Summary
Effects of diurnal variation in ambient oxygen tension on acid-base balance and blood respiratory properties were investigated in carp (Cyprinus carpio). The carp were subjected to two cycles in ambient\(P_{O_2 }\) between about 130 mm Hg and about 12 mm Hg at 17°C (cf. Figs. 1 and 2). The first period of hypoxia was characterized by a non-compensated respiratory alkalosis, i.e. whole blood showed an increase in pH from 7.92 to 8.14. During the second hypoxic period, 24 h later, a significantly smaller respiratory alkalosis was present, whole blood pH changed from 7.95 (the value found during the intermediate return to normoxia) to 8.08. The latter increase was associated with a significant increase of 25% in plasma bicarbonate concentration compared with the first period of hypoxia (Fig. 1, Table 1). The erythrocytic concentrations of hemoglobin and ATP were lowered by about 10%, compared with the normoxic values, during the two episodes of hypoxia, and this was due to a swelling of the erythrocytes during hypoxia. The red cell GTP concentration showed an altogether different change during the O2 cycling: the absolute concentration of red cell GTP changed to a steady level, 50% below that present at the onset of the experiment and the major part of this change took place between the two hypoxic periods (Fig. 2, Table 2).
The results are discussed with reference to the respiratory function of the blood of carps during subjection to cyclic\(P_{O_2 }\) changes in nature.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Antonini, E., Brunori, M.: Hemoglobin and myoglobin in their reaction with ligands. In: Frontiers of biology. Antonini, E., Brunori, M. (eds.), p. 436. Amsterdam-London: North-Holland 1971
Benesch, R.E., Benesch, R., Yu, C.I.: The oxygenation of hemoglobin in the presence of 2,3-diphosphoglycerate. Effect of temperature, pH, ionic strength and hemoglobin concentration. Biochemistry8, 2567–2571 (1969)
Blazka, P.: The anaerobic metabolism of fish. Physiol. Zool.31, 117–128 (1958)
Driedzic, Wm.R., Hochachka, P.W.: The unanswered question of high anaerobic capabilities of carp white muscle. Can. J. Zool.53, 706–712 (1975)
Duhm, J.: Effects of 2,3-diphosphoglycerate and other organic phosphate compounds on oxygen affinity and intracellular pH of human erythrocytes. Pflügers Arch.326, 341–356 (1971)
Duhm, J.: Dual effect of 2,3-diphosphoglycerate on the Bohr effects of human blood. Pflügers Arch.363, 55–60 (1976)
Ferguson, J.R.W., Black, E.C.: The transport of CO2 in the blood of certain freshwater fishes. Biol. Bull.80, 139–152 (1941)
Forster, R.E.: The effect of dilution in saline on the oxygen affinity of human hemoglobin. Proc. A. Benzon Symp. IV, pp. 162–165. Copenhagen: Munksgaard 1972a
Forster, R.E.: Interaction of CO2 and O2 exchange in red blood cells. Proc. A. Benzon Symp. IV, pp. 494–507. Copenhagen: Munksgaard 1972b
Forster, R.E., Crandall, E.D.: Time course of exchange between red cells and extracellular fluid during CO2 uptake. J. Appl. Physiol.38, 710–718 (1975)
Halperin, M.L., Connors, H.P., Relman, A.S., Karnovsky, M.L.: Factors that control the effect of pH on glycolysis in leukocytes. J. Biol. Chem.244, 384–390 (1969)
Johansen, K., Lykkeboe, G., Weber, R.E., Maloiy, G.M.O.: Respiratory properties of blood in awake and estivating lungfish,Protopterus amphibius. Respir. Physiol.27, 335–345 (1976)
Kilmartin, J.V., Rossi-Bernardi, L.: Interaction of hemoglobin with hydrogen ions, carbon dioxide and organic phosphates. Physiol. Rev.53, 836–890 (1973)
Krogh, A., Leitch, I.: The respiratory function of blood in fishes. J. Physiol. (Lond.)52, 288–300 (1919)
Lomholt, J.P., Johansen, K.: Hypoxia acclimination in carps. How it affects O2 uptake, ventilation and O2 extraction from water. Physiol. Zool. (in press) (1979)
Mangum, C.P., Lykkeboe, G., Johansen, K.: Oxygen uptake and the role of hemoglobin in the East African swampwormAlma emini. Comp. Biochem. Physiol.52A, 477–482 (1975)
Rahn, H.: Aquatic gas exchange: theory. Respir. Physiol.1, 1–12 (1966)
Rahn, H., Baumgardner, F.W.: Temperature and acid-base regulation in fish. Respir. Physiol.14, 171–182 (1972)
Weber, R.E., Lykkeboe, G.: Respiratory adaptations in carp blood. Influences of hypoxia, red cell organic phosphates, divalent cations and CO2 on hemoglobin-oxygen affinity. J. comp. Physiol.128, 127–137 (1978)
Weber, R.E., Lykkeboe, G., Johansen, K.: Physiological properties of eel haemoglobin: hypoxic acclimation, phosphate effects and multiplicity. J. Exp. Biol.64, 75–88 (1976)
Wittenberger, C.: Metabolic interaction between isolated white and red carp muscles. Rev. Roum. Biol. Ser. Zool.18, 71–76 (1973)
Wood, S.C., Johansen, K.: Adaptation to hypoxia by increased HbO2 affinity and decreased red cell ATP concentration. Nature, New Biol.237, 278–279 (1972)
Wood, S.C., Johansen, K.: Organic phosphate metabolism in nucleated red cells: influence of hypoxia on eel HbO2 affinity. Neth. J. Sea Res.7, 328–338 (1973)
Wood, S.C., Lykkeboe, G., Johansen, K., Weber, R.E., Maloiy, G.M.O.: Temperature acclimation in the pancake tortoise,Malacochersus tornieri: metabolic rate, blood pH, oxygen affinity and red cell organic phosphates. Comp. Biochem. Physiol.59A, 155–160 (1978)
Zaaijer, J.P., Wolvekamp, H.P.: Some experiments on the hemoglobin-oxygen equilibrium in the blood of the ramshorn (Planorbis corneus L.). Acta Physiol. Pharmacol. Neerlandica7, 56–77 (1958)
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Lykkeboe, G., Weber, R.E. Changes in the respiratory properties of the blood in the carp,Cyprinus carpio, induced by diurnal variation in ambient oxygen tension. J Comp Physiol B 128, 117–125 (1978). https://doi.org/10.1007/BF00689475
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00689475