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Introductory Paper: Biogeochemical Technologies For Managing Pollution In Polar Ecosystems
Part I. Monitoring of Environmental Pollution in Gas Industry Impacted Ecosystems
Natural Biogeochemical Cycling in Polar Ecosystems
Gas Industry Impacts on Natural Ecosystems
Modern Biogeochemical Cycling in Gas Industry Impacted Areas
Emission Carbon Dioxide And Methane in Gas Industry Impacted Ecosystems
Specific Reaction Biota to Environmental Pollution in Tundra Ecosystems
Biota Monitoring in the Impacted Zones Oil and Gas Industry in the Arctic Region
Climate Cycling and Modeling in Polar Areas
Part II. Geo-Environmental Risk Assessment
Evaluation Geo-Environmental Risks in the Impacted Zones Oil and Gas Industry in the Russian Arctic
Biogeochemical Cycling and SMB Model to Assess Critical Loads Nitrogen and Acidity for Terrestrial Ecosystems in the Russian Arctic
Possible Indicators for Assessing Geo-Environmental Risk in Polar Ecosystems Yamal Peninsula in Relation to Pollutant Emission During Gas Production
Analysis Geoecological Risks and Ratings as a Factor Improving Investment Attractiveness Enterprises
Part III. New Environmentally Oriented Biogeochemical Technologies for Managing Risk Environmental Pollution in Gas Production Areas
Biogeochemical Engineering and Development Biogeochemical Technologies
Biogeochemical Standards for Environmental Managing Polar Ecosystems
Biogeochemical Approaches for Managing Geoenvironmental Risk Hydrocarbons Pollution in Disturbed Soils
Biogeochemical Technology for Monitoring Cleaning Soil Polluted by Gas Condensate and Neutralization its Sludge by Means Enzyme Activity Analysis
Biogeochemical Control Peat-Based Recultivation Process Disturbed Tundra Soils Varying in Granulometric Composition and Full Moisture Capacity
Biogeochemical Technology for Disturbed Tundra Soils Recultivation by Peat and Potassium Humate Application.

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