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Choi KS, Powell EN, Lewis DH, et al. Instantaneous Reproductive Effort in Female American Oysters, Crassostrea virginica, Measured by a New Immunoprecipitation Assay. Biol Bull. 1994;186(1):41-61doi: 10.2307/1542035.
Choi, K. S., Powell, E. N., Lewis, D. H., & Ray, S. M. (1994). Instantaneous Reproductive Effort in Female American Oysters, Crassostrea virginica, Measured by a New Immunoprecipitation Assay. The Biological bulletin, 186(1), 41-61. https://doi.org/10.2307/1542035
Choi, K S, et al. "Instantaneous Reproductive Effort in Female American Oysters, Crassostrea virginica, Measured by a New Immunoprecipitation Assay." The Biological bulletin vol. 186,1 (1994): 41-61. doi: https://doi.org/10.2307/1542035
Choi KS, Powell EN, Lewis DH, Ray SM. Instantaneous Reproductive Effort in Female American Oysters, Crassostrea virginica, Measured by a New Immunoprecipitation Assay. Biol Bull. 1994 Feb;186(1):41-61. doi: 10.2307/1542035. PMID: 29283295.
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Biol Bull. 1994 Feb;186(1):41-61. doi: 10.2307/1542035.

Instantaneous Reproductive Effort in Female American Oysters, Crassostrea virginica, Measured by a New Immunoprecipitation Assay.

The Biological bulletin

K S Choi, E N Powell, D H Lewis, S M Ray

PMID: 29283295 DOI: 10.2307/1542035

Abstract

An immunoprecipitation assay was developed for measuring instantaneous reproductive effort in female American oysters, Crassostrea virginica. Oysters were injected with 14C-leucine and incubated in situ for 1 to 30 h periodically throughout the annual gametogenic cycle. Gonadal protein labeled with 14C-leucine was precipitated from an oyster homogenate with rabbit anti-oyster egg IgG as the primary antibody. Antibody-oyster egg protein complex was further purified by immunoadsorption with staphylococcal protein A cell suspension. The quantity of oyster eggs was determined by single-ring immunodiffusion. A mathematical model was developed to calculate the instantaneous reproductive rate of oysters and to estimate the number of days required from the initiation of gonadal development to spawning. The oyster population was lightly to moderately infected with a protozoan parasite, Perkinsus marinus. A negative correlation between the intensity of infection and the rate of gonadal production suggests that P. marinus retards the rate of gamete development. The seasonal cycle of gamete production determined by direct measurements of egg protein production was not equivalent to that determined by standard gonadal-somatic index (GSI), except at the most basic level. GSI was highest during the spring spawning peak, but the rate of gamete production was highest in the fall. Accordingly, the two measurements, rate versus standing crop (volume of gonad), reveal a substantially different picture about the details of the spawning season. Estimates of the time required to reach spawning condition ranged from several weeks to 1 or 2 months; these values agree with published estimates derived from less direct methods. Direct rate measurements thus seem to accurately reflect the true rate at which gametic tissue is produced in the field. A positive correlation between oyster size and the estimated days to spawn suggests that larger oysters require longer to prepare to spawn. Furthermore, the range in observed somatic and gametic growth emphasizes the conservatism of somatic growth and the volatility of gonadal growth that is borne out by the results of population dynamics models of oysters.

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