A review of existing eastern oyster filtration rate models

•We compared three models for calculation of eastern oyster filtration.•Both maximum filtration rates and limitation factors were assessed.•A new individual-based model was generated from the assessment.•The maximum filtration rate was set at 0.17m3g−1DWday−1 for a 1gDW oyster. Crassostrea virginica...

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Bibliographic Details
Published in:Ecological modelling 2015-02, Vol.297, p.201-212
Main Authors: Ehrich, Melinda K., Harris, Lora A.
Format: Article
Language:English
Subjects:
Eastern oyster
Filtration rate
Individual-based
Model comparison
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Summary:•We compared three models for calculation of eastern oyster filtration.•Both maximum filtration rates and limitation factors were assessed.•A new individual-based model was generated from the assessment.•The maximum filtration rate was set at 0.17m3g−1DWday−1 for a 1gDW oyster. Crassostrea virginica, the eastern oyster, is a suspension-feeding bivalve currently at low numbers in Chesapeake Bay, where it was once abundant. Accurately describing the filtration rate of these bivalves is essential to estuarine management and associated efforts to understand the impact of oyster populations on water quality. Here, the filtration rate equations for three existing models (Cerco and Noel, 2005; Fulford et al., 2007; Powell et al., 1992) are reviewed. We examine how each of the models define the maximum filtration rate and explore the various limitation factors that modify these maximum rates via environmental conditions that include salinity, temperature, and total suspended solids. Based on the individual model strengths assessed with a model comparison and literature review, we determine a maximum filtration rate of 0.17 (±0.07)m3g−1DWday−1 for a 1g DW oyster to describe this rate process, which is then modified by a combination of limitation factors taken from a variety of sources. These include those described by Fulford et al. (2007) for total suspended solids and salinity, and a newly developed function to describe temperature dependence. Differences in size are incorporated by using a basic allometric formulation where a weight exponent alters filtration rate based on individual oyster size.
ISSN:0304-3800
1872-7026
DOI:10.1016/j.ecolmodel.2014.11.023