Controls on Stable Methane Isotope Values in Northern Peatlands and Potential Shifts in Values Under Permafrost Thaw Scenarios
Northern peatlands are a globally significant source of methane (CH4), and emissions are projected to increase due to warming and permafrost loss. Understanding the microbial mechanisms behind patterns in CH4 production in peatlands will be key to predicting annual emissions changes, with stable car...
| Main Authors: | , , , , , , , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Other Authors: | , , , |
| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
John Wiley & Sons
2025
|
| Subjects: | |
| Online Access: | http://hdl.handle.net/10138/590831 |
| _version_ | 1825505567990349824 |
|---|---|
| author | Kuhn, McKenzie A. Varner, Ruth K. McCalley, Carmody K. Perryman, Clarice R. Aurela, Mika Burke, Sophia A. Chanton, Jeffrey P. Crill, Patrick M. DelGreco, Jessica Deng, Jia Heffernan, Liam Herrick, Christina Hodgkins, Suzanne B. Jones, Cheristy P. Juutinen, Sari Kane, Evan S. Lamit, Louis J. Larmola, Tuula Lilleskov, Erik Olefeldt, David Palace, Michael W. Rich, Virginia I. Schulze, Christopher Shorter, Joanne H. Sullivan, Franklin B. Sonnentag, Oliver Turetsky, Merritt R. Waldrop, Mark P. |
| author2 | Ilmatieteen laitos Finnish Meteorological Institute orcid:0000-0002-4046-7225 orcid:0000-0002-7752-1950 |
| author_facet | Kuhn, McKenzie A. Varner, Ruth K. McCalley, Carmody K. Perryman, Clarice R. Aurela, Mika Burke, Sophia A. Chanton, Jeffrey P. Crill, Patrick M. DelGreco, Jessica Deng, Jia Heffernan, Liam Herrick, Christina Hodgkins, Suzanne B. Jones, Cheristy P. Juutinen, Sari Kane, Evan S. Lamit, Louis J. Larmola, Tuula Lilleskov, Erik Olefeldt, David Palace, Michael W. Rich, Virginia I. Schulze, Christopher Shorter, Joanne H. Sullivan, Franklin B. Sonnentag, Oliver Turetsky, Merritt R. Waldrop, Mark P. |
| author_sort | Kuhn, McKenzie A. |
| collection | HELDA – University of Helsinki Open Repository |
| description | Northern peatlands are a globally significant source of methane (CH4), and emissions are projected to increase due to warming and permafrost loss. Understanding the microbial mechanisms behind patterns in CH4 production in peatlands will be key to predicting annual emissions changes, with stable carbon isotopes (δ13C-CH4) being a powerful tool for characterizing these drivers. Given that δ13C-CH4 is used in top-down atmospheric inversion models to partition sources, our ability to model CH4 production pathways and associated δ13C-CH4 values is critical. We sought to characterize the role of environmental conditions, including hydrologic and vegetation patterns associated with permafrost thaw, on δ13C-CH4 values from high-latitude peatlands. We measured porewater and emitted CH4 stable isotopes, pH, and vegetation composition from five boreal-Arctic peatlands. Porewater δ13C-CH4 was strongly associated with peatland type, with δ13C enriched values obtained from more minerotrophic fens (−61.2 ± 9.1‰) compared to permafrost-free bogs (−74.1 ± 9.4‰) and raised permafrost bogs (−81.6 ± 11.5‰). Variation in porewater δ13C-CH4 was best explained by sedge cover, CH4 concentration, and the interactive effect of peatland type and pH (r2 = 0.50, p < 0.001). Emitted δ13C-CH4 varied greatly but was positively correlated with porewater δ13C-CH4. We calculated a mixed atmospheric δ13C-CH4 value for northern peatlands of −65.3 ± 7‰ and show that this value is more sensitive to landscape drying than wetting under permafrost thaw scenarios. Our results suggest northern peatland δ13C-CH4 values are likely to shift in the future which has important implications for source partitioning in atmospheric inversion models. |
| format | Article in Journal/Newspaper |
| genre | Arctic permafrost |
| genre_facet | Arctic permafrost |
| geographic | Arctic |
| geographic_facet | Arctic |
| id | ftunivhelsihelda:oai:helda.helsinki.fi:10138/590831 |
| institution | Open Polar |
| language | English |
| op_collection_id | ftunivhelsihelda |
| op_relation | Journal of geophysical research : biogeosciences 10.1029/2023jg007837 2169-8953 2169-8961 7 129 113832 http://hdl.handle.net/10138/590831 |
| op_rights | CC BY 4.0 |
| publishDate | 2025 |
| publisher | John Wiley & Sons |
| record_format | openpolar |
| spelling | ftunivhelsihelda:oai:helda.helsinki.fi:10138/590831 2025-03-02T15:23:55+00:00 Controls on Stable Methane Isotope Values in Northern Peatlands and Potential Shifts in Values Under Permafrost Thaw Scenarios Kuhn, McKenzie A. Varner, Ruth K. McCalley, Carmody K. Perryman, Clarice R. Aurela, Mika Burke, Sophia A. Chanton, Jeffrey P. Crill, Patrick M. DelGreco, Jessica Deng, Jia Heffernan, Liam Herrick, Christina Hodgkins, Suzanne B. Jones, Cheristy P. Juutinen, Sari Kane, Evan S. Lamit, Louis J. Larmola, Tuula Lilleskov, Erik Olefeldt, David Palace, Michael W. Rich, Virginia I. Schulze, Christopher Shorter, Joanne H. Sullivan, Franklin B. Sonnentag, Oliver Turetsky, Merritt R. Waldrop, Mark P. Ilmatieteen laitos Finnish Meteorological Institute orcid:0000-0002-4046-7225 orcid:0000-0002-7752-1950 2025-01-21T17:22:08Z application/pdf http://hdl.handle.net/10138/590831 en eng John Wiley & Sons Journal of geophysical research : biogeosciences 10.1029/2023jg007837 2169-8953 2169-8961 7 129 113832 http://hdl.handle.net/10138/590831 CC BY 4.0 peatlands bogs greenhouse gases climate changes methane emissions permafrost melting carbon dioxide warming turvemaat suot kasvihuonekaasut ilmastonmuutokset metaani päästöt ikirouta sulaminen hiilidioksidi lämpeneminen A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä A1 Journal article (refereed), original research publishedVersion 2025 ftunivhelsihelda 2025-02-03T01:46:39Z Northern peatlands are a globally significant source of methane (CH4), and emissions are projected to increase due to warming and permafrost loss. Understanding the microbial mechanisms behind patterns in CH4 production in peatlands will be key to predicting annual emissions changes, with stable carbon isotopes (δ13C-CH4) being a powerful tool for characterizing these drivers. Given that δ13C-CH4 is used in top-down atmospheric inversion models to partition sources, our ability to model CH4 production pathways and associated δ13C-CH4 values is critical. We sought to characterize the role of environmental conditions, including hydrologic and vegetation patterns associated with permafrost thaw, on δ13C-CH4 values from high-latitude peatlands. We measured porewater and emitted CH4 stable isotopes, pH, and vegetation composition from five boreal-Arctic peatlands. Porewater δ13C-CH4 was strongly associated with peatland type, with δ13C enriched values obtained from more minerotrophic fens (−61.2 ± 9.1‰) compared to permafrost-free bogs (−74.1 ± 9.4‰) and raised permafrost bogs (−81.6 ± 11.5‰). Variation in porewater δ13C-CH4 was best explained by sedge cover, CH4 concentration, and the interactive effect of peatland type and pH (r2 = 0.50, p < 0.001). Emitted δ13C-CH4 varied greatly but was positively correlated with porewater δ13C-CH4. We calculated a mixed atmospheric δ13C-CH4 value for northern peatlands of −65.3 ± 7‰ and show that this value is more sensitive to landscape drying than wetting under permafrost thaw scenarios. Our results suggest northern peatland δ13C-CH4 values are likely to shift in the future which has important implications for source partitioning in atmospheric inversion models. Article in Journal/Newspaper Arctic permafrost HELDA – University of Helsinki Open Repository Arctic |
| spellingShingle | peatlands bogs greenhouse gases climate changes methane emissions permafrost melting carbon dioxide warming turvemaat suot kasvihuonekaasut ilmastonmuutokset metaani päästöt ikirouta sulaminen hiilidioksidi lämpeneminen Kuhn, McKenzie A. Varner, Ruth K. McCalley, Carmody K. Perryman, Clarice R. Aurela, Mika Burke, Sophia A. Chanton, Jeffrey P. Crill, Patrick M. DelGreco, Jessica Deng, Jia Heffernan, Liam Herrick, Christina Hodgkins, Suzanne B. Jones, Cheristy P. Juutinen, Sari Kane, Evan S. Lamit, Louis J. Larmola, Tuula Lilleskov, Erik Olefeldt, David Palace, Michael W. Rich, Virginia I. Schulze, Christopher Shorter, Joanne H. Sullivan, Franklin B. Sonnentag, Oliver Turetsky, Merritt R. Waldrop, Mark P. Controls on Stable Methane Isotope Values in Northern Peatlands and Potential Shifts in Values Under Permafrost Thaw Scenarios |
| title | Controls on Stable Methane Isotope Values in Northern Peatlands and Potential Shifts in Values Under Permafrost Thaw Scenarios |
| title_full | Controls on Stable Methane Isotope Values in Northern Peatlands and Potential Shifts in Values Under Permafrost Thaw Scenarios |
| title_fullStr | Controls on Stable Methane Isotope Values in Northern Peatlands and Potential Shifts in Values Under Permafrost Thaw Scenarios |
| title_full_unstemmed | Controls on Stable Methane Isotope Values in Northern Peatlands and Potential Shifts in Values Under Permafrost Thaw Scenarios |
| title_short | Controls on Stable Methane Isotope Values in Northern Peatlands and Potential Shifts in Values Under Permafrost Thaw Scenarios |
| title_sort | controls on stable methane isotope values in northern peatlands and potential shifts in values under permafrost thaw scenarios |
| topic | peatlands bogs greenhouse gases climate changes methane emissions permafrost melting carbon dioxide warming turvemaat suot kasvihuonekaasut ilmastonmuutokset metaani päästöt ikirouta sulaminen hiilidioksidi lämpeneminen |
| topic_facet | peatlands bogs greenhouse gases climate changes methane emissions permafrost melting carbon dioxide warming turvemaat suot kasvihuonekaasut ilmastonmuutokset metaani päästöt ikirouta sulaminen hiilidioksidi lämpeneminen |
| url | http://hdl.handle.net/10138/590831 |