FN Archimer Export Format
PT C
TI Individual mussel growth model using DEB (Dynamic Energy Budget) theory: revisiting the DEB parameter values for Mytilus edulis
BT 
AF FLYE SAINTE MARIE, Jonathan
   ALUNNO-BRUSCIA, Marianne
   GANGNERY, Aline
   RANNOU, Eric
   ROSLAND, Rune
   STRAND, Øivind
AS 1:1;2:1;3:2;4:3;5:4;6:5;
FF 1:;2:PDG-RBE-PFOM-PI;3:PDG-ODE-LER-LERN;4:;5:;6:;
C1 Ifremer,PFOM/PI, 11 Presqu’île du Vivier, 29840 Argenton-en-Landunvez, France
   Ifremer, LERN, 14520 Port en Bessin, France
   Laboratoire de Mathématiques UMR 6205, Université de Bretagne Occidentale, 6 Avenue Le Gorgeu, 29238 Brest, France
   Department of Biology, University of Bergen, Postbox 7800, 5020 Bergen, Norway
   Institute of Marine Research, Postbox 1870 Nordnes, 5817 Bergen, Norway
C2 IFREMER, FRANCE
   IFREMER, FRANCE
   UBO, FRANCE
   UNIV BERGEN, NORWAY
   INST MAR RES, NORWAY
SI ARGENTON
   PORT-EN-BESSIN
SE PDG-RBE-PFOM-PI
   PDG-ODE-LER-LERN
UR https://archimer.ifremer.fr/doc/00032/14368/11658.pdf
LA English
DT Poster
AB Mussel aquaculture is well developed in various ecosystems of temperate waters. In the aim of developing predictive tools for management of mussel aquaculture, a better understanding of relationships between the environmental conditions and mussel growth is necessary. For this purpose, development of bioenergetic models, linking environmental variables (especially food resource and temperature) and mussel growth and reproduction, are of a particular interest. Dynamic Energy Budget (DEB) theory offers a general framework to study energy flows in organisms, from assimilation to use for maintenance, growth and reproduction. This theory is appropriate for growth modelling of marine organisms and have first been applied in 1993 to model mussel growth. Nevertheless, the different studies that applied DEB theory on the mussel Mytilus edulis lead to different parameter values though based on the same equations. In this context, our work aims to refine parameters estimation of the DEB model for M. edulis in order to obtain a generic parameter set, i.e. which allows modelling mussel growth and reproduction in various environments. For this purpose, methods which have been developed recently for parameter estimation have been applied using data from the literature. New parameter estimates are compared to previously obtained values and are validated by simulating mussel growth and reproduction in various environments.
PY 2009
ID 14368
ER

EF