Time Course of Metabolic Capacities in Paralarvae of the Common Octopus, Octopus vulgaris , in the First Stages of Life. Searching Biomarkers of Nutritional Imbalance

The culture of the common octopus ( ) is promising since the species has a relatively short lifecycle, rapid growth, and high food conversion ratios. However, recent attempts at successful paralarvae culture have failed due to slow growth and high mortality rates. Establishing an optimal nutritional...

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Published inFrontiers in physiology Vol. 8; p. 427
Main Authors Morales, Amalia E, Cardenete, Gabriel, Hidalgo, M Carmen, Garrido, Diego, Martín, M Virginia, Almansa, Eduardo
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Media S.A 16.06.2017
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Summary:The culture of the common octopus ( ) is promising since the species has a relatively short lifecycle, rapid growth, and high food conversion ratios. However, recent attempts at successful paralarvae culture have failed due to slow growth and high mortality rates. Establishing an optimal nutritional regime for the paralarvae seems to be the impeding step in successful culture methods. Gaining a thorough knowledge of food regulation and assimilation is essential for paralarvae survival and longevity under culture conditions. The aim of this study, then, was to elucidate the characteristic metabolic organization of octopus paralarvae throughout an ontogenic period of 12 days post-hatching, as well as assess the effect of diet enrichment with live prey containing abundant marine phospholipids. Our results showed that throughout the ontogenic period studied, an increase in anaerobic metabolism took place largely due to an increased dependence of paralarvae on exogenous food. Our studies showed that this activity was supported by octopine dehydrogenase activity, with a less significant contribution of lactate dehydrogenase activity. Regarding aerobic metabolism, the use of amino acids was maintained for the duration of the experiment. Our studies also showed a significant increase in the rate of oxidation of fatty acids from 6 days after-hatching. A low, although sustained, capacity for synthesis of glucose from amino acids and glycerol was also observed. Regardless of the composition of the food, glycerol kinase activity significantly increased a few days prior to a massive mortality event. This could be related to a metabolic imbalance in the redox state responsible for the high mortality. Thus, glycerol kinase might be used as an effective nutritional and welfare biomarker. The studies in this report also revealed the important finding that feeding larvae with phospholipid-enriched improved animal viability and welfare, significantly increasing the rate of survival and growth of paralarvae.
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This article was submitted to Invertebrate Physiology, a section of the journal Frontiers in Physiology
Edited by: Graziano Fiorito, Stazione Zoologica Anton Dohrn, Italy
Reviewed by: Andrea Tarallo, Stazione Zoologica Anton Dohrn, Italy; Claudio Agnisola, University of Naples Federico II, Italy
ISSN:1664-042X
1664-042X
DOI:10.3389/fphys.2017.00427