Münchberger, Wiebke: Past and present carbon dynamics in contrasting South Patagonian bog ecosystems. 2019
Inhalt
- Contents
- Abbreviations
- Summary
- Zusammenfassung
- Resumen
- 1. Extended overview about this study
- 1.1. Introduction
- General pathways of carbon flows in peatlands
- Relevance of undisturbed peatlands and threats to peatlands
- Long-term carbon accumulation in peatlands and its controls
- Methane dynamics in peatlands and its controls
- Relevance of vascular plants for CH4 dynamics in peatlands
- Special characteristics of Patagonian peatlands
- Cushion bogs and other vascular-plant dominated peatlands
- 1.2. Objectives
- 1.3. Methods
- Study sites
- Raised Sphagnum-dominated bog ecosystem
- Vascular cushion plant-dominated bog ecosystem
- Climatic settings
- Setup and sampling in the field
- Record of environmental conditions
- Chamber measurements
- Sampling of pore water and in-situ characterization
- Peat core sampling
- Analytical methods
- Aerial image classification and upscaling of microform-level CH4 fluxes
- 1.4. Results and discussion
- Long-term and recent accumulation rates of C and N
- Controls on C and N accumulation rates and the impact of vegetation
- Methane emissions from dominant bog microforms
- Controls on CH4 emissions in the cushion bog and the impact of roots
- Estimate of landscape-level CH4 release from both bog ecosystems
- 1.5. Synthesis
- 2. Study I
- Effects of vascular plants on long-term carbon and nitrogen accumulation in pristine, ombrotrophic bogs of southern Patagonia*
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- Introduction
- Material and Methods
- Description of the study site
- Sampling of peat cores in the field
- Analyses of solid peat characteristics from continuous peat profiles
- 14C and 210Pb dating
- Calculations and statistical analyses
- Results
- Plant macrofossils
- Elemental composition, peat organic matter quality and stable isotopes
- Peat, carbon and nitrogen accumulation in the Sphagnum bog
- Peat, carbon and nitrogen accumulation in the cushion bog
- Discussion
- Accumulation of peat, carbon and nitrogen in the Sphagnum bog
- Accumulation of peat, carbon and nitrogen in the cushion bog
- Within-site variability of decomposition patterns as compared between Sphagnum bogs and cushion bogs
- Conclusion
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- Supplement
- Acknowledgement
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- 3. Study II
- Zero to moderate methane emissions in a densely rooted, pristine Patagonian bog – biogeochemical controls as revealed from isotopic evidence*
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- Introduction
- Material and methods
- Description of the study site
- Sampling and analysis of solid peat and root biomass
- Environmental variables
- Chamber measurements and analyses of soil–atmosphere CH4 fluxes
- Depth profiles of peat pore water concentrations
- Results
- Characteristics of solid peat and root biomass
- Environmental conditions and potential controls on CH4 fluxes
- Soil–atmosphere CH4 fluxes and features of microforms possibly affecting CH4 emissions
- Pore water CH4 and DIC concentration profiles
- Carbon isotopic values in pore water and apparent fractionation
- Hydrogen, oxygen and sulfate concentrations in pore water profiles
- Discussion
- Environmental controls on CH4 emissions
- Astelia lawns – zero emission scenario
- Pools – low-emission scenario
- Sphagnum and Donatia lawns – low- to moderate-emission scenario
- Implications for ecosystem CH4 emissions from Patagonian cushion bogs
- Conclusion
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- Supplement
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- Acknowledgements
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- 4. Study III
- High-resolution classification of South Patagonian peat bog microforms reveals potential gaps in up-scaled CH4 fluxes by use of Unmanned Aerial System (UAS) and CIR imagery*
- 5. References
- Danksagung