Description

Book Synopsis
Published by the American Geophysical Union as part of the Geophysical Monograph Series, Volume 184.

Carbon Cycling in Northern Peatlands examines the role that northern peatlands play in regulating the atmospheric carbon budget. It summarizes current research in four interconnected areas: large-scale peatland dynamics and carbon cycling; plant and microbial dynamics and their effect on carbon fluxes to the atmosphere; methane accumulation in, and loss from, peatlands; and water and dissolved carbon fluxes through peatlands. The volume highlights include
  • A thorough assessment of the challenges involved in incorporating carbon cycling in northern peatlands into global climate models;
  • A conceptual model to examine the partitioning of terminal carbon mineralization into production of CO2 and CH4;
  • A comprehensive review of the evidence for the accumulation of methane in deep and shallow peat; and
  • A description of the hydrologic changes induced

    Table of Contents

    Preface
    Lee D. Slater, Andrew J. Baird, Lisa R. Belyea, Xavier Comas, and A. S. Reeve vii

    Understanding Carbon Cycling in Northern Peatlands: Recent Developments and Future Prospects
    Andrew J. Baird, Xavier Comas, Lee D. Slater, Lisa R. Belyea, and A. S. Reeve 1

    Section I: Large-Scale Peatland Dynamics and Carbon Cycling

    Nonlinear Dynamics of Peatlands and Potential Feedbacks on the Climate System
    Lisa R. Belyea 5

    Issues Related to Incorporating Northern Peatlands Into Global Climate Models
    Steve Frolking, Nigel Roulet, and David Lawrence 19

    Upscaling of Peatland-Atmosphere Fluxes of Methane: Small-Scale Heterogeneity in Process Rates and the Pitfalls of "Bucket-and-Slab" Models
    A. J. Baird, L. R. Belyea, and P. J. Morris 37

    Sensitivity of Northern Peatland Carbon Dynamics to Holocene Climate Change
    Zicheng Yu, David W. Beilman, and Miriam C. Jones 55

    Direct Human Impacts on the Peatland Carbon Sink
    Jukka Laine, Kari Minkkinen, and Carl Trettin 71

    Section II: Near-Surface Processes of Peatland Carbon Cycling

    Northern Peatland Vegetation and the Carbon Cycle: A Remote Sensing Approach
    A. Harris and R. G. Bryant 79

    Plant Litter Decomposition and Nutrient Release in Peatlands
    Luca Bragazza, Alexandre Buttler, Andy Siegenthaler, and Edward A. D. Mitchell 99

    Microbial Community Structure and Carbon Substrate Use in Northern Peatlands
    Rebekka R. E. Artz 111

    Partitioning Litter Mass Loss Into Carbon Dioxide and Methane in Peatland Ecosystems
    M. Nilsson and M. Öquist 131

    Section III: Methane Accumulation in, and Loss From, Peatlands

    Methane Accumulation and Release From Deep Peat: Measurements, Conceptual Models, and Biogeochemical Significance
    Paul H. Glaser and Jeffrey P. Chanton 145

    Noninvasive Field-Scale Characterization of Gaseous-Phase Methane Dynamics in Peatlands Using the Ground-Penetrating Radar Method
    Xavier Comas and Lee D. Slater 159

    Methane Dynamics in Peat: Importance of Shallow Peats and a Novel Reduced-Complexity Approach for Modeling Ebullition
    T. J. Coulthard, A. J. Baird, J. Ramirez, and J. M. Waddington 173

    The Stable Carbon Isotope Composition of Methane Produced and Emitted From Northern Peatlands
    Edward R. C. Hornibrook 187

    Laboratory Investigations of Methane Buildup in, and Release From, Shallow Peats
    Mikhail Mastepanov and Torben R. Christensen 205

    Physical Controls on Ebullition Losses of Methane From Peatlands
    Takeshi Tokida, Tsuyoshi Miyazaki, and Masaru Mizoguchi 219

    Section IV: Water and Dissolved Carbon Transfers Within and From Peatlands

    Dissolved Organic Carbon Production and Transport in Canadian Peatlands
    Tim R. Moore 229

    Hydrological Controls on Dissolved Organic Carbon Production and Release From UK Peatlands
    Nathalie Fenner, Chris Freeman, and Fred Worrall 237

    The Role of Natural Soil Pipes in Water and Carbon Transfer in and From Peatlands
    J. Holden, R. P. Smart, P. J. Chapman, A. J. Baird, and M. F. Billett 251

    Improving Conceptual Models of Water and Carbon Transfer Through Peat
    Jeffrey M. McKenzie, Donald I. Siegel, and Donald O. Rosenberry 265

    Water Relations in Cutover Peatlands
    Jonathan S. Price and Scott J. Ketcheson 277

    The Influence of Permeable Mineral Lenses on Peatland Hydrology
    A. S. Reeve, Z. D. Tyczka, X. Comas, and L. D. Slater 289

    Index 299

Carbon Cycling in Northern Peatlands

    Product form

    £124.40

    Includes FREE delivery

    RRP £130.95 – you save £6.55 (5%)

    Order before 4pm today for delivery by Thu 2 Jul 2026.

    A Hardback by Andrew J. Baird, Lisa R. Belyea Belyea, Xavier Comas

    Out of stock

      Trusted by thousands of customers. See 2,385+ Customer Reviews

      View other formats and editions of Carbon Cycling in Northern Peatlands by Andrew J. Baird

      Publisher: John Wiley & Sons Inc
      Publication Date: 01/01/2009
      ISBN13: 9780875904498, 978-0875904498
      ISBN10: 0875904491

      Description

      Book Synopsis
      Published by the American Geophysical Union as part of the Geophysical Monograph Series, Volume 184.

      Carbon Cycling in Northern Peatlands examines the role that northern peatlands play in regulating the atmospheric carbon budget. It summarizes current research in four interconnected areas: large-scale peatland dynamics and carbon cycling; plant and microbial dynamics and their effect on carbon fluxes to the atmosphere; methane accumulation in, and loss from, peatlands; and water and dissolved carbon fluxes through peatlands. The volume highlights include
      • A thorough assessment of the challenges involved in incorporating carbon cycling in northern peatlands into global climate models;
      • A conceptual model to examine the partitioning of terminal carbon mineralization into production of CO2 and CH4;
      • A comprehensive review of the evidence for the accumulation of methane in deep and shallow peat; and
      • A description of the hydrologic changes induced

        Table of Contents

        Preface
        Lee D. Slater, Andrew J. Baird, Lisa R. Belyea, Xavier Comas, and A. S. Reeve vii

        Understanding Carbon Cycling in Northern Peatlands: Recent Developments and Future Prospects
        Andrew J. Baird, Xavier Comas, Lee D. Slater, Lisa R. Belyea, and A. S. Reeve 1

        Section I: Large-Scale Peatland Dynamics and Carbon Cycling

        Nonlinear Dynamics of Peatlands and Potential Feedbacks on the Climate System
        Lisa R. Belyea 5

        Issues Related to Incorporating Northern Peatlands Into Global Climate Models
        Steve Frolking, Nigel Roulet, and David Lawrence 19

        Upscaling of Peatland-Atmosphere Fluxes of Methane: Small-Scale Heterogeneity in Process Rates and the Pitfalls of "Bucket-and-Slab" Models
        A. J. Baird, L. R. Belyea, and P. J. Morris 37

        Sensitivity of Northern Peatland Carbon Dynamics to Holocene Climate Change
        Zicheng Yu, David W. Beilman, and Miriam C. Jones 55

        Direct Human Impacts on the Peatland Carbon Sink
        Jukka Laine, Kari Minkkinen, and Carl Trettin 71

        Section II: Near-Surface Processes of Peatland Carbon Cycling

        Northern Peatland Vegetation and the Carbon Cycle: A Remote Sensing Approach
        A. Harris and R. G. Bryant 79

        Plant Litter Decomposition and Nutrient Release in Peatlands
        Luca Bragazza, Alexandre Buttler, Andy Siegenthaler, and Edward A. D. Mitchell 99

        Microbial Community Structure and Carbon Substrate Use in Northern Peatlands
        Rebekka R. E. Artz 111

        Partitioning Litter Mass Loss Into Carbon Dioxide and Methane in Peatland Ecosystems
        M. Nilsson and M. Öquist 131

        Section III: Methane Accumulation in, and Loss From, Peatlands

        Methane Accumulation and Release From Deep Peat: Measurements, Conceptual Models, and Biogeochemical Significance
        Paul H. Glaser and Jeffrey P. Chanton 145

        Noninvasive Field-Scale Characterization of Gaseous-Phase Methane Dynamics in Peatlands Using the Ground-Penetrating Radar Method
        Xavier Comas and Lee D. Slater 159

        Methane Dynamics in Peat: Importance of Shallow Peats and a Novel Reduced-Complexity Approach for Modeling Ebullition
        T. J. Coulthard, A. J. Baird, J. Ramirez, and J. M. Waddington 173

        The Stable Carbon Isotope Composition of Methane Produced and Emitted From Northern Peatlands
        Edward R. C. Hornibrook 187

        Laboratory Investigations of Methane Buildup in, and Release From, Shallow Peats
        Mikhail Mastepanov and Torben R. Christensen 205

        Physical Controls on Ebullition Losses of Methane From Peatlands
        Takeshi Tokida, Tsuyoshi Miyazaki, and Masaru Mizoguchi 219

        Section IV: Water and Dissolved Carbon Transfers Within and From Peatlands

        Dissolved Organic Carbon Production and Transport in Canadian Peatlands
        Tim R. Moore 229

        Hydrological Controls on Dissolved Organic Carbon Production and Release From UK Peatlands
        Nathalie Fenner, Chris Freeman, and Fred Worrall 237

        The Role of Natural Soil Pipes in Water and Carbon Transfer in and From Peatlands
        J. Holden, R. P. Smart, P. J. Chapman, A. J. Baird, and M. F. Billett 251

        Improving Conceptual Models of Water and Carbon Transfer Through Peat
        Jeffrey M. McKenzie, Donald I. Siegel, and Donald O. Rosenberry 265

        Water Relations in Cutover Peatlands
        Jonathan S. Price and Scott J. Ketcheson 277

        The Influence of Permeable Mineral Lenses on Peatland Hydrology
        A. S. Reeve, Z. D. Tyczka, X. Comas, and L. D. Slater 289

        Index 299

      Recently viewed products

      © 2026 Book Curl

        • American Express
        • Apple Pay
        • Diners Club
        • Discover
        • Google Pay
        • Maestro
        • Mastercard
        • PayPal
        • Shop Pay
        • Union Pay
        • Visa

        Login

        Forgot your password?

        Don't have an account yet?
        Create account