Photosynthesis: Theory and Experiment

V. I. Zvalinsky; Звалинский В. И.

doi:10.31857/S0015330322600395

Photosynthesis: Theory and Experiment

作者: Zvalinsky V.¹
隶属关系:
1. V.I. Il'ichev Pacific Oceanological Institute, Far Eastern Branch of the Russian Academy of Sciences
期: 卷 70, 编号 1 (2023)
页面: 14-26
栏目: ЭКСПЕРИМЕНТАЛЬНЫЕ СТАТЬИ
URL: https://journals.rcsi.science/0015-3303/article/view/130194
DOI: https://doi.org/10.31857/S0015330322600395
EDN: https://elibrary.ru/AMHBSL
ID: 130194

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详细

The approach we developed earlier to describe the chains of conjugate enzymatic reactions of the photosynthesis process for the first time made it possible to propose a strict mathematical model of non-rectangular hyperbola, which describes the dependence of the speed of photosynthesis on the intensity of light (I), the concentration of CO₂ and the interaction of these two factors. The fundamental parameters of this model are light (I_K) and carbon dioxide (C_K) substrate constants, as well as hyperbola curvature (γ), conjugation parameters (r_IP and r_CP) and maximum photosynthesis rate (P^m). Special straightening coordinates are proposed, in which the entire hyperbole family has the form of a straight line. The main parameters can only be found when constructing experimental data in straightening coordinates. The proposed non-rectangular hyperbola model is applicable both for describing the process of photosynthesis in seaweed and higher plants, and for absorbing vitamin B12 by algae, and the dependence of the rate of food consumption by zooplankton and fish.

关键词

interaction of light and SO2 intensity, curvature of non-rectangular hyperbola, model of non-rectangular hyperbola, light and carbon dioxide curves of photosynthesis, light and carbon dioxide constants

作者简介

V. Zvalinsky

V.I. Il'ichev Pacific Oceanological Institute, Far Eastern Branch of the Russian Academy of Sciences

编辑信件的主要联系方式.
Email: biomar@mail.ru
俄罗斯联邦, Vladivostok

参考

Blackman F.F. Optima and limiting factors // Ann. Bot. 1905. V. 19. P. 281.
Baly E.C.C. The kinetics of photosynthesis // Proc. R. Soc. B. 1935. V. 117. P. 218.
Michaelis L., Menten M.L. Die kinetik der invertinwirkung // Biochem. Z. 1913. V. 49. P. 333.
Рабинович Е. Фотосинтез. Москва: Иностранная литература, 1953. Т. 2. 652 с.
Talling J.F. Photosynthetic characteristics of some freshwater plankton diatoms in relation to underwater radiation // New Phytol. 1957. V. 56. P. 29.
Jassby A.D., Platt T. Mathematical formulation of the relationship between photosynthesis and light for phytoplankton // Limnol. Oceanogr. 1976. V. 21. P. 540.
Platt T., Gallegos C., Harrison W.G. Photoingibition of photosynthesis in natural assemblages of marine phytoplankton // J. Mar. Res. 1980. V. 38. P. 687.
Звалинский В.И., Литвин Ф.Ф. Зависимость фотосинтеза от концентрации углекислоты, интенсивности и спектрального состава света // Физиология растений. 1988. Т. 35. С. 444.
Звалинский В.И. Формирование первичной продукции в море // Известия ТИНРО. 2006. Т. 147. С. 276.
Haxo F.T., Blinks L.R. Photosynthetic action spectra of marine algae // J. Gen. Physiol. 1960. V. 33. P. 389.
Звалинский В.И., Литвин Ф.Ф. Стационарная кинетика цепей сопряженных циклических реакций // Биохимия. 1986. Т. 51. С. 1741.
Гудвин Т., Мерсер Э. Введение в биохимию растений. Москва: Мир, 1986. Т. 1. 392 с.
NOAA Greenhouse Gas Marine Boundary Layer: ftp://ftp.cmdl.noaa.gov/ccg/co2/in-situ.
Liu J., Wang X., Rong Z., Gao Y., Zhang G., Wang W., Ge L., Mao Y., Guo Z., Wang Q., Zhao Ch. Modified non-rectangular hyperbola equation with plant height for photosynthetic light-response curves of Potentilla anserina and Elymus nutans at various growth phases in the Heihe River Basin, Northwest China // J. Arid Land. 2019. V. 11. P. 764.
Monod I. La technique de culture continue. Theoretic and application // Ann. Inst. Pasteur. Microbiol. 1950. V. 79. P. 390.
Shiotani T., Uye S. Selective feeding of the calanoid copepod Calanus sinicus on the natural microplankton assemblage, with special reference to microzooplankton // North Pacific Marine Organization (PICES) Ninth Annual Meeting Report (October 20–28, 2000). Hakodate, Hokkaido, Japan. 2000. P. 133.
Ивлев В.С. Экспериментальная экология питания рыб. Киев: Наукова думка. 1977. 272 с.
Kishi M.J., Kashiwai M., Ware D.M., Megrey B.A., Eslinger D.L., Werner F.E., Aita M.N., Azumaya T., Fujii M., Hashimoto Sh., Huang D., Iizumi H., Ishida Y., Kang S., Kantakov G.A. et al. NEMURO – a lower trophic level model for the North Pacific marine ecosystem // Ecol. Model. 2007. V. 202. P. 12.
Vichi M., Pinardi N., Masina S. A generalized model of pelagic biogeochemistry for the global ocean ecosystem. Part I: theory // J. Mar. Syst. 2007. V. 64. P. 89.