Carbon Cycling in Northern Peatlands
Herausgeber: Baird, Andrew J; Slater, Lee D; Reeve, A S; Comas, Xavier; Belyea, Lisa R Belyea
Carbon Cycling in Northern Peatlands
Herausgeber: Baird, Andrew J; Slater, Lee D; Reeve, A S; Comas, Xavier; Belyea, Lisa R Belyea
- Gebundenes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
Published by the American Geophysical Union as part of the Geophysical Monograph Series, Volume 184
Andere Kunden interessierten sich auch für
- Dan CharmanPeatlands and Environmental Change269,99 €
- Biogeochemistry of the Ross Sea112,99 €
- Carbon Sequestration and Its Role in the Global Carbon Cycle154,99 €
- Diversity of Hydrothermal Systems on Slow Spreading Ocean Ridges164,99 €
- The Central Atlantic Magmatic Province90,99 €
- Gas Transfer at Water Surfaces99,99 €
- Amazonia and Global Change149,99 €
-
-
-
Published by the American Geophysical Union as part of the Geophysical Monograph Series, Volume 184
Produktdetails
- Produktdetails
- Verlag: Wiley
- Seitenzahl: 299
- Erscheinungstermin: 12. Januar 2009
- Englisch
- Abmessung: 269mm x 226mm x 20mm
- Gewicht: 1202g
- ISBN-13: 9780875904498
- ISBN-10: 0875904491
- Artikelnr.: 44051186
- Verlag: Wiley
- Seitenzahl: 299
- Erscheinungstermin: 12. Januar 2009
- Englisch
- Abmessung: 269mm x 226mm x 20mm
- Gewicht: 1202g
- ISBN-13: 9780875904498
- ISBN-10: 0875904491
- Artikelnr.: 44051186
Andrew J. Baird and Lisa R. Belyea Belyea are the authors of Carbon Cycling in Northern Peatlands, published by Wiley.
Preface
Lee D. Slater, Andrew J. Baird, Lisa R. Belyea, Xavier Comas,and A. S. Reeve vii
Understanding Carbon Cycling in Northern Peatlands: RecentDevelopments 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 CarbonCycling
Nonlinear Dynamics of Peatlands and Potential Feedbacks on theClimate System
Lisa R. Belyea 5
Issues Related to Incorporating Northern Peatlands Into GlobalClimate Models
Steve Frolking, Nigel Roulet, and David Lawrence 19
Upscaling of Peatland-Atmosphere Fluxes of Methane: Small-ScaleHeterogeneity 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 HoloceneClimate 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 CarbonCycling
Northern Peatland Vegetation and the Carbon Cycle: A RemoteSensing Approach
A. Harris and R. G. Bryant 79
Plant Litter Decomposition and Nutrient Release inPeatlands
Luca Bragazza, Alexandre Buttler, Andy Siegenthaler, and EdwardA. D. Mitchell 99
Microbial Community Structure and Carbon Substrate Use inNorthern Peatlands
Rebekka R. E. Artz 111
Partitioning Litter Mass Loss Into Carbon Dioxide and Methane inPeatland 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-PhaseMethane Dynamics in Peatlands Using the Ground-Penetrating RadarMethod
Xavier Comas and Lee D. Slater 159
Methane Dynamics in Peat: Importance of Shallow Peats and aNovel 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 andEmitted From Northern Peatlands
Edward R. C. Hornibrook 187
Laboratory Investigations of Methane Buildup in, and ReleaseFrom, Shallow Peats
Mikhail Mastepanov and Torben R. Christensen 205
Physical Controls on Ebullition Losses of Methane FromPeatlands
Takeshi Tokida, Tsuyoshi Miyazaki, and Masaru Mizoguchi219
Section IV: Water and Dissolved Carbon Transfers Within andFrom Peatlands
Dissolved Organic Carbon Production and Transport in CanadianPeatlands
Tim R. Moore 229
Hydrological Controls on Dissolved Organic Carbon Production andRelease From UK Peatlands
Nathalie Fenner, Chris Freeman, and Fred Worrall 237
The Role of Natural Soil Pipes in Water and Carbon Transfer inand 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 ThroughPeat
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 PeatlandHydrology
A. S. Reeve, Z. D. Tyczka, X. Comas, and L. D. Slater289
Index 299
Lee D. Slater, Andrew J. Baird, Lisa R. Belyea, Xavier Comas,and A. S. Reeve vii
Understanding Carbon Cycling in Northern Peatlands: RecentDevelopments 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 CarbonCycling
Nonlinear Dynamics of Peatlands and Potential Feedbacks on theClimate System
Lisa R. Belyea 5
Issues Related to Incorporating Northern Peatlands Into GlobalClimate Models
Steve Frolking, Nigel Roulet, and David Lawrence 19
Upscaling of Peatland-Atmosphere Fluxes of Methane: Small-ScaleHeterogeneity 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 HoloceneClimate 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 CarbonCycling
Northern Peatland Vegetation and the Carbon Cycle: A RemoteSensing Approach
A. Harris and R. G. Bryant 79
Plant Litter Decomposition and Nutrient Release inPeatlands
Luca Bragazza, Alexandre Buttler, Andy Siegenthaler, and EdwardA. D. Mitchell 99
Microbial Community Structure and Carbon Substrate Use inNorthern Peatlands
Rebekka R. E. Artz 111
Partitioning Litter Mass Loss Into Carbon Dioxide and Methane inPeatland 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-PhaseMethane Dynamics in Peatlands Using the Ground-Penetrating RadarMethod
Xavier Comas and Lee D. Slater 159
Methane Dynamics in Peat: Importance of Shallow Peats and aNovel 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 andEmitted From Northern Peatlands
Edward R. C. Hornibrook 187
Laboratory Investigations of Methane Buildup in, and ReleaseFrom, Shallow Peats
Mikhail Mastepanov and Torben R. Christensen 205
Physical Controls on Ebullition Losses of Methane FromPeatlands
Takeshi Tokida, Tsuyoshi Miyazaki, and Masaru Mizoguchi219
Section IV: Water and Dissolved Carbon Transfers Within andFrom Peatlands
Dissolved Organic Carbon Production and Transport in CanadianPeatlands
Tim R. Moore 229
Hydrological Controls on Dissolved Organic Carbon Production andRelease From UK Peatlands
Nathalie Fenner, Chris Freeman, and Fred Worrall 237
The Role of Natural Soil Pipes in Water and Carbon Transfer inand 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 ThroughPeat
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 PeatlandHydrology
A. S. Reeve, Z. D. Tyczka, X. Comas, and L. D. Slater289
Index 299
Preface
Lee D. Slater, Andrew J. Baird, Lisa R. Belyea, Xavier Comas,and A. S. Reeve vii
Understanding Carbon Cycling in Northern Peatlands: RecentDevelopments 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 CarbonCycling
Nonlinear Dynamics of Peatlands and Potential Feedbacks on theClimate System
Lisa R. Belyea 5
Issues Related to Incorporating Northern Peatlands Into GlobalClimate Models
Steve Frolking, Nigel Roulet, and David Lawrence 19
Upscaling of Peatland-Atmosphere Fluxes of Methane: Small-ScaleHeterogeneity 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 HoloceneClimate 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 CarbonCycling
Northern Peatland Vegetation and the Carbon Cycle: A RemoteSensing Approach
A. Harris and R. G. Bryant 79
Plant Litter Decomposition and Nutrient Release inPeatlands
Luca Bragazza, Alexandre Buttler, Andy Siegenthaler, and EdwardA. D. Mitchell 99
Microbial Community Structure and Carbon Substrate Use inNorthern Peatlands
Rebekka R. E. Artz 111
Partitioning Litter Mass Loss Into Carbon Dioxide and Methane inPeatland 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-PhaseMethane Dynamics in Peatlands Using the Ground-Penetrating RadarMethod
Xavier Comas and Lee D. Slater 159
Methane Dynamics in Peat: Importance of Shallow Peats and aNovel 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 andEmitted From Northern Peatlands
Edward R. C. Hornibrook 187
Laboratory Investigations of Methane Buildup in, and ReleaseFrom, Shallow Peats
Mikhail Mastepanov and Torben R. Christensen 205
Physical Controls on Ebullition Losses of Methane FromPeatlands
Takeshi Tokida, Tsuyoshi Miyazaki, and Masaru Mizoguchi219
Section IV: Water and Dissolved Carbon Transfers Within andFrom Peatlands
Dissolved Organic Carbon Production and Transport in CanadianPeatlands
Tim R. Moore 229
Hydrological Controls on Dissolved Organic Carbon Production andRelease From UK Peatlands
Nathalie Fenner, Chris Freeman, and Fred Worrall 237
The Role of Natural Soil Pipes in Water and Carbon Transfer inand 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 ThroughPeat
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 PeatlandHydrology
A. S. Reeve, Z. D. Tyczka, X. Comas, and L. D. Slater289
Index 299
Lee D. Slater, Andrew J. Baird, Lisa R. Belyea, Xavier Comas,and A. S. Reeve vii
Understanding Carbon Cycling in Northern Peatlands: RecentDevelopments 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 CarbonCycling
Nonlinear Dynamics of Peatlands and Potential Feedbacks on theClimate System
Lisa R. Belyea 5
Issues Related to Incorporating Northern Peatlands Into GlobalClimate Models
Steve Frolking, Nigel Roulet, and David Lawrence 19
Upscaling of Peatland-Atmosphere Fluxes of Methane: Small-ScaleHeterogeneity 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 HoloceneClimate 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 CarbonCycling
Northern Peatland Vegetation and the Carbon Cycle: A RemoteSensing Approach
A. Harris and R. G. Bryant 79
Plant Litter Decomposition and Nutrient Release inPeatlands
Luca Bragazza, Alexandre Buttler, Andy Siegenthaler, and EdwardA. D. Mitchell 99
Microbial Community Structure and Carbon Substrate Use inNorthern Peatlands
Rebekka R. E. Artz 111
Partitioning Litter Mass Loss Into Carbon Dioxide and Methane inPeatland 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-PhaseMethane Dynamics in Peatlands Using the Ground-Penetrating RadarMethod
Xavier Comas and Lee D. Slater 159
Methane Dynamics in Peat: Importance of Shallow Peats and aNovel 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 andEmitted From Northern Peatlands
Edward R. C. Hornibrook 187
Laboratory Investigations of Methane Buildup in, and ReleaseFrom, Shallow Peats
Mikhail Mastepanov and Torben R. Christensen 205
Physical Controls on Ebullition Losses of Methane FromPeatlands
Takeshi Tokida, Tsuyoshi Miyazaki, and Masaru Mizoguchi219
Section IV: Water and Dissolved Carbon Transfers Within andFrom Peatlands
Dissolved Organic Carbon Production and Transport in CanadianPeatlands
Tim R. Moore 229
Hydrological Controls on Dissolved Organic Carbon Production andRelease From UK Peatlands
Nathalie Fenner, Chris Freeman, and Fred Worrall 237
The Role of Natural Soil Pipes in Water and Carbon Transfer inand 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 ThroughPeat
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 PeatlandHydrology
A. S. Reeve, Z. D. Tyczka, X. Comas, and L. D. Slater289
Index 299