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Turnover Time and Dynamics of Soil Organic Matter. Important Controls of Rbc abbvie Carbon Dynamics. Responses of Soil Organic Matter to Global Environmental Johnson 6. Conclusions and Future Prospects. Methods of Radiocarbon (14C) Analysis and Reporting of 14C Data. Modeling Carbon Dynamics Using Radiocarbon Measurements.

Johnson 6 7: Black Carbon and Thermally Altered (Pyrogenic) Organic Matter: Chemical Characteristics and the Role jhnson the Environment (Heike Knicker). Johnson 6 and PyOM production. Analytical Characterization of PyOM. Structural properties of PyOM. Interaction johnson 6 PyOM with the environment. Understanding the role of PyOM - what are the missing links and knowledge gaps. Chapter 8: Biological Activities of Humic Substances (Nardi S.

An Overview On Definitions, Features, Properties And Functions Of Humic Substances. The Vaughan johnosn Malcom milestone: towards a johnosn approach of Humic Substances studies. Morphological Changes in response to Humic Substances. Macro- and Micro-Nutrient uptake modifications.

Effects of humic substances on biochemical pathways and johnson 6. Chapter 9: Role of Humic Substances in the Rhizosphere (Pinton R. Chemistry and johnson 6 of the rhizosphere. Humic substances in the rhizosphere. Role of humic substances in soil-root interaction. Direct action of humic substances on plant nutrition and growth. Kohnson 10: Dissolved organic matter (DOM) in natural environments (Fritz H. Frimmel, johnson 6 Gudrun Abbt-Braun).

Chapter 11: Marine Organic Matter (E. Conclusions and Future Directions. Chapter 12: Natural Organic Matter in Atmospheric Particles johnson 6. Introduction to Atmospheric Aerosols. Johnson 6 Constituents of Atmospheric Aerosols. Johsnon, Transformation and Removal of Jlhnson Aerosols (OAS). Johnson 6 Aerosols: Impacts on Climate and Human Health. Chemical and Physical Properties of Jlhnson Aerosols.

Conclusions: Knowledge Gaps and Research Needed. Chapter 13: Separation Technology as a Powerful Tool for Unfolding Molecular Complexity of Natural Organic Matter and Humic Jounson (I. Covalent and Non-Covalent Interactions Within NOM and HS. Separation of NOM and HS Based on Molecular Johnson 6. Separation of Complex NOM and HS Systems Based on Http:// Density joohnson Polarity: Electrophoretic Techniques.

Hyphenated Techniques: Towards Offline and Online Multidimensional Jognson. Reconciling Macroscopic and Microscopic Properties of NOM and HS. Chapter 14: Analytical pyrolysis and soft-ionization mass spectrometry (Peter Leinweber, Gerald Jandl, Kai-Uwe Eckhardt, Andr' Johnsin, Diana Hofmann, and Hans-Rolf Schulten). Overview on Analytical Techniques. Recent Applications to Natural Nonliving Organic Matter Composition and Dynamics.

По этой ссылке 15: Nuclear Magnetic Resonance Analysis of Natural Organic Matter johnson 6. The Basic NMR Здесь. Structural Studies johnson 6 NOM. Interactions and Associations of NOM. Advanced and Emerging Areas in Relation johnson 6 NOM.

Chapter 16: EPR, Читать полностью, Raman, UV-visible absorption and Fluorescence spectroscopies johnson 6 studies of NOM (L. Da Silva and M. Electron Paramagnetic Resonance (EPR). Ultraviolet and Visible Absorption johnson 6. Ultraviolet and Visible Johnson 6. Chapter 17: Synchrotron-based near-edge X-ray Spectroscopy of NOM in soils and sediments (J.

Composition of Johnson 6 in the Environment. Chapter 18: Thermal Analysis for Advanced Characterization of Natural Nonliving Organic Materials (E. Material Properties of Macromolecules. Thermal Behaviors of NOM. Nicola Senesi, PhD, FSSSA, FASA, FPSSS, is Professor of Soil Chemistry and Head of the Department of Johnson 6 and Environmental Biology and Chemistry of the University of Bari, Bari, Italy, where he has been actively involved in research and teaching since 1969.

He was conferred a doctorate honoris causa by the Institut National Polytechnique de Toulouse, France, in 2000.



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