Mathematical modeling of oil hydrocarbon transformations in different parts of the White Sea

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• 作者：A. V. Leonov (1)
  O. V. Chicherina (1)
  
• 关键词：modeling the annual dynamics of OHC concentrations for nine interacting areas of the White Sea ; activity of OHC ; oxidizing bacteria (specific growth rate ; HC and O2 consumption ; bioproduction) ; modules of OHC loads onto sea areas ; OHC balances for individual areas and the sea as a whole
• 刊名：Water Resources
• 出版年：2013
• 出版时间：January 2013
• 年：2013
• 卷：40
• 期：1
• 页码：31-53
• 全文大小：549KB
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• 作者单位：A. V. Leonov (1)
  O. V. Chicherina (1)
  
  1. Institute of Oceanology, Russia Academy of Sciences, Nakhimovskii prosp. 36, Moscow, 117997, Russia
  
• ISSN：1608-344X

文摘

The available observational data on variations of oil hydrocarbon concentrations in White Sea tributaries and in individual parts of the sea are analyzed, and the contributions of different external sources to marine environment pollution are evaluated. The results of calculations are used to determine the possible total input of hydrocarbons from additional potential sources—internal natural (production by microorganisms) and external anthropogenic (navigation and sea shipping), which are most active in the summer and autumn. The hydroecological CNPSi-model is used to reproduce the processes of pollution of nine areas in the White Sea by oil hydrocarbons and their subsequent biodegradation in the marine environment. The annual dynamics of hydrocarbon concentrations was calculated using the long-term annual observations of monthly variations of the temperature, light intensity, and transparency of water, data on the morphometry of sea areas (the squares, mean depths, and water volumes) and water exchange between the chosen areas, calculated by a hydrodynamic model. For large bays (Dvina, Kandalaksha), the calculated concentrations of oil hydrocarbons are shown to be in agreement with the available estimates (the mean and maximal concentrations). The annual variations of oil hydrocarbon concentrations; the biomasses, oxidation activity and bioproduction characteristics of oil hydrocarbon-oxidizing bacteria are characterized. The calculated internal fluxes of oil hydrocarbons (the inputs from different sources, horizontal transport, and biotransformation) were used to calculate their annual balances for individual areas and the sea as a whole, showing the balanced character of their fluxes with the total balance discrepancies for individual areas varying within 0.3-.1%.