Abstract
Two endogenous biorhythms of mass specific rate of oxygen consumption with periods of 10.8 and 4.7 weeks were detected in the late postlarval ontogenesis of freshwater gastropod mollusks Planorbarius corneus using a singular spectral analysis. The local extreme points of both biorhythms in different individuals fall at the same ages. Periods of both biorhythms are approximately the same in all the animals studied and remain unchanged throughout the individual development. Both biorhythms are fading and have a similar amplitude, which decreases from approximately 1.1 μL O2/(h g) up to 20 weeks to 0.26 μL O2/(h g) at the time of death. Thus, new, previously undescribed endogenous biorhythms associated with metabolic rate have been identified.
Similar content being viewed by others
REFERENCES
Bennett, A.F. and Dawson, W.R., Metabolism, in Biology of Reptilia, New York: Acad. Press, 1976, vol. 5, pp. 121–223.
Berkovich, E.M., Energeticheskii obmen v norme i patologii (Energy Metabolism Is Health and Disease), Moscow: Meditsina, 1964.
Braun, F., Biological rhythms, in Sravnitel’naya fiziologiya zhivotnykh (Comparative Physiology of Animals), Moscow: Mir, 1977, vol. 2, pp. 210–260.
Brett, J.R., The metabolic demand for oxygen in fish, particularly salmonids, and a comparison with other vertebrates, Respirat. Physiol., 1972, vol. 14, nos. 1/2, pp. 151–170.
Brodsky, V.Ya. and Nechaeva, N.V., Ritmy sinteza belka (Rhythms of Protein Synthesis), Moscow: Nauka, 1988.
Brown, F.A., Bennett, M.F., and Webb, H.M., Persistent daily and tidal rhythms of O2-consumption in fiddle crabs, J. Cell. Comp. Physiol., 1954, vol. 44, no. 3, pp. 477–505.
Chiba, Y., Cutkomp, L.K., and Halberg, F., Circadian oxygen consumption rhythm of the flour beetle, Tribolium confusum,J. Insect Physiol., 1973, vol. 19, no. 11, pp. 2163–2172.
Dawson, W.R. and Hudson, J.W., Birds, in Comparative Physiology of Thermoregulation, New York: Academic Press, 1970, vol. 1, pp. 224–310.
Dmi’el, R., Circadian rhythm of oxygen consumption in snake embryos, Life Sci., 1969, vol. 8, no. 24, pp. 1333–1341.
Edwards, S.W. and Lloyd, D., Oscillations of respiration and adenine nucleotides in synchronous cultures of Acanthamoeba castellanii: mitochondrial respiratory control in vivo, J. Gen. Microbiol., 1978, vol. 108, pp. 197–204.
Glavnye komponenty vremennykh ryadov: metod “Gusenitsa” (The Principal Components of the Time Series: The “Caterpillar” Method), Danilov, D.P. and Zhiglyavskii, A.A., Eds., St. Petersburg: St. Peterb. Gos. Univ., 1997.
Horne, Y.A. and Whitehead, M., Ultradian and other rhythms in human respiration rate, Experientia, 1976, vol. 32, no. 9, pp. 1165–1167.
Kayser, C. and Hildwein, G., Evolution de la consommation d’oxygen et de l’activité du cobaye au cours du nycthémère, Arch. Sci. Physiol., 1974, vol. 28, no. 1, pp. 1–23.
Kinnear, A. and Shield, J.W., Metabolism and temperature regulation in marsupials, Comp. Biochem. Physiol. A, 1975, vol. 52, no. 1, pp. 235–245.
Kleimenov, S.Yu., Energy metabolism of growing larvae of the cricket Acheta domestica L. evaluated by direct and indirect calorimetry, Dokl. Biol. Sci., 1997, vol. 353, pp. 133–134.
Kryanev, A.V. and Lukin, G.V., Metricheskii analiz i obrabotka dannykh (Metric Analysis and Data Processing), Moscow: Fizmatlit, 2010.
Lamprekht, I., Dissipative structures in physics, chemistry, and biology, in Termodinamika biologicheskikh protsessov (Thermodynamics of Biological Processes), Moscow: Nauka, 1976, pp. 175–186.
Lyashenko, A.V. and Kharchenko, T.A., Annual dynamics of energy metabolism in zebra mussel, Gidrobiol. Zh., 1989, vol. 25, no. 3, pp. 31–38.
Malek-Mansur, M., Nicolis, G., and Prigogine, I., Nonequilibrium phase transitions in chemical systems, in Termodinamika i kinetika biologicheskikh protsessov (Thermodynamics and Kinetics of Biological Processes), Moscow: Nauka, 1980, pp. 59–83.
McCormick, S.A., Oxygen consumption and torpor in the fat-tailed dwarf lemur (Cheirogallus medius): rethinking prosimian metabolism, Comp. Biochem. Physiol. A, 1981, vol. 68, no. 4, pp. 605–610.
Mina, M.V. and Klevezal’, G.A., Rost zhivotnykh (Animal Growth), Moscow: Nauka, 1976.
Nicolis, G., Fluctuations around non-equilibrium states in open non-linear systems, J. Stat. Phys., 1972, vol. 6, nos. 2/3, pp. 195–222.
Palmer, J.D., Biological Clocks in Marine Organisms, New York: Wiley, 1974.
Panteleev, P.A., Bioenergetika melkikh mlekopitayushchikh (Bioenergetics of Small Mammals), Moscow: Nauka, 1983.
Prigogine, I., Vvedenie v termodinamiku neobratimykh protsessov (Introduction to Thermodynamics of Irreversible Processes), Moscow: Inostr. Lit., 1960.
Prigogine, I., La thermodynamique de la vie, La Recherche, 1972, vol. 3, no. 24, pp. 547–562.
Prigogine, I. and Nicolis, G., On symmetry-breaking instabilities in dissipative systems, J. Chem. Phys., 1967, vol. 46, no. 9, pp. 3542–3549.
Shakhparonov, M.I. and Pavlenko, A.A., Nonequilibrium thermodynamics and the theory of periodic processes in macrosystems. II. Chemical vibrations near the state of thermodynamic equilibrium, Zh. Fiz. Khim., 1988, vol. 62, no. 8, pp. 2275–2278.
Stroganov, N.S., Ekologicheskaya fiziologiya ryb (Ecological Physiology of Fish), Moscow: Mosk. Gos. Univ., 1962.
Stupfel, M., Davergne, M., Peramon, A., Lemercerre, C., and Gourlet, V., Rythmes ultradiens respiratoires de quatre petits vertébrés, C. R. Acad. Sci. D, 1979, vol. 289, no. 9, pp. 675–678.
Thermo Scientific™ Orion Star™ A223 Dissolved Oxygen Portable Meter, 2020. https://www.fishersci.com/shop/ products/orion-star-a223-dissolved-oxygen-portable-meter/p-4529337.
Vasil’ev, V.A., Stationary dissipative structures, in Termodinamika biologicheskikh protsessov (Thermodynamics of Biological Processes), Moscow: Nauka, 1976, pp. 186–198.
Way, C.M. and Wissing, T., Seasonal variability in the respiration of the freshwater clams. Pisidium variabilc (Prime) and P. compressum (Prime) (Bivalvia: Pisidiidae), Comp. Biochem. Physiol. A, 1984, vol. 78, pp. 453–457.
Zeuthen, E., Cyclic in oxygen consumption in cleaving eggs, Exp. Cell Res., 1960, vol. 19, no. 1, pp. 1–16.
Zotin, A.I., Changes in the entropy production rate during embryonic development and growth, Biofizika, 1966, vol. 11, no. 3, pp. 554–557.
Zotin, A.I., Dissipative structures and ψu-functions, in Termodinamika biologicheskikh protsessov (Thermodynamics of Biological Processes), Moscow: Nauka, 1976, pp. 203–205.
Zotin, A.I., Termodinamicheskaya osnova reaktsii organizmov na vneshnie i vnutrennie faktory (The Thermodynamic Basis of the Response of Organisms to External and Internal Factors), Moscow: Nauka, 1988.
Zotin, A.A., Equations describing changes in weight and mass-specific rate of oxygen consumption in animals during postembryonic development, Biol. Bull. (Moscow), 2006, vol. 33, no. 4, pp. 323–331.
Zotin, A.A., Patterns of growth and energy metabolism in the ontogenesis of mollusks, Extended Abstract of Doctoral (Biol.) Dissertation, Moscow: Inst. Biol. Razv. Ross. Akad. Nauk, 2009.
Zotin, A.A., Energetic metabolism during individual development of Lymnaea stagnalis (Lymnaeidae, Gastropoda): III. Late postlarval ontogeny, Biol. Bull. (Moscow), 2010, vol. 37, no. 6, pp. 596–604.
Zotin, A.A., Energy metabolism in postlarval ontogenesis of Planorbarius corneus (Planorbidae, Gastropoda), Russ. J. Dev. Biol., 2019, vol. 50, no. 5, pp. 238–242.
Zotin, A.A. and Kleymenov, S.Yu., Endogenous biorhythms of the mass specific rate of oxygen consumption in individual development of Lymnaea stagnalis (Lymnaeidae, Gastropoda), Biol. Bull. (Moscow), 2013, vol. 40, no. 6, pp. 500–507.
Zotin, A.A. and Kirik, E.F., Rate of oxygen consumption during embryonic development of great ramshorn Planorbarius corneus (Gastropoda), Russ. J. Dev. Biol., 2017, vol. 48, no. 4, pp. 252–256.
Funding
The study was carried out in the framework of the section of the state task of the Koltsov Institute of Deve-lopment Biology, Russian Academy of Sciences, 2020 no. 0108-2019-0003.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
COMPLIANCE WITH ETHICAL STANDARDS
Conflict of interest. The author declares that he has no conflict of interest.
Statement on the welfare of animals. All applicable international, national, and/or institutional principles for the use of animals in experiments and the conditions for their care were observed.
AUTHOR CONTRIBUTION
The work was completed solely by one author, A.A. Zotin.
Rights and permissions
About this article
Cite this article
Zotin, A.A. Endogenous Biorhythms of Mass Specific Rate of Oxygen Consumption in Planorbarius corneus (Planorbidae, Gastropoda) Individual Development. Russ J Dev Biol 51, 255–260 (2020). https://doi.org/10.1134/S1062360420040098
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S1062360420040098