UID:
almahu_9948025462802882
Format:
1 online resource (333 p.)
ISBN:
1-281-02398-1
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9786611023980
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0-08-052528-8
Series Statement:
Physiological ecology
Content:
The emerging multidisciplinary field of earth system science sets out to improve our understanding functioning ecosystems, at a global level across the entire planet. Stable Isotopes and Biosphere - Atmosphere Interactions looks to one of its most powerful tools - the application of stable isotope analyses - to understanding biosphere-atmosphere exchange of the greenhouse gases, and synthesizes much of the recent progress in this work. Stable Isotopes and Biosphere - Atmosphere Interactions describes recent progress in understanding the mechanisms, processes and applicati
Note:
Description based upon print version of record.
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Front Cover; Stable Isotopes and Biosphere-Atmosphere Interactions: Processes and Biological Controls; Copyight Page; Contents; Contributors; Chapter 1. Introduction: Stable Isotopes and Earth System Science; Global Change and Earth System Science; Physiological Ecology and Global Gas Exchange; Historical Background and the Contents of this Book; Acknowledgments; References; Part I: Stable Isotopes and Physiological Processes; Chapter 2. Factors Affecting the Oxygen Isotope Ratio of Plant Organic Material; Factors Contributing to Variation in d18Op; Modeling delta18O of Plant Material
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Combined Measurement of Carbon andCombined Measurement of Carbon and Oxygen Isotope Ratios; Potential Applications; Conclusions; References; Chapter 3. Stable Isotope Composition of Soil Organic Matter; Introduction; Origin of Carbon in Soils; Chemical Structure and Stable Isotopic Ratio of Plant Carbon Forming Soil Organic Matter; Distribution of Carbon and Nitrogen and their Stable Isotopes in Soil Profiles; Dynamics of Soil Organic Matter; Molecular Insight into Soil Organic Matter Formation; Summary; References
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Chapter 4. Factors Determining the 13C Abundance of Soil-Respired CO2 in Boreal ForestsIntroduction; CO2 Production in Soils; Variability in the C Isotopes in Plants, Soil, and Soil CO2 Efflux in Boreal Forest---A Case Study; Concluding Remarks; References; Chapter 5. Factors that Control the Isotopic Composition of N2O from Soil Emissions; Introduction; Factors that Control the Rate of Production and Emission of Soil N2O; Processes Controlling the Stable Isotope Composition of N2O; Conclusions; References
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Chapter 6. Carbon and Hydrogen Isotopic Effects in Microbial Methane from Terrestrial EnvironmentsIsotopic Effects During Methane Oxidation; Isotopic Effects Associated with Methane Production Mechanisms; Supporting Field Data; Isotope Cross Plots; Summary, Speculation, and Recommendation; Acknowledgments; References; Part II: Ecosystem Scale Processes; Chapter 7. Theoretical Examination of Keeling-plot Relationships for Carbon Dioxide in a Temperate Broadleaved Forest with a Biophysical Model, CANISOTOPE; Introduction; Model Framework; Results and Discussion; Conclusions; Acknowledgments
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ReferencesChapter 8. Partitioning Ecosystem Respiration Using Stable Carbon Isotope Analyses of CO2; Introduction; Partitioning Approach; Variation in Respiration Signatures Among Ecosystem Components; Causes of Variation in Respiration Signatures; Implications of Variation in Respiration Signatures on Soil C-Dynamics; Determining Source Signatures; Using Variation in Respiration Signatures to Partition Ecosystem Respiration; Conclusions; Acknowledgments; References; Chapter 9. Simulation of Ecosystem C18OO Isotope Fluxes in a Tallgrass Prairie: Biological and Physical Controls; Introduction
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Background
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English
Additional Edition:
ISBN 0-12-088447-X
Language:
English
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