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Citation of. On biotic self-purification of aquatic ecosystems. Elements of theory
The article published and cited.

Ostroumov S.A. (M.V.Lomonosov Moscow University, Moscow)

On biotic self-purification of aquatic ecosystems. Elements of theory

(2004) Doklady Akademii Nauk, v. 396 (1), pp. 136-141.

http://5bio5.blogspot.com/2013/05/citation-of-on-biotic-self-purification.html

Explanation of the title of the article:

the term 'biotic' here means 'biological aspects of, biological mechanisms of';

the term 'self-purification' means here the sum of processes that lead to improving water quality, to natural decontamination, purification and attenuation of water;

'aquatic ecosystems' here mean freshwater and marine water bodies and streams.

Author Names – who cited this article:

Dolgonosov, B.M. (1)

Gubernatorova, T.N. (1)

Korsunov, V.M. (1)

Makushkin, E.O. (1)

Subject Areas:

Agricultural and Biological Sciences (1)

Biochemistry, Genetics and Molecular Biology (1)

Chemical Engineering (1)

Environmental Science (1)

PAPERS THAT CITED THIS PUBLICATION:

Kinetics of the enzymatic decomposition of macromolecules with a fractal structure

Dolgonosov, B.M., Gubernatorova, T.N.

2007.

Theoretical Foundations of Chemical Engineering, v. 41 (6) , pp. 868-877

Dolgonosov, B.M. , Gubernatorova, T.N.

Water Problems Institute, Russian Academy of Sciences, ul. Gubkina 3, Moscow 119991, Russian Federation

View references (40)

Abstract

Mechanisms of enzymatic decomposition of an organic substance consisting of fractal macromolecules of different sizes are studied. A kinetic decomposition equation in which the reaction rate coefficient depends on the characteristic of the fractal structure is formulated. The solution for a fraction of macromolecules of the same size and for a mixture of macromolecules of different sizes is analyzed. It is shown that the decomposition kinetics depends on the fractal structure of the macromolecules and the type of their initial distribution by size. Conditions under which the decrease in the concentration of the organic substance obeys the power law are found. The theoretical relations are used for analyzing the literature data on the decomposition kinetics of organic matter in sea sediments in the time interval from several hours to about one million years. It is shown that in this whole interval the concentration decreases with time according to the universal power law with a 0.14 exponent. The kinetics of enzymatic decomposition of lignin (product of the natural decomposition of plant remains or byproduct of wood processing) is also discussed. It is found that the exponent accounting for the concentration decrease is equal to 0.4 to 0.5 for the decomposition of industrial lignin in bulk water and 1 to 2 for its decomposition in the water with bottom sediments. © 2007 Pleiades Publishing, Ltd.

Indexed keywords:

Engineering controlled terms: Decomposition; Lignin; Reaction kinetics; Sediments

Engineering uncontrolled terms: Decomposition kinetics; Enzymatic decomposition; Fractal structure

Engineering main heading: Macromolecules

PaperChem Variable: Decay; Lignins; Macromolecules; Reaction Kinetics; Sediments

ISSN: 00405795 Source Type: Journal; Original language: English

DOI: 10.1134/S0040579507060127Document Type: Article

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Dolgonosov, B.M.; Water Problems Institute, Russian Academy of Sciences, ul. Gubkina 3, Moscow 119991, Russian Federation; email:borismd@aqua.laser.ru.ru

Self-purification of water current and the role of microbiological transformation of organic matter in the system of the Selenga river and its delta

Makushkin, E.O., Korsunov, V.M.

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Doklady Biological Sciences. V. 404 (1-6) , pp. 372-374

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Indexed keywords:

EMTREE drug terms: organic compound

EMTREE medical terms: animal; article; bacterium; biotransformation; food chain; isolation and purification; metabolism; microbiology; physiology; river; Russian Federation; salmonid; water management; water pollutant

MeSH: Animals; Bacteria; Biotransformation; Food Chain; Organic Chemicals; Rivers; Russia; Salmonidae; Siberia; Water Microbiology; Water Pollutants, Chemical; Water Purification

Medline is the source for the MeSH terms of this document.

Chemicals and CAS Registry Numbers: Organic Chemicals; Water Pollutants, Chemical

ISSN: 00124966Source Type: Journal Original language: English

DOI: 10.1007/s10630-005-0140-8

PubMed ID: 16405120

Document Type: Article

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