Lipid, protein, and calorie content of different Atlantic and Mediterranean fish, shellfish, and molluscs commonly eaten in the south of Spain
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We undertook a systematic evaluation of the lipid, protein, calorie, and fatty acid composition in 35 species of fish, shellfish and molluscs commonly consumed throughout the four seasons of the year in Andalusia, Spain. Using a portion of muscle tissue the following were measured in each study unit: total lipids (extraction using Folch's method and gravimetry), protein concentration (Kjehldal's method), total calories (direct calorimetry), and composition of fatty acids (gas chromatography). The lipid, protein, and different fatty acid concentrations found are presented in table form. There was a high degree of inter-species variability in the concentration of lipids and the various fatty acids. There was also a high degree of intra-species seasonal variability in some cases. The relative proportion of fatty acids was not independent of the total concentration of lipids, independently of the season studied. This systematic study of a large group of species shows that the cataloguing of fish as ‘white’ or ‘blue’ depends especially on the time of year they are captured. For example, in spring the mackerel (Scomber scombrus), a fish considered traditionally to be ‘blue’ (fatty), has the same lipid concentration as the dover sole (Solea vulgaris), commonly considered to be ‘white’ (little fat), and the sea pike (Merluccius merluccius) has a higher lipid concentration in autumn than the jack mackerel (Trachurus trachurus). Even greater differences existed when the fish were classified according to their richness in n-3 fatty acids. These differences in the total lipid concentration and the composition of fatty acids, as well as the inter-relations between them, may, under certain circumstances, be important for the calculation of dietary calories and nutritional values, and may explain the differences found between the various tables of food composition, as well as the divergent results in epidemiological studies on the association between fish in diets and various diseases, such as diabetes or ischaemic cardiopathy.
- Moffat CF, McGill AS. Variability of the composition of fish oils: Significance for the diet. Proc Nutr Soc 1993; 52: 441–456.
- Kinsella JE, Shimp JL, Mai J, Weihrauch J. Food components with potential therapeutic benefits: The n-3 PUFAs of fish oils. J AOCS 1977; 54: 424–429.
- Gunstone FD, Wijesundera RC, Scrimjeour CM. The production and use of fish oil. J Sci Fd Agric 1978; 29: 539–550.
- Bang HO, Dyerberg J., Nielsen AB. Plasma lipid and lipoprotein pattern in Greenland West Coast Eskimos. Lancet 1971 (i): 143–146.
- Ministerio de Agricultura Pesca y Alimentación. Secretaría General de Alimentación (Informe). La alimentación en España, 1992. (Madrid: Ministerio de Agricultura Pesca y Alimentación, Secretaría General Técnica, 1993.)
- Flaten H, Hotsmark A, Kierulf P. Fish oil concentrate: Effects on variables related to cardiovascular disease. Am J Clin Nutr 1990; 52: 300–306.
- Kromann N, Green A. Epidemiological studies in Upernavik District, Greenland. Acta Med Scand 1980; 208: 401–406.
- Vollset SE, Heuch I, Bjelke E. Fish consumption and mortality from CHD. New Engl J Med 1985; 313: 820–821.
- Bonaa KH, Bjerve KS, Nordoy A. Habitual fish consumption, plasma phospholipids fatty acids, and serum lipids: The Trømso Study. Am J Clin Nutr 1992; 55: 1126–1134.
- Kestin M, Clifton P, Belling N, Nestel P. n-3 fatty acids of marine origin lower systolic blood pressure and triglycerides but raise LDL-cholesterol compared with n-3 and n-6 fatty acids from plants. Am J Clin Nutr 1990; 51: 1028–1034.
- Walton AJ, Snaith ML, Locniskar M, Cumberland AG, Morrow WJ. Dietary fish oil and the severity of symptoms in patients with systemic lupus erythematosus. Ann Rheum Dis 1991; 50: 563–566.
- Morris MC, Taylor JO, Stampfer MJ, Rosner B, Sacks FM. The effect of fish oil on blood pressure in mild hypertensive subjects: A randomized crossover trial. Am J Clin Nutr 1993; 57: 59–64.
- Bittiner SB, Tucker WFG, Bleehen SS. Fish oil in psoriasis: A double-blind randomized placebo-controlled trial. Br J Dermatol 1987; 118: 25–26.
- Singer P, Wirth M, Berer I. Influence on serum lipids, lipoprotein and blood pressure of mackerel and herring diets in patients with type IV and V hyperlipoproteinemia. Atherosclerosis 1985; 56: 111–118.
- Hawthorne AB, Daneshmend TK, Hawkwy CJ, Belluzzi A, Everitt SJ. Treatment of ulcerative colitis with fish oil supplementation: A prospective 12 month randomized controlled trial. Gut 1992; 33: 922–928.
- Karmali RA. Omega-3 FA and cancer: a review. In: Lands WEM (ed), Polyunsaturated fatty acids and eicosanoids. Champagne: AOCS, 1987: 22–33.
- Morris MC, Manson JE, Rosner B, Buring JE, Willet WC, Hennekens ChH. Fish consumption and cardiovascular disease in the physicians' health study: A prospective study. Am J Epidemiol 1995; 142: 166–175.
- Fogerty AC, Evans AJ, Ford GL, Kenneth BH. Distribution of n-3 and n-6 fatty acids in lipid classes in Australian fish. Nutr Reports Int 1986; 33(5): 777–786.
- Vlieg P, Body DR. Lipid contents and fatty acids composition of some New Zealand freshwater finfish and marine finfish, shellfish, and roes. NZ J Mar Freshw Res 1988; 22: 151–162.
- Gibson RA. Australian fish: An excellent source of both arachidonic acid and n-3 PUFAs. Lipids 1989; 18(11): 743–752.
- Folch J, Lees M, Sloane-Stanley GM. A simple method for the isolation and purification of total lipids from animal tissues. J Biol Chem 1957; 226: 497–509.
- Ministerio de Sanidad y Consumo. Informes Técnicos de la Comisión Interministerial para la Ordenación Alimentaria. Reglamentaciones Técnico Sanitaria. Normas Generales de Calidad, Vol. 4. Madrid: Pescados y derivados, Centro de Publicaciones del Ministerio de Sanidad y Consumo, 1986.
- Paul AA, Southgate DAT. In: Mc Cauce A, Widdowsons F (eds), The composition of foods. London: HMSO, 1988: 16–17.
- Ackman RG, Ratnayake WM, Olsson B. The basic fatty acid composition of Atlantic fish oils: Potential similarities useful for enrichment of PUFA by urea complexation. J AOCS 1988; 65(1): 136–138.
- Moffat CF, McGill AS, Hardy R, Andersson RS. The production of fish oil enriched in polyunsaturated fatty acid containing triglycerides. J AOCS 1993; 70: 133–138.
- Kagawa Y, Nishizawa M, Suzuki M, et al. Eicosapolyenoic acid of serum lipids of Japanese islanders with low incidence of CVD. J Nutr Sci 1982; 28: 441–453.
- Simonsen T, Vartun A, Lyngmo V, Nordoy A. Coronary heart disease, serum lipids, hyperlipidemia and dietary fish in two communities in Northern Norway. Acta Med Scand 1987; 222: 237–245.
- Sasaki S, Ota T, Takagi T. Composition of fatty acids in the lipids of masu salmon and pink salmon, and latter canned flesh. Bull Japan Soc Sci Fish 1989; 55(9): 1655–1660.
- Ostrowski AC, Divakaran S. The aminoacid and fatty acid composition of selected tissues of the dolphin fish (Coryphaena hippurus) and their nutritional implications. Aquaculture 1989; 80: 285–299.
- Bang HO, Dyerberg J. The bleeding tendency in Greenland Eskimos. Dan Med Bull 1980; 27: 202–205.
- Norrobin MF, Olsen RE, Tande KS. Seasonal variation in lipid class and fatty acid composition of two small copepods in Balsfjorden, northern Norway. Mar Biol 1990; 105: 205–211.
- Hardy R, Keay JN. Seasonal variations in the chemical compositions of Cornish mackerel (Scomber scombrus L.), with detailed reference to the lipids. J Fd Tech 1972; 7: 125–237.
- Nichols PD, Holdsworth DG, Volkman JK, Daintith M, Allanson S. High incorporation of essential fatty acids by the rotifer Brachionus plicatilis fed on the prymnesiophyte alga Pavlova lutheri. Austr J Mar Freshwater Res 1989; 40: 645–655.
- Muje P, Agren JJ, Lindqvist AV, Hanninen O. Fatty acid composition of Vendace (Coregonus Albula L.) muscle and its plankton feed. Comp Biochem Physiol 1989; 92B(1): 75–79.
- FAO/WHO. Dietary fats and oil in human nutrition. Paper 3. Genève, Switzerland: Food and Agriculture Organization, World Health Organization, 1977.
- Dolecek TA, Grandits G. Dietary polyunsaturated fatty acids and mortality in the Multiple Risk Factors Intervention Trial (MRFIT). In: Simopoulos AP, Kieffer RR, Martin RE, Barlow SM (eds), Health effects of the omega-3 polyunsaturated fatty acids in seafoods. World Rev Nutr Diet 1991; 26: 205–216
- Sanders TAB, Naismith DJ. Conflicting roles of polyunsaturated fatty acids. Lancet 1980; 22: 654–655.
- Singer P, Jaeger W, Wirth M. Lipid and blood pressure lowering effect of mackerel diet in man. Atherosclerosis 1983; 49: 99–108.
- Singer P, Berger I, Luck K, Taube C, Naumann E, Godick W. Long-term effect of mackerel diet on blood pressure, serum lipids and thromboxane formation in patients with mild essential hypertension. Atherosclerosis 1986; 62: 259–265.
- Lipid, protein, and calorie content of different Atlantic and Mediterranean fish, shellfish, and molluscs commonly eaten in the south of Spain
European Journal of Epidemiology
Volume 13, Issue 4 , pp 451-463
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- Kluwer Academic Publishers
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- Fatty acids
- Fish oil
- Industry Sectors
- Author Affiliations
- 1. Endocrinology, Metabolism and Nutrition Service, Hospital Regional Carlos Haya, Malaga, Spain
- 2. Pharmacy Service, Hospital Regional Carlos Haya, Malaga, Spain
- 3. Faculty of Marine Sciences, Cadiz University, Spain
- 4. Official College of Pharmacology Laboratory, Malaga, Spain