Effects of Egg Size on the Development Time of Non-Feeding Larvae

Effects of Egg Size on the Development Time of Non-Feeding Larvae

The evolution of egg size in marine invertebrates remains a topic of central importance for life-history biologists, and the pioneering work of Vance has strongly influenced our current views. Vance's model and most models developed since have assumed that increases in egg size result in an inc...

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Bibliographic Details
Published in:The Biological bulletin (Lancaster) Vol. 212; no. 1; pp. 6 - 11
Main Authors: Marshall, Dustin J., Bolton, Toby F.
Format: Journal Article
Language:English
Published: United States Marine Biological Laboratory 01-02-2007
University of Chicago Press
Subjects:
Animal behavior
Animal embryology
Animal reproduction
Animals
Anthocidaris - anatomy & histology
Anthocidaris - growth & development
Anthocidaris - physiology
Aquatic invertebrates
Bacteria
Birds
Body Size
Ciona intestinalis - anatomy & histology
Ciona intestinalis - growth & development
Ciona intestinalis - physiology
Eggs
Feeding Behavior
Female
Female animals
Fertilization
Hatching
Invertebrates
Larva - anatomy & histology
Larva - growth & development
Larva - physiology
Larvae
Larval development
Marine invertebrates
Mortality
Ova
Ovum - cytology
Research Note
Sea water
Spermatozoa
Urochordata - anatomy & histology
Urochordata - growth & development
Urochordata - physiology
United States
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Summary:The evolution of egg size in marine invertebrates remains a topic of central importance for life-history biologists, and the pioneering work of Vance has strongly influenced our current views. Vance's model and most models developed since have assumed that increases in egg size result in an increase in the prefeeding period of marine invertebrate larvae. For lecithotrophic species, this means that the entire development period should be correlated with egg size. Despite the importance of this assumption, it has not been tested at the appropriate scale-within species. We investigated the effects of egg size on development time for three lecithotrophic species from two phyla: the ascidians Phallusia obesa and Ciona intestinalis, and the echinoid Heliocidaris erythrogramma. We found that within individual broods of eggs, larger eggs took longer than smaller eggs to develop or become metamorphically competent larvae. It has long been recognized that producing larger eggs decreases fecundity, but our results show that increasing egg size also carries the extra cost of an extended planktonic period during which mortality can occur. The substantial variation in egg sizes observed within broods may represent a bet-hedging strategy by which offspring with variable dispersal potentials are produced.
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ISSN:0006-3185
1939-8697
DOI:10.2307/25066575