R. G. Ackman and C. S. Tocher, Marine phytoplankter fatty acids, J Fish Res Board Can, vol.448, pp.1603-1620, 1968.

G. Mourente and J. R. Dick, Influence of partial substitution of dietary fish oil by vegetable 594 oils on the metabolism of, Fish Physiol Biochem, vol.18, pp.297-308, 2002.

G. Mourente, J. R. Dick, J. G. Bell, and D. R. Tocher, Effect of partial substitution of dietary fish 597 oil by vegetable oils on desaturation and beta-oxidation of, vol.18, p.599, 2005.

, L.). Aquaculture, vol.248, pp.173-186

W. K. Ng, P. K. Lim, and P. L. Boey, Dietary lipid and palm oil source affects growth, fatty acid 601 composition and muscle ?-tocopherol concentration of African catfish, 2003.

, Aquaculture, vol.215, pp.229-243

C. C. Parrish, Lipids in marine ecosystems, ISRN Oceanogr, 2013.

J. Person-le-ruyet, K. Mahé, L. Bayon, N. , L. Delliou et al., Effects of temperature on 605 growth and metabolism in a Mediterranean population of European sea bass, Dicentrarchus 606 labrax, Aquaculture, vol.237, pp.269-280, 2004.

A. Pettersson, L. Johnsson, E. Brannas, and J. Pickova, Effects of rapeseed oil replacement in 608 fish feed on lipid composition and self-selection by rainbow trout (Oncorhynchus mykiss), 2009.

, Aquacult Nutr, vol.15, pp.577-586

C. Regost, J. Arzel, J. Robin, G. Roselund, and S. J. Kaushik, Total replacement of fish oil by 611 soybean or linseed oil with return to fish oil in turbot (Psetta maxima) 1. Growth 612 performance, flesh fatty acid profile, and lipid metabolism, Aquaculture, vol.217, pp.465-482, 2003.

P. C. Reid, A. C. Fischer, E. Lewis-brown, M. P. Meredith, M. Sparrow et al., , p.614

U. Bathmann, G. Beaugrand, H. Brix, S. Dye, M. Edwards et al., , p.615

R. R. Hopcroft, M. Kendall, S. Kasten, R. Keeling, L. Quéré et al., , p.616

C. Mauritzen, J. Ólafsson, C. Paull, E. Rignot, K. Shimada et al., , p.617

R. Washington, Impacts of the oceans on climate change, Adv Mar Biol, vol.56, pp.1-150, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00480740

S. M. Renaud, L. V. Thinh, G. Lambrinidis, and D. L. Parry, Effect of temperature on growth, 619 chemical composition and fatty acid composition of tropical Australian microalgae grown in 620 batch cultures, Aquaculture, vol.211, pp.195-214, 2002.

W. E. Ricker, Growth rates and models, Fish 622 physiology, vol.8, pp.677-743, 1979.

A. D. Rijnsdorp and P. I. Van-leeuwen, Changes in growth of North Sea plaice since 1950 in 624 relation to density, eutrophication, beam-trawl effort, and temperature, ICES J Mar Sci, vol.625, pp.1199-1213, 1996.

A. D. Rijnsdorp, M. A. Peck, G. H. Engelhard, C. Möllmann, and J. K. Pinnegar, Resolving the 627 effect of climate change on fish populations, ICES J Mar Sci, vol.66, pp.1570-1583, 2009.

M. Sanden, I. Stubhaug, M. Berntssen, Ø. Lie, and B. E. Torstensen, Atlantic salmon 629 (Salmo salar L.) as a net producer of long-chain marine ?-3 fatty acids, J Agri Food Chem, vol.630, pp.12697-12706, 2011.

J. R. Sargent, The structure, metabolism and function of lipids in marine organisms, 1976.

, Biochemical and Biophysical Perspectives, vol.633

J. R. Sargent, D. R. Tocher, and J. G. Bell, , 2002.

K. Schmidt-nielsen, Scaling: Why is animal size so important? Cambridge University 637, 1984.

M. Sinensky, Homeoviscous adaptation -a homeostatic process that regulates the 639 viscosity of membrane lipids in Escherichia coli, PNAS, vol.71, pp.522-525, 1974.

A. Skalli and J. H. Robin, Requirement of n-3 long chain polyunsaturated fatty acids for 641, 2004.

, European sea bass (Dicentrarchus labrax) juveniles: growth and fatty acid composition

, Aquaculture, vol.240, pp.399-415

D. R. Tocher, X. Zheng, S. Christian, N. Hastings, J. R. Dick et al., Highly unsaturated 669 fatty acid synthesis in marine fish: Cloning, functional characterization, and nutritional 670 regulation of fatty acyl ?6 desaturase of Atlantic cod (Gadus morhua L.), Lipids, vol.41, pp.1003-671, 2006.

S. Torrecillas, D. Mompel, M. J. Caballero, D. Montero, D. Merrifield et al., , p.673

M. J. Zamorano, V. Karalazos, S. Kaushik, and M. Izquierdo, Effect of fishmeal and fish oil 674 replacement by vegetable meals and oils on gut health of European sea bass (Dicentrarchus 675 labrax), Aquaculture, vol.468, pp.386-398, 2017.

B. E. Torstensen, Transport and metabolism of lipids in Atlantic salmon Salmo salar L, 2000.

, Thesis for the degree of doctor Scientiarum, pp.5-43

B. E. Torstensen, J. G. Bell, G. Rosenlund, R. J. Henderson, I. E. Graff et al., , p.679

, Tailoring of Atlantic salmon (Salmo salar L.) flesh lipid composition and sensory 680 quality by replacing fish oil with a vegetable oil blend, J Agri Food Chem, vol.53, pp.10166-10178, 2005.

N. Wasmund, G. Nausch, and W. Matthäus, Phytoplankton spring blooms in the southern 682, 1998.

, Baltic Sea -spatio-temporal development and long-term trends, J Plankton Res, vol.20, pp.1099-683

E. R. Weibel, Symmorphosis and optimization of biological design: introduction and 685 questions, Principles of animal design, pp.1-10, 1998.

A. C. Wittmann and H. O. Pörtner, Sensitivities of extant animal taxa to ocean acidification, 2013.

, Nat Clim Change, vol.3, pp.995-1001

M. Yildiz and E. Sener, Effect of dietary supplementation with soybean oil, sunflower oil or 690 fish oil on the growth of seabass (Dicentrarchus labrax L. 1758), Cah Options Mediterr, vol.691, pp.225-233, 1997.

, Effect of temperature and diet on muscle fatty acid (FA) profiles. Values are given as, vol.3

, LD: low n-3 polyunsaturated FA (PUFA) diet, RD: reference n-3 PUFA 705 diet. When factor interactions were significant, groups were compared with a posteriori tests 706 (? = 0.05). For temperature × diet interactions, significantly different groups were assigned 707 different letters, % of dry matter (DM) in the neutral and polar lipid fractions at A) 720 degree-days and B), vol.704, pp.6-9

. ?n-6, , vol.18, pp.4-6

, ?SFA (saturated FA) includes, vol.709, pp.4-7

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