Determination of the optimum concentration of eggs and spermatozoa for the production of normal larvae in Pecten maximus (Mollusca, Lamellibranchia)
Ll. D. Gruffydd,A. R. Beaumont +1 more
- Vol. 20, Iss: 1, pp 486-497
TLDR
The scallopPecten maximus (L.) can be conditioned in the laboratory to produce ripe gametes at times other than its normal spawning seasons and can be produced more efficiently by incubating at a density level of 700 eggs per cm2 although a higher percentage of abnormal larvae must be tolerated.Abstract:
1. The scallopPecten maximus (L.) can be conditioned in the laboratory to produce ripe gametes at times other than its normal spawning seasons. 2. The spawning stimulus consists of taking the scallop out of water for a period of approximately 2 h. Spawning occurs within 2 to 4 h of re-immersion in water. 3. More larvae and a higher proportion of normal larvae are produced by eggs incubated at low density levels. 4. The higher sperm concentrations produce fewer larvae and higher percentages of abnormal larvae than the lower concentrations. 5. Eggs incubated at 7 per cm2 bottom area produce very few abnormal larvae but large numbers of normal larvae can be produced more efficiently by incubating at a density level of 700 eggs per cm2 although a higher percentage of abnormal larvae must be tolerated.read more
Citations
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Changes in the fatty acid composition of Pecten maximus (L.) during larval development
TL;DR: The results suggest that a metabolic control of the fatty acid composition of neutral lipids and mainly polar lipids takes place in developing larvae, which seem to have a high nutritional requirement for long chain PUFA and especially the 22:6(n−3).
Journal ArticleDOI
Reproduction and larval development in two Pecten maximus (L.) populations from Brittany
TL;DR: A spreading out of the risks is thus noted for the Brest population where the spawning, fractioned over several months, increase the global chances of success over the year, and at St. Brieuc, the success or failure of the main spawning is determinant for recruitment.
Journal ArticleDOI
A method for rearing Pecten maximus larvae in the laboratory
Ll. D. Gruffydd,A. R. Beaumont +1 more
TL;DR: Development of the scallop Pecten maximus from egg to metamorphosis takes 33 to 38 days at 16°C, and the shelled veliger first appears 2 days after fertilisation, and crawling pediveligers at around 2 days before metamorphotic.
Journal ArticleDOI
Addendum to A Micro-Analytical Scheme for the Biochemical Analysis of Marine Invertebrate Larvae
D. L. Holland,P. J. Hannant +1 more
TL;DR: A micro-analytical scheme for the determination of protein, carbohydrate, lipid and RNA levels in marine invertebrate larvae has been described in a previous paper (Holland & Gabbott, 1971).
References
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Journal ArticleDOI
The breeding of the scallop, Pecten maximus (L.), in Manx waters
TL;DR: In this paper, an important fishery for the scallop, Pecten maximus (L), is carried on during the winter months round the Isle of Man, and a knowledge of the breeding of this lamellibranch would be useful should legislation become necessary with regard to the fishery.
Journal ArticleDOI
Conditioning; mercenaria for spawning in winter and breeding its larvae in the laboratory.
TL;DR: The simple but efficient method described in this article for conditioning the hard shell clam, V. mercenaria, to spawn out of season and for culturing its larvae will be applicable to many other species of lamellibranchs permitting their successful cultivation in the laboratory, where their morphological features and various aspects of behavior can be studied under controlled conditions.
Journal ArticleDOI
The role of fertilizin in the fertilization of eggs of the sea-urchin and other animals
TL;DR: Confirmation is presented of Lillie's finding that sea-urchin sperm cannot be re-agglutinated after reversal of an initial agglutination and the modified fertilizin is assumed to be univalent, found to be non-dialyzable.
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