The effect of stocking density on growth, metabolism and ammonia–N excretion during larval ontogeny of the spiny lobster Sagmariasus verreauxi

The effect of stocking density on growth, metabolism and ammonia–N excretion during larval ontogeny of the spiny lobster Sagmariasus verreauxi

Stocking density is a critical factor affecting performance of aquatic organisms in culture, however, its influence on energy utilisation has rarely been considered. Energy partitioning is particularly important for spiny lobster phyllosoma, which must accumulate sufficient energy reserves for metam...

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Bibliographic Details
Published in:Aquaculture Vol. 376-379; pp. 45 - 53
Main Authors: Jensen, Mark A., Fitzgibbon, Quinn P., Carter, Chris G., Adams, Louise R.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 15-02-2013
Elsevier
Elsevier Sequoia S.A
Subjects:
Ammonia
Animal aquaculture
Animal productions
Aquaculture
Bioenergetics
Biological and medical sciences
body size
Crustacea
Crustaceans
Energetics
energy
energy requirements
excretion
Fundamental and applied biological sciences. Psychology
General aspects
larvae
lobsters
Marine
Metabolism
metamorphosis
O:N ratio
Ontogeny
Oxygen consumption
Phyllosoma
Physical growth
Physiology
Pontophilus spinosus
protein metabolism
Puerulus
specific energy
Spiny lobster
stocking rate
Energetics
O:N ratio
Oxygen consumption
Ontogeny
Phyllosoma
Spiny lobster
Excretion
Growth
Metabolism
Palinuridae
Macrura
Crustacea
Ammonia
Energy balance
Larva
Arthropoda
Development
Ratio
Decapoda
Invertebrata
Population density
Aquaculture
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Summary:Stocking density is a critical factor affecting performance of aquatic organisms in culture, however, its influence on energy utilisation has rarely been considered. Energy partitioning is particularly important for spiny lobster phyllosoma, which must accumulate sufficient energy reserves for metamorphosis and the non-feeding puerulus stage. The current study is the first to examine the energetics of spiny lobsters throughout the entire phyllosoma phase and determined the physiological influence of density. Growth and development, oxygen consumption and ammonia–N excretion rates were measured in Sagmariasus verreauxi phyllosoma that were cultured at High Density (HD) and Low Density (LD) from hatch to puerulus. Phyllosoma growth and development was more advanced in LD phyllosoma after 108 day in culture and mass of LD instar 17 phyllosoma was greater. There were no differences in routine metabolic rate (Rr) and ammonia–N excretion of phyllosoma between densities. However, the O:N ratio decreased in final instar phyllosoma demonstrating a shift towards higher protein catabolism. Routine metabolic rate also increased in late stage phyllosoma, possibly due to higher energy requirements in preparation for metamorphosis and increased swimming activity. The Rr of spiny lobster larvae was significantly lower than that of other crustacean larvae, which may be a characteristic of their extended larval phase, slower growth rate, and larger body size. The study demonstrated late stage phyllosoma have higher weight specific energy requirements than the preceding larval stages and exhibit a metabolic shift towards protein catabolism, suggesting an increased importance of storing lipid as an energy reserve for the puerulus stage. ► Sagmariasus verreauxi phyllosoma were cultured at high and low density ► Growth and development was more advanced in low density phyllosoma. ► The O:N ratio decreased in final instar phyllosoma. ► Routine metabolic rate increased in late stage phyllosoma. ► Late stage phyllosoma shifted towards protein catabolism.
Bibliography:http://dx.doi.org/10.1016/j.aquaculture.2012.10.033
ObjectType-Article-1
SourceType-Scholarly Journals-1
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content type line 23
ISSN:0044-8486
1873-5622
DOI:10.1016/j.aquaculture.2012.10.033