Growth of cockles (Cerastoderma edule) in the Oosterschelde described by a Dynamic Energy Budget model
Authored by Johannes W M Wijsman, Aad C Smaal
Date Published: 2011
DOI: 10.1016/j.seares.2011.09.007
Sponsors:
Dutch Ministries
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
A Dynamic Energy Budget (DEB) model for cockles is presented and
calibrated using detailed data on cockle growth and water quality in the
Oosterschelde. Cockles in the intertidal areas of the Oosterschelde have
an important function as a food source for wading birds and as such for
the natural values of the ecosystem. In the presented model, special
attention is paid to the formulation and parameter estimation of the
functional response. With this functional response, the food quantity
and quality variables such as Chlorophyll-a, POM, POC and TPM are
translated into food ingestion rate for the cockles. The calibration of
the specific parameters included in this functional response is done
using a detailed, long term dataset (1992-2007) of cockle growth in the
Oosterschelde estuary. This dataset gives a good overview of the
development of the cockle population in relation to the environmental
conditions (food availability and ambient temperature). The DEB model
was able to describe the spatial variation in cockle growth in the
Oosterschelde as a function of environmental conditions and the
parameters of the functional response. Both the data and the model show
that growth performance of cockles is highest in the western and central
part of the Oosterschelde due to the higher concentrations of
Chlorophyll-a, which is an important food source for cockles. The model
failed to describe the large variation in ash-free dry weight during the
season. It is tested whether this is caused by aggregating the data by
running the model for the full life cycle of year class 2001 at a
specific location in the western part of the Oosterschelde. Finally, the
model simulations have been compared to growth simulations obtained with
an existing ecophysiological model for cockles in the Oosterschelde, the
COCO model, with identical forcing. The COCO model showed higher growth
in terms of shell length compared to the DEB model and the field
observations. (C) 2011 Elsevier B.V. All rights reserved.
Tags
individual-based models
Culture
Stock
Estuary
Shellfish
Marine
Crassostrea-gigas
Sw netherlands
Pacific
oyster
Mussels