Recovery periods of cultured spiny lobster, Sagmariasus verreauxi juveniles: Effects of handling, force feeding, exercising to exhaustion and anaesthesia on oxygen consumption and ammonia-N excretion rates

Recovery periods of cultured spiny lobster, Sagmariasus verreauxi juveniles: Effects of handling, force feeding, exercising to exhaustion and anaesthesia on oxygen consumption and ammonia-N excretion rates

The ability of lobsters to recover from stress is an important factor influencing growth and survival in aquaculture; however, there is limited information on the metabolic responses of spiny lobsters to stress. This study determined oxygen consumption rate (M˙O2) and ammonia-N excretion of juvenile...

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Bibliographic Details
Published in:Aquaculture Vol. 410-411; pp. 114 - 121
Main Authors: Jensen, Mark A., Fitzgibbon, Quinn P., Carter, Chris G., Adams, Louise R.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 10-10-2013
Elsevier
Elsevier Sequoia S.A
Subjects:
2-phenoxyethanol
Ammonia
ammonium nitrogen
anesthesia
Animal aquaculture
Animal productions
Aquaculture
Biological and medical sciences
Clove oil
Energy
excretion
exercise
forced feeding
Fundamental and applied biological sciences. Psychology
General aspects
juveniles
lobsters
Metabolism
Oxygen
Oxygen consumption
Recovery
Seafood
Shellfish
Survival analysis
Welfare
Clove oil
Oxygen consumption
2-phenoxyethanol
Energy
Welfare
Recovery
Excretion
Palinuridae
Macrura
Feeding
Crustacea
Ammonia
Restoration
Arthropoda
Exhaustion
Clove
Spiny lobster
Decapoda
Invertebrata
Aquaculture
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Summary:The ability of lobsters to recover from stress is an important factor influencing growth and survival in aquaculture; however, there is limited information on the metabolic responses of spiny lobsters to stress. This study determined oxygen consumption rate (M˙O2) and ammonia-N excretion of juvenile spiny lobsters Sagmariasus verreauxi in response to handling, anaesthesia, anaesthesia then force feeding, and exercising to exhaustion in order to determine the recovery time and amount of oxygen required to recover from common sources of stress in aquaculture. Lobsters required 0.29±0.24mgO2gDM−1 over a period of 2.5±1.40h to recover from handling. Anaesthesia with 2-phenoxyethanol immobilised lobsters but they required 0.72±0.36mgO2gDM−1 over a period of 4.5±1.77h to recover, indicating that 2-phenoxyethanol causes substantial stress. Force feeding lobsters anaesthetised with 2-phenoxyethanol or clove oil did not result in a higher increase of M˙O2 compared to 2-phenoxyethanol anaesthesia alone. Recovery from exercise to exhaustion required 1.84mgO2gDM−1 over a period of 10.17±0.70h. Ammonia-N excretion, measured 24h post-treatment, and atomic O:N ratios were not significantly different between treatments and indicated lobsters in all groups had reached the same level of recovery 24h post-treatment. Overall, the study demonstrated that lobsters recover rapidly from handling. Conversely, the increase in M˙O2 induced by 2-phenoxyethanol demonstrated this is not an effective anaesthetic for reducing recovery periods and physiological stress associated with handling. However, 2-phenoxyethanol and clove oil eliminated further stress associated with force feeding, indicative of an invasive research procedure. Exercise to exhaustion resulted in the largest magnitude increase in M˙O2 and longest recovery period. It is therefore recommended that aquaculture handling procedures take precautions to limit activity and are carried out without anaesthesia to facilitate more rapid recovery of lobsters. •Stress responses of juvenile Sagmariasus verreauxi were determined.•Lobsters recover rapidly from handling.•Anaesthesia causes a substantial stress response.•Anaesthesia and force feeding is a useful physiological technique.•Recovery from exercise to exhaustion required a large amount of oxygen.
Bibliography:http://dx.doi.org/10.1016/j.aquaculture.2013.06.020
ISSN:0044-8486
1873-5622
DOI:10.1016/j.aquaculture.2013.06.020