Abstract
The phytoplankton primary production and the biogenic elements content of the coastal waters off Sevastopol have been studied as a result of 2-year monitoring. It has been found that mineral phosphorus is a key factor of chemical limitation of the production processes. During primary production of organic matter, the habitat conditions for phytoplankton in the photic layer are in accordance with the Le Chatelier–Braun principle of negative feedback.
Article PDF
Similar content being viewed by others
Avoid common mistakes on your manuscript.
References
Barinov, G.V., Exchange of 45Ca, 137Cs, and 144Ce between algae and seawater, Okeanologiya, 1965, vol. 5, no. 1, pp. 11–116.
Vedernikov, V.I., Peculiarities of distribution of primary production and chlorophyll in the Black Sea in the spring and summer periods, Izmenchivost’ ekosistemy Chyornogo morya: Yestestvennye i antropogennye faktory (Variability of the Black Sea Ecosystem: Natural and Anthropogenic Factors), Moscow: Nauka, 1991, pp. 128–147.
Vinogradov, M.E., Sapozhnikov, V.V., and Sushkina, E.A., Ekosistema Chyornogo morya (The Black Sea Ecosystem), Moscow: Nauka, 1992.
Vityuk, D.M., Vzveshennoye veshchestvo i ego biogennye komponenty (Suspended Matter and Its Biogenic Components), Kiev: Naukova Dumka, 1983.
Egorov, V.N., Biogeochemical mechanisms of realization of compensatory homeostasis in the Black Sea ecosystems, Morsk. Ekol. Zh., 2012, vol. 11, no. 4, pp. 4–17.
Egorov, V.N., Zesenko, A.Ya., Parkhomenko, A.V., and Finenko, Z.Z., Mathematical description of the kinetics of mineral phosphorus exchange by unicellular algae, Gidrobiol. Zh., 1982, vol. 18, no. 4, pp. 45–50.
Egorov, V.N., Popovichev, V.N., Burlakova, Z.P., et al., Mathematical model for the biosedimentation function of ecosystem in the photic layer of the western halistatics of the Black Sea, in Molismologiya Chyornogo morya (Molismology of the Black Sea), Kyiv: Naukova Dumka, 1992, pp. 38–50.
Zaitsev, Yu.P., The ecological condition of the Black Sea shelf zone off the Ukraine coast (overview), Gidrobiol. Zh., 1992, vol. 28, no. 4, pp. 3–18.
Zilov, E.A., Gidrobiologiya i vodnaya ekologiya (organizatsiya, funktsionirovaniye i zagryazneniye vodnykh ekosistem) (Hydrobiology and Aquatic Ecology (Organization, Functions, and Pollution of Aquatic Ecosystems), Irkutsk: Irkutsk. Gos. Univ., 2009.
Ignatieva, O.G., Status of the Sevastopol Bay’s carbonate system components by the data of expeditions in 2006–2007, Morsk. Ekol. Zh., 2009, vol. 2, pp. 37–48.
Kiselyov, I.A., Plankton morei i kontinental’nykh vodoyomov, T. 2._Raspredelenie, sezonnaya dinamika, pitaniye i znachenie (Plankton of Seas and Continental Waterbodies, Vol. 2: Distribution, Seasonal Dynamics, Nutrition, and Importance), Leningrad: Nauka, 1980.
Kitaev, S.P., Ekologicheskiye osnovy bioproduktivnosti ozer raznykh prirodnykh zon (The Ecological Bases of Bioproductivity of Lakes in Different Natural Zones), Moscow: Nauka, 1984.
Metodicheskoye posobiye po opredeleniyu pervichnoi produktsii organicheskogo veshchestva v vodoyomakh radiouglerodnym metodom (A Methodological Guide to Measuring the Primary Production of Organic Matter in a Waterbody Using the Radiocarbon Method), Minsk: Beloruss. Gos. Univ., 1960.
Patton, A.R., Biochemical Energetics and Kinetics, Philadelphia, Pa.: Saunders, 1965.
Polikarpov, G.G., Radioekologiya morskikh organizmov (Radioecology of Marine Organisms), Moscow: Atomizdat, 1964.
Polikarpov, G.G. and Egorov, V.N., Morskaya dinamicheskaya radiokhemoekologiya (Marine Dynamic Radio-Chemoecology), Moscow: Energoatomizdat, 1986.
Popovichev, V.N. and Egorov, V.N., Absorption of mineral phosphorus by suspended matter of the photic layer, in Molismologiya Chyornogo morya (Molismology of the Black Sea), Kyiv: Naukova Dumka, 1992, pp. 62–69.
Popovichev, V.N. and Egorov, V.N., Biotic exchange of mineral phosphorus in the euphotic zone of the western Black Sea, in Chteniya pamyati N.V. Timofeeva- Resovskogo (Readings in Memoriam of N.V. Timofeev- Ressovskii), Sevastopol: EKOSI–Gidrofizika, 2000, pp. 140–158.
Popovichev, V.N. and Egorov, V.N., Phosphorus exchange of natural suspended matter in the Danube–Black Sea mixing zone, in Ekologicheskaya bezopasnost’ pribrezhnoi i shel’fovoi zon i kompleksnoye ispol’zovaniye resursov shel’fa (Ecological Safety of the Coastal and Shelf Zones and the Complex Management of Shelf Resources), Sevastopol: EKOSI–Gidrofizika, 2003, no. 8, pp. 98–104.
Popovichev, V.N. and Egorov, V.N., Exchange of mineral phosphorus by suspended matter in the photic zone of the Black Sea, in Radioekologicheskii otklik Chyornogo morya na Chernobyl’skuyu avariyu (The Radioecological Response of the Black Sea to the Chernobyl Accident), Sevastopol: EKOSI–Gidrofizika, 2008, ch. 6, pp. 548–574.
Raymont, J.E.G., Plankton and Productivity in the Oceans, Vol. 1: Phytoplankton, Oxford: Pergamon, 1980, 2nd ed.
Rukovodstvo po metodam khimicheskogo analiza morskikh vod (Guide to the Methods of Chemical Analysis of Marine Waters), Leningrad: Gidrometeoizdat, 1977.
Solomonova, E.S. and Akimov, A.I., Relation of live and dead components of suspension in some microalgae’ cultures in dependence on growth stage and different illumination, Morsk. Ekol. Zh., 2014, vol. 13, no. 1, pp. 73–81.
Sorokin, Yu.I. and Avdeev, V.A., Consumption and period of phosphate cycle in waters of the Black Sea, in Izmenchivost’ ekosistemy Chyornogo morya: Estestvennye i antropogennye faktory (Variability of the Black Sea Ecosystem: Natural and Anthropogenic Factors), Moscow: Nauka, 1991, pp. 153–157.
Stelmakh, L.V., Patterns of the growth of phytoplankton and its consumption by microzooplankton in the Black Sea, Extended Abstract of Cand. Sci. (Biol.) Dissertation, Sevastopol, 2017.
Stelmakh, L.V. and Babich, I.I., Seasonal variability of the organic carbon to chlorophyll “a” ratio and factors its determining in phytoplankton of coastal waters of the Black Sea, Morsk. Ekol. Zh., 2006, vol. 5, no. 2, pp. 74–87.
Finkelshtein, M.S. and Pronenko, S.M., The trend of long-term variations in phosphate concentration in the western Black Sea, Ekol. Morya, 1991, no. 39, pp. 1–4.
Finenko, Z.Z., Suslin, V.V., and Churilova, T.Ya., The regional model to calculate the Black Sea primary production using satellite color scanner SeaWiFS, Morsk. Ekol. Zh., 2009, vol. 8, no. 1, pp. 81–106.
Hutchinson, G.E., A Treatise on Limnology, New York: Wiley, 1957, in 2 vols.
Khimicheskaya entsiklopediya (Chemical Encyclopedia), Moscow: Sovetskaya Entsiklopediya, 1988, vol. 1.
Yunev, O.A., Assessment of long-term variations in the annual primary production of phytoplankton in various areas of the Black Sea shelf, in Ekologicheskaya bezopasnost’ pribrezhnoi i shel’fovoi zon i kompleksnoye ispol’zovaniye resursov shel’fa (Ecological Safety of the Coastal and Shelf Zones and the Complex Management of Shelf Resources), Sevastopol: EKOSI–Gidrofizika, 2011, no. 25, pp. 311–326.
Droop, M.R., The nutrient status of algae cells in continuous culture, J. Mar. Biol. Assoc. U. K., 1974, vol. 54, no. 2, pp. 825–855.
Redfield, A.C., The biological control of chemical factors in the environment, Am. Sci., 1958, vol. 46, pp. 205–221.
Stelmakh, L.V., Microzooplankton grazing impact on phytoplankton blooms in the coastal seawater of the Southern Crimea (Black Sea), Int. J. Mar. Sci., 2013, vol. 3, no. 15, pp. 121–127.
Author information
Authors and Affiliations
Corresponding author
Additional information
Original Russian Text © V.N. Egorov, V.N. Popovichev, S.B. Gulin, N.I. Bobko, N.Yu. Rodionova, T.V. Tsarina, Yu.G. Marchenko, 2018, published in Biologiya Morya.
Rights and permissions
About this article
Cite this article
Egorov, V.N., Popovichev, V.N., Gulin, S.B. et al. The Influence of Phytoplankton Primary Production on the Cycle of Biogenic Elements in the Coastal Waters off Sevastopol, Black Sea. Russ J Mar Biol 44, 240–247 (2018). https://doi.org/10.1134/S1063074018030057
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S1063074018030057