Chemical Structure of Pelagic Redox Interfaces

Observation and Modeling

Editors:

ISBN: 978-3-642-32124-5 (Print) 978-3-642-32125-2 (Online)

Table of contents (13 chapters)

  1. Front Matter

    Pages i-xiv

  2. No Access

    Book Chapter

    Pages 1-12

    Introduction: Redox Interfaces in Marine Waters

  3. No Access

    Book Chapter

    Pages 13-26

    Biogeochemical Peculiarities of the Vertical Distributions of Nutrients in the Black Sea

  4. No Access

    Book Chapter

    Pages 27-46

    Anaerobic Microbial Community in the Aerobic Water and at the Oxic/Anoxic Interface in the Black Sea

  5. No Access

    Book Chapter

    Pages 47-65

    The Energetic Balance of Microbial Exploitation of Pelagic Redox Gradients

  6. No Access

    Book Chapter

    Pages 67-93

    Manganese and Iron at the Redox Interfaces in the Black Sea, the Baltic Sea, and the Oslo Fjord

  7. No Access

    Book Chapter

    Pages 95-119

    Role of Sulfide Oxidation Intermediates in the Redox Balance of the Oxic–Anoxic Interface of the Gotland Deep, Baltic Sea

  8. No Access

    Book Chapter

    Pages 121-135

    On Interannual Variability of Chemical Characteristics of Redox Layer and Cold Intermediate Layer of the Black Sea

  9. No Access

    Book Chapter

    Pages 137-160

    Large-Scale Dynamics of Hypoxia in the Baltic Sea

  10. No Access

    Book Chapter

    Pages 161-201

    Biogeochemical Characteristics in the Elefsis Bay (Aegean Sea, Eastern Mediterranean) in Relation to Anoxia and Climate Changes

  11. No Access

    Book Chapter

    Pages 203-233

    RedOx Layer Model: A Tool for Analysis of the Water Column Oxic/Anoxic Interface Processes

  12. No Access

    Book Chapter

    Pages 235-251

    Modelling of the Meromictic Fjord Hunnbunn (Norway) with an Oxygen Depletion Model (OxyDep)

  13. No Access

    Book Chapter

    Pages 253-271

    Numerical Modelling of Biogeochemical Regime Response to Decadal Atmospheric Variability During 1960–2000 in the Black Sea

  14. No Access

    Book Chapter

    Pages 273-283

    Conclusions

  15. Back Matter

    Pages 285-287