Role of biochemical energy reserves in the metamorphosis and early juvenile development of the oyster Ostrea chilensis

Metamorphosis in the Chilean oyster Ostrea chilensis was complete 36 h after release of the larvae, when 100% of the individuals showed edge growth of the dissoconch. The size of the larval shell did not change during metamorphosis, although the total dry weight of the larva decreased considerably....

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Bibliographic Details
Published in:Marine biology 1998-12, Vol.132 (4), p.635-640
Main Authors: VIDELA, J. A, CHAPARRO, O. R, THOMPSON, R. J, CONCHA, I. I
Format: Article
Language:English
Subjects:
Animal reproduction
Biological and medical sciences
Carbohydrates
Energy reserves
Fundamental and applied biological sciences. Psychology
Invertebrates
Larvae
Life cycle. Embryology. Development
Lipids
Marine
Marine biology
Metamorphosis
Mollusca
Ostrea chilensis
Oysters
Physiology. Development
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Summary:Metamorphosis in the Chilean oyster Ostrea chilensis was complete 36 h after release of the larvae, when 100% of the individuals showed edge growth of the dissoconch. The size of the larval shell did not change during metamorphosis, although the total dry weight of the larva decreased considerably. During this period, when the gill ciliature was undeveloped and the oyster therefore unable to feed, energy demands were met by biochemical reserves retained from the larval phase. Proteins contributed the largest quantity of energy to the metamorphosing oyster, 69.3% of the total expended, whereas lipids supplied 24.3% and carbohydrates only 6.4%. The process of metamorphosis consumed 64.5% of the energy reserves held by the pediveliger at the time of release. When metamorphosis was complete, growth began and tissue reserves were replenished, protein and carbohydrate accumulating rapidly early in the juvenile stage.
ISSN:0025-3162
1432-1793
DOI:10.1007/s002270050428