Abstract
The chemical composition of the white and red lateral muscles of the clupeid fish Harengula humeralis (Cuvier) was investigated; water, protein, nonproteic nitrogen, lipid and glycogen content were determined. Comparison was made with the liver in regard to lipids and glycogen. Fractionated protein extractions were performed, with a view to separate sarcoplasmic, myofibrillar and stroma proteins. The following results were obtained: the red muscle contains less water, more glycogen and more lipids than the white muscle; the lipid content of the former is approximately the same as that of the liver and the glycogen content is greater per unit of tissue mass; the total glycogen content of the red muscle tissue is about 12 times greater than that of the liver (based on literature data, a correlation is established in this respect with the ecology of different fish species); the red muscle contains significantly more sarcoplasmic proteins than the white one. The conclusion is drawn that the lateral red muscle is the main storage tissue for energy reserves of the musculature in pelagic fishes, and that its main role in the organism is a metabolic one. Attempts were made to record action potentials from the 2 muscles, but the true origin of those recorded from the red muscle was not clear.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Literature cited
Bone, Q.: On the function of the two types of myotomal muscle fibre in elasmobranch fish. J. mar. biol. Ass. U.K. 46, 321–349 (1966).
Braekkan, O. R.: Function of the red muscle in fish. Nature, Lond. 178, 747–748 (1956).
—: A comparative study of vitamins in the trunk muscles of fishes. Rep. technol. Res. Norw. Fish. Ind. 3 (8), 1–42 (1959).
Hamoir, G.: Belki ryb. In: Biohimija ryb, pp 15–38. Moskwa: Izdat. inostrannoi liter (1953).
—: Fish proteins. Adv. Protein Chem. 10, 227–288 (1959).
Hegarty, G. R., L. J. Bratzler and A. M. Pearson: The relationship of some intracellular protein characteristics to beef muscle tenderness. J. Food Sci. (Fd Res.) 28, 525–530 (1963).
Montgomery, R.: The determination of glycogen. Archs Biochem. Biophys. 67, 378–386 (1957).
Wittenberger, C.: On the function of the lateral red muscle of teleost fishes. Revue roum. Biol. (Sér. Zool.) 12, 139–144 (1967).
—: Alterations of the carbohydrate metabolism in trout, induced by effort and hypoxia. Revue roum. Biol. (Sér. Zool.) 13, 131–137 (1968a).
—: Biologie du chinchard de la Mer Noire (Trachurus mediterraneus ponticus). XV. Recherches sur le métabolisme d'effort chez Trachurus et Gobius. Mar. Biol. 2, 1–4 (1968b).
— and I. Oros: Cercetări asupra fiziologiei muschiului striat la teleosteeni. V. Contribuţii la studiul muşchilor laterali la cîţiva peşti marini. Studii Cerc. Biol. Cluj 12, 333–341 (1961).
Author information
Authors and Affiliations
Additional information
Communicated by E. A. Pora, Cluj
Rights and permissions
About this article
Cite this article
Wittenberger, C., Coro, A., Suárez, G. et al. Composition and bioelectrical activity of the lateral muscles in Harengula humeralis . Marine Biology 3, 24–27 (1969). https://doi.org/10.1007/BF00355590
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00355590