Growth, health and biochemical composition of the sea cucumber Cucumaria frondosa after multi-year holding in effluent waters of land-based salmon culture

Growth, health and biochemical composition of the sea cucumber Cucumaria frondosa after multi-year holding in effluent waters of land-based salmon culture

Methods have been proposed to mitigate the environmental footprint of aquaculture, including co-culture of species occupying different trophic levels. In this study, sea cucumbers Cucumaria frondosa , either from production tanks fed with effluent water from land-based salmon culture over 4 yr or co...

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Bibliographic Details
Published in:Aquaculture Environment Interactions Vol. 12; pp. 139 - 151
Main Authors: Sun, J, Hamel, JF, Gianasi, BL, Graham, M, Mercier, A
Format: Journal Article
Language:English
Published: Oldendorf Ecology Institute 01-01-2020
Inter-Research
Subjects:
Aquaculture
Aquatic life
Assimilation
Biochemical composition
Biochemistry
Biomarkers
Body size
Composition
Cucumaria frondosa
Effluents
Environmental impact
Fatty acids
Food sources
Gonads
Holothuroidea
Intestine
Intestines
Lipids
Marine invertebrates
Muscles
Nutrients
Phospholipids
Salmon
Salmon culture
Stable isotopes
Tanks
Triglycerides
Trophic levels
Uptake
Water tanks
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Summary:Methods have been proposed to mitigate the environmental footprint of aquaculture, including co-culture of species occupying different trophic levels. In this study, sea cucumbers Cucumaria frondosa , either from production tanks fed with effluent water from land-based salmon culture over 4 yr or collected from the field, were compared using stable isotope, lipid and fatty acid (FA) signatures as indicators of waste assimilation, health and biochemical composition. Enrichment of δ 13 C in muscle bands and intestine and of δ 15 N in muscle bands, gonad and intestine was detected in captive individuals relative to wild individuals, suggesting the uptake and assimilation of waste from salmon culture. The higher levels of FA biomarkers typical of salmon feed (18:1ω9, 18:2ω6 and 20:1ω9) and lower ω3/ω6 ratio in the captive sea cucumbers were also in line with assimilation of the waste. However, male and female sea cucumbers from the co-culture became smaller with time, their organ indices were lower than those of wild individuals (e.g. poorly developed gonad), and their biochemical composition differed: triacylglycerol content was greater in wild individuals and phospholipid content was greater in captive individuals. Also, FA profiles of all tissues differed between the 2 groups, whereas total lipid in muscle bands and gonad remained similar. Overall, results support that co-culture with suspension-feeding sea cucumbers may help mitigate the salmon industry footprint. In turn, the biochemical composition of the sea cucumbers changed, and their reduced size and body indices suggest that this food source does not provide suitable nutrients to sustain growth and reproduction.
ISSN:1869-215X
1869-7534
DOI:10.3354/aei00356