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Growth dynamics of a ctenophore (Mnemiopsis) in relation to variable food supply: II. Carbon budgets and growth model
Kremer, P.; Reeve, M.R. (1989). Growth dynamics of a ctenophore (Mnemiopsis) in relation to variable food supply: II. Carbon budgets and growth model. J. Plankton Res. 11(3): 553-574. http://dx.doi.org/10.1093/plankt/11.3.553
In: Journal of Plankton Research. Oxford University Press: New York,. ISSN 0142-7873; e-ISSN 1464-3774, meer
Peer reviewed article  

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Trefwoorden
    Mnemiopsis mccradyi Mayer, 1900 [WoRMS]
    Marien/Kust

Auteurs  Top 
  • Kremer, P.
  • Reeve, M.R.

Abstract
    Our goal was to test our understanding of ingestion, assimilation efficiency and metabolism for Mnemiopsis mccradyi by formulating and validating a simulation model of growth under different conditions of food availability. The model was based on a carbon budget approach using formulations derived from empirical results, including how each process was affected by food availability and ctenophore size. An experimentally measured carbon budget for pulsed food availability indicated that, relative to total ingestion, growth was high (17–48%), respiration plus organic release was relatively low (24–48%) and little (<10%) of the ingested carbon was unaccounted for. New laboratory investigations of feeding and assimilation efficiency were necessary to refine the formulations so that model predictions compared favorably with a variety of laboratory measurements of growth, and growth efficiency, as well as the complete experimentally measured carbon budget. The refined model predicted a high ratio of growth to metabolism (>2) and a high gross growth efficiency (>30%) for smaller ctenophores at high food concentrations (>20 prey l-1). Both growth rates and growth efficiencies were predicted to decrease for larger ctenophores. Model predictions were generally consistent with experimental results, including investigations using pulsed food availability to simulate environmental patchiness. Although the model underpredicted ctenophore growth in some experiments at low food densities, the model prediction of a minimum prey concentration of about 8 l-1 (24 µg C l-1) for sustaining a ctenophore population of reproductive size agreed with field observations.

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