Pour en savoir plus sur la théorie DEB appliquée aux mollusques marins, consultez le cours préparé par S. Pouvreau (Ifremer) : « Ecophysiologie des mollusques marins : bilan énergétique & modélisation biologique ».
 

Liste des références citées :

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[2]    Piersma, T., Drent, J. 2003. Phenotypic flexibility and the evolution of organismal design. Trens Ecol. Evol. 18 : 228-233.

[3]    Bacher C. 1989. Capacité trophique du bassin de Marennes-Oléron : couplage d'un modèle de transport particulaire et d'un modèle de croissance de l'huître Crassostrea gigas. Aquat. Living Resour. 2: 199-214.

[4]   Barillé L., Héral M., Barillé-Boyer A.-L., 1997. Ecophysiological deterministic model for Crassostrea gigas in an estuarine environment. Aquat. Living Resour. 10: 31–48.

[5]   Pouvreau S., Bacher C., Héral M. 2000. Ecophysiological model of growth and reproduction of the black pearl oyster, Pinctada margaritifera: potential applications for pearl farming in French Polynesia. Aquaculture 186: 117-144.

[6]  Ren J.S., Ross A.H., 2001. A dynamic energy budget model of the Pacific oyster Crassostrea gigas. Ecol. Model. 142: 105–120.

[7]  Kooijman S.A.L.M. 2000. Dynamic energy and mass budgets in biological systems. Cambridge University Press, Cambridge.

[8]  Brown, J. R., et al. (2004). Toward a metabolic theory of ecology. Ecology 85(7): 1771 1789.

[9]  Van der Meer, J. 2006. Metabolic theories in ecology. Trends in Ecology and Evolution, 21(3) : 136-140.

[10] Bacher, C., Gangnery, A. 2006. Use of dynamic energy budget and individual based models to simulate the population dynamics of cultivated oyster population. J. Sea Res. 56 (2) : 140-155.

[11] Geritz S.A.H., Kisdi E., Meszéna G., Metz J.A.J. 1998. Evolutionary singular strategies and the adaptive growth and branching of the evolutionary tree. Evol. Ecol. 12: 35–37.