (p = <0.003), peripheral
lymphocytes (p = 0.001) and monocytes (p = <0.001) and blood NBT reduction (p =
<0.001) were observed. Fish fed diets containing immuno-stimulants shower a quicker
recovery from the stress-induced hyperglycaemic response than those fed the control diet.
Fish that received the beta-glucan diets showed lower blood NBT reduction immediately
post-stress than all other diets.
The final trial investigated the effects of the control, beta-glucan and combined-supplement
diet on the response of fish to vaccination. Fish were fed the diets for 2
weeks prior to and 1 week following IP vaccination against Aeromonas salmonicida at
1.0 % BW.dˉ¹. The immune response was measured every 2 weeks for 12 weeks
following vaccination. Vaccination induced a significant stress response as seen by a
large hyperglycaemic response (p = <0.05). Significant reductions in peripheral
monocyte count were seen following vaccination (p = <0.04). All groups showed
elevated NBT reduction at 4 weeks post-vaccination. Serum lysozyme activity showed
evidence of long term immuno-suppression following vaccination. No clear effect of the
immuno-stimulating diets could be found on any of the physiological or immune
parameters tested.
The trials conducted found that ornamental fish have a well developed mucosal stress
response and this can be used to make inferences about the stress state of fish. The
effects of beta-glucans and nucleotides on either the response to stress and immune
status were subtle. The nucleotide supplement appeared most effective at reducing
the effects of stress, whilst beta-glucans may exert more influence on the immune
parameters tested. However, no evidence of synergy between the two types of
immuno-stimulant was found in fish fed both immuno-stimulants together.
Date of Award | 2006 |
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Original language | English |
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Awarding Institution | |
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Modulation of the health status of ornamental fish by stress and dietary immuno-stimulants
Maudling, S. (Author). 2006
Student thesis: PhD