B. Rojas-de-mendiola, Seasonal phytoplankton distribution along the Peruvian coast, Coast. Estuar. Sci, vol.1, pp.348-356, 1981.

H. Schunck, G. Lavik, D. K. Desai, T. Grosskopf, T. Kalvelage et al., , p.366

M. Pels, P. Rosenstiel, M. B. Schilhabel, M. Graco, R. A. Schmitz et al., , vol.367, 2013.

, Sulfide Plume in the Oxygen Minimum Zone off Peru Supports Chemolithoautotrophy, PLoS One, vol.8, issue.8, p.68661

T. Sousa, T. Domingos, J. Poggiale, and S. A. Kooijman, Dynamic energy budget theory restores coherence in 369 biology, Philosophical Transactions of the Royal Society of, vol.365, pp.3413-3428, 1557.

W. Stotz and S. Gonzalez, Abundance, growth, and production of the sea scallop argopecten purpuratus ( lamarck 1819): bases 371 for sustainable exploitation ef natural scallop beds in north-central chile, Fish. Res, vol.32, pp.173-183, 1997.

Y. Thomas, J. Flye-sainte-marie, D. Chabot, A. Aguirre-velarde, L. et al., Effects of hypoxia on metabolic functions in 373 marine organisms: observed patterns and modelling assumptions within the, 2018.

, J. Sea Res

Y. Thomas, J. Mazurié, M. Alunno-bruscia, C. Bacher, J. F. Bouget et al., Modelling 376 spatio-temporal variability of Mytilus edulis (L.) growth by forcing a dynamic energy budget model with satellite-derived 377 environmental data, J. Sea Res, vol.66, issue.4, pp.308-317, 2011.

W. Wang and J. Widdows, Calorimetric studies on the energy metabolism of an infaunal bivalve, abra tenuis, under normoxia, 379 hypoxia and anoxia, Marine Biology, vol.116, issue.1, pp.73-79, 1993.

R. I. Willows, Optimal digestive investment: A model for filter feeders experiencing variable diets, Limnol. Oceanogr, vol.381, issue.4, pp.829-847, 1992.

M. Wolff, Population dynamics of the peruvian scallop Argopecten purpuratus during the El Niño phenomenon of, 1983.

, Can. J. Fish. Aquat. Sci, vol.44, pp.1684-1691