COMPUTER SIMULATION OF WITHIN-YEAR CYCLE OF AN AQUATIC ECOSYSTEM LIFE

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Abstract

We consider some experience of computer simulation of within-year cycles of aquatic ecosystems, which has group of lecturers and scientists of St. Petersburg State University. The experience includes designing point, reservoir and spatially non-homogeneous simulation models of aquatic ecosystems functioning, and carrying out numerical experiments with the models. The models are applied for
investigations in the sphere of ecology, nature protection and nature management. Main attention in the report is devoted up-to-date state of the simulation.
Original languageEnglish
Pages (from-to)133-136
Number of pages4
JournalInternational Scientific Journal MATHEMATICAL MODELING
Volume1
Issue number6
Publication statusPublished - 2017

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aquatic ecosystem
computer simulation
simulation
ecology
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nature protection

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@article{34219e5fbabe413d963b5b928fb79d2a,
title = "COMPUTER SIMULATION OF WITHIN-YEAR CYCLE OF AN AQUATIC ECOSYSTEM LIFE",
abstract = "We consider some experience of computer simulation of within-year cycles of aquatic ecosystems, which has group of lecturers and scientists of St. Petersburg State University. The experience includes designing point, reservoir and spatially non-homogeneous simulation models of aquatic ecosystems functioning, and carrying out numerical experiments with the models. The models are applied forinvestigations in the sphere of ecology, nature protection and nature management. Main attention in the report is devoted up-to-date state of the simulation.",
keywords = "AQUATIC ECOSYSTEM SIMULATION, ANTHROPOGENIC EUTROPHICATION, TOXIC CONTAMINATION, AQUATIC ECOSYSTEM SIMULATION, ANTHROPOGENIC EUTROPHICATION, TOXIC CONTAMINATION",
author = "Третьяков, {Виктор Юрьевич} and V.V. Dmitriev and Yu.N. Sergeev and V.P. Kulesh",
note = "[1] S.E. Jorgensen. Handbook of Ecological Modelling and Informatics. London, 2009, 35 p. [2] V.V. Dmitriev. Diagnostics and modelling of aquatic ecosystems. Publishing house of St. Petersburg State University, St. Petersburg, 1995, 215 p. [3] Yu.N. Sergeev, V.P. Kulesh, O.P. Savchuk, V.V., Dmitriev, T.S. Komarova. Mathematical modelling of the pelagic ecosystem of the North Sea. The Works of AtlantNIRO, Kalilingrad, “Kalilingradskaya Pravda”, 1982, p.103-116. [4] V.V. Dmitriev, V.P. Kulesh, Yu.N. Sergeev. Spatially non-uniform vertical model of aquatic ecosystem of the eastern part of the Gulf of Finland. Application of methods of simulation modelling in ecology and fisheries studies on inland waters. Collection of research papers, Vol. 302 (1989), p.115-125. [5] V.V. Dmitriev, V.Yu. Tretyakov, V.Yu. Vasilyev. Simulation of the annual cycle of the aquatic ecosystem of Ilmen Lake. Application of methods of simulation modelling in ecology and fisheries studies on inland waters. Collection of research papers, Vol. 302 (1989), p.85-92. [6] Yu.N. Sergeev, V.P. Kulesh, V.V. Dmitriev, V.Yu., Tretyakov and others. The ecosystem of Ilmen Lake and its floodplain. St. Petersburg State University, St.Petersburg, 1997, 276 p. [7] V.Yu. Tretyakov, L.V. Alexandrova, V.V. Dmitriev. Simulation of toxic pollutant spreading in a trophic web of river mouth ecosystem. Land-Ocean Interaction in the Coastal Zone Second International Symposium on: Functioning of Coastal Ecosystems in Various Geographical Regions. Sopot, Poland, September 5-7, 1996. Abstracts, p. 14. [8] V.Yu. Tretyakov. Research conception of natural evolution of aquatic ecosystems. Land-Ocean Interaction in the Coastal Zone Second International Symposium on: Functioning of Coastal Ecosystems in Various Geographical Regions. Sopot, Poland, September 5-7, 1996. Abstracts, p. 66. [9] V.Yu. Tretyakov, L.V. Alexandrova, V.Yu. Vasilyev, V.V. Dmitriev, V.P. Kulesh, A.N. Ogurtsov. Parametrization of cascade geosystems and coevolution of its biotic and abiotic components with man-made load. International ecological congress. September 22-28, 1996, Voronezh, Russia, Manhattan, Kanzas, U.S.A. Proceedings and abstracts. Section: Science and Environment, p.84-85. [10] V.Yu. Tretyakov, P.I. Boldyreva. Influence of intraannual dynamics of biogenic elements inflow upon functioning of an abstract flowing water reservoir ecosystem. Meteorologicheskiy Vestnik, Vol. 7 (2015), N 2, p.1-47. [11] V.Yu. Tretyakov, M.A. Zheltyshev. Simulation of flowing water reservoir eutrophication. Meteorologicheskiy Vestnik, Vol. 7 (2015), N 1, p.1-45. [12] V.Yu. Tretyakov, E.V. Kruglov. Simulation of toxic pollution impact upon functioning of an abstract flowing water reservoir ecosystem, Meteorologicheskiy Vestnik, Vol. 7 (2015), N3, p.1-57. [13] V.Yu. Tretyakov, P.A. Bodrov. Joint effect of eutrophication and toxic contamination of aquatic ecosystems. Meteorologicheskiy Vestnik, Vol. 8 (2016), N 1, p.88-112. [14] V.Yu. Tretyakov, O.A. Sverdlova. Simulation of toxicant dynamics in biocenosis of an abstract flowing water reservoir ecosystem, Meteorologicheskiy Vestnik, Vol. 8 (2016), N 2, p.1-42.",
year = "2017",
language = "English",
volume = "1",
pages = "133--136",
journal = "International Scientific Journal MATHEMATICAL MODELING",
issn = "2535-0978",
publisher = "Scientific Technical Union of Mechanical Engineering «INDUSTRY 4.0»",
number = "6",

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TY - JOUR

T1 - COMPUTER SIMULATION OF WITHIN-YEAR CYCLE OF AN AQUATIC ECOSYSTEM LIFE

AU - Третьяков, Виктор Юрьевич

AU - Dmitriev , V.V.

AU - Sergeev, Yu.N.

AU - Kulesh, V.P.

N1 - [1] S.E. Jorgensen. Handbook of Ecological Modelling and Informatics. London, 2009, 35 p. [2] V.V. Dmitriev. Diagnostics and modelling of aquatic ecosystems. Publishing house of St. Petersburg State University, St. Petersburg, 1995, 215 p. [3] Yu.N. Sergeev, V.P. Kulesh, O.P. Savchuk, V.V., Dmitriev, T.S. Komarova. Mathematical modelling of the pelagic ecosystem of the North Sea. The Works of AtlantNIRO, Kalilingrad, “Kalilingradskaya Pravda”, 1982, p.103-116. [4] V.V. Dmitriev, V.P. Kulesh, Yu.N. Sergeev. Spatially non-uniform vertical model of aquatic ecosystem of the eastern part of the Gulf of Finland. Application of methods of simulation modelling in ecology and fisheries studies on inland waters. Collection of research papers, Vol. 302 (1989), p.115-125. [5] V.V. Dmitriev, V.Yu. Tretyakov, V.Yu. Vasilyev. Simulation of the annual cycle of the aquatic ecosystem of Ilmen Lake. Application of methods of simulation modelling in ecology and fisheries studies on inland waters. Collection of research papers, Vol. 302 (1989), p.85-92. [6] Yu.N. Sergeev, V.P. Kulesh, V.V. Dmitriev, V.Yu., Tretyakov and others. The ecosystem of Ilmen Lake and its floodplain. St. Petersburg State University, St.Petersburg, 1997, 276 p. [7] V.Yu. Tretyakov, L.V. Alexandrova, V.V. Dmitriev. Simulation of toxic pollutant spreading in a trophic web of river mouth ecosystem. Land-Ocean Interaction in the Coastal Zone Second International Symposium on: Functioning of Coastal Ecosystems in Various Geographical Regions. Sopot, Poland, September 5-7, 1996. Abstracts, p. 14. [8] V.Yu. Tretyakov. Research conception of natural evolution of aquatic ecosystems. Land-Ocean Interaction in the Coastal Zone Second International Symposium on: Functioning of Coastal Ecosystems in Various Geographical Regions. Sopot, Poland, September 5-7, 1996. Abstracts, p. 66. [9] V.Yu. Tretyakov, L.V. Alexandrova, V.Yu. Vasilyev, V.V. Dmitriev, V.P. Kulesh, A.N. Ogurtsov. Parametrization of cascade geosystems and coevolution of its biotic and abiotic components with man-made load. International ecological congress. September 22-28, 1996, Voronezh, Russia, Manhattan, Kanzas, U.S.A. Proceedings and abstracts. Section: Science and Environment, p.84-85. [10] V.Yu. Tretyakov, P.I. Boldyreva. Influence of intraannual dynamics of biogenic elements inflow upon functioning of an abstract flowing water reservoir ecosystem. Meteorologicheskiy Vestnik, Vol. 7 (2015), N 2, p.1-47. [11] V.Yu. Tretyakov, M.A. Zheltyshev. Simulation of flowing water reservoir eutrophication. Meteorologicheskiy Vestnik, Vol. 7 (2015), N 1, p.1-45. [12] V.Yu. Tretyakov, E.V. Kruglov. Simulation of toxic pollution impact upon functioning of an abstract flowing water reservoir ecosystem, Meteorologicheskiy Vestnik, Vol. 7 (2015), N3, p.1-57. [13] V.Yu. Tretyakov, P.A. Bodrov. Joint effect of eutrophication and toxic contamination of aquatic ecosystems. Meteorologicheskiy Vestnik, Vol. 8 (2016), N 1, p.88-112. [14] V.Yu. Tretyakov, O.A. Sverdlova. Simulation of toxicant dynamics in biocenosis of an abstract flowing water reservoir ecosystem, Meteorologicheskiy Vestnik, Vol. 8 (2016), N 2, p.1-42.

PY - 2017

Y1 - 2017

N2 - We consider some experience of computer simulation of within-year cycles of aquatic ecosystems, which has group of lecturers and scientists of St. Petersburg State University. The experience includes designing point, reservoir and spatially non-homogeneous simulation models of aquatic ecosystems functioning, and carrying out numerical experiments with the models. The models are applied forinvestigations in the sphere of ecology, nature protection and nature management. Main attention in the report is devoted up-to-date state of the simulation.

AB - We consider some experience of computer simulation of within-year cycles of aquatic ecosystems, which has group of lecturers and scientists of St. Petersburg State University. The experience includes designing point, reservoir and spatially non-homogeneous simulation models of aquatic ecosystems functioning, and carrying out numerical experiments with the models. The models are applied forinvestigations in the sphere of ecology, nature protection and nature management. Main attention in the report is devoted up-to-date state of the simulation.

KW - AQUATIC ECOSYSTEM SIMULATION, ANTHROPOGENIC EUTROPHICATION, TOXIC CONTAMINATION

KW - AQUATIC ECOSYSTEM SIMULATION, ANTHROPOGENIC EUTROPHICATION, TOXIC CONTAMINATION

UR - http://www.industry-4.eu

M3 - Article

VL - 1

SP - 133

EP - 136

JO - International Scientific Journal MATHEMATICAL MODELING

JF - International Scientific Journal MATHEMATICAL MODELING

SN - 2535-0978

IS - 6

ER -