Quantifying the impact of winter warming on the Arctic carbon cycle
The Arctic has undergone extreme changes during the last decades and is warming over twice the global average. There has been increasing interest in understanding how warming and changes in snow and rainfall will affect high-latitude ecosystems. Although observational studies highlight the importanc...
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| Format: | Doctoral or Postdoctoral Thesis |
| Language: | English |
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Lund University (Media-Tryck)
2023
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| Online Access: | https://lup.lub.lu.se/record/32c8470b-a8f0-4038-b61c-3c732756afd2 https://portal.research.lu.se/files/135577009/AP_kappa.pdf |
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ftulundlup:oai:lup.lub.lu.se:32c8470b-a8f0-4038-b61c-3c732756afd2 2023-05-15T14:41:19+02:00 Quantifying the impact of winter warming on the Arctic carbon cycle Pongrácz, Alexandra 2023-01-17 application/pdf https://lup.lub.lu.se/record/32c8470b-a8f0-4038-b61c-3c732756afd2 https://portal.research.lu.se/files/135577009/AP_kappa.pdf eng eng Lund University (Media-Tryck) https://lup.lub.lu.se/record/32c8470b-a8f0-4038-b61c-3c732756afd2 urn:isbn:978-91-89187-21-4 urn:isbn:978-91-89187-22-1 https://portal.research.lu.se/files/135577009/AP_kappa.pdf info:eu-repo/semantics/openAccess Physical Geography Arctic snow permafrost LPJ-GUESS non-growing season carbon cycling thesis/doccomp info:eu-repo/semantics/doctoralThesis text 2023 ftulundlup 2023-02-08T23:26:59Z The Arctic has undergone extreme changes during the last decades and is warming over twice the global average. There has been increasing interest in understanding how warming and changes in snow and rainfall will affect high-latitude ecosystems. Although observational studies highlight the importance of cold-season carbon fluxes on the annual carbon balance, models, in general, cannot realistically capture these wintertime processes. In this thesis, we developed the LPJ-GUESS ecosystem model to better represent cold season processes. Our aim is to evaluate how changing winter conditions would affect arctic ecosystems and, indirectly, the global carbon and hydrological cycles. In our first study, we introduced a new snow scheme that improved the pan-Arctic model-data correspondence in observed snow depth, snow season length and snow insulation capacity. We used the updated model to examine the relationships between snow conditions and carbon flux changes under different future scenarios. We found that the coldest regions and coldest season are most vulnerable to environmental changes, which corresponds to the areas where we currently have the largest uncertainties. We explored the impact of extreme winter events on ground conditions and carbon fluxes. This study highlighted the still-existing shortcomings of the model in capturing short-term extreme weather phenomena and their impact. We tested a conceptual model to enable the simulation of autumn-time methane emissions at a high-arctic study site. The updated module could simulate both the growing season and autumn-time methane emission peaks, and we proposed further investigation into the possibilities of including physical controls of methane emissions in the model. Our studies improved the model’s performance in simulating wintertime processes across the Arctic. We highlight the importance of further developing snow dynamics and cold season greenhouse exchange processes in ecosystem models. Further improvements are necessary to create more robust future ... Doctoral or Postdoctoral Thesis Arctic permafrost Lund University Publications (LUP) Arctic |
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Open Polar |
| collection |
Lund University Publications (LUP) |
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ftulundlup |
| language |
English |
| topic |
Physical Geography Arctic snow permafrost LPJ-GUESS non-growing season carbon cycling |
| spellingShingle |
Physical Geography Arctic snow permafrost LPJ-GUESS non-growing season carbon cycling Pongrácz, Alexandra Quantifying the impact of winter warming on the Arctic carbon cycle |
| topic_facet |
Physical Geography Arctic snow permafrost LPJ-GUESS non-growing season carbon cycling |
| description |
The Arctic has undergone extreme changes during the last decades and is warming over twice the global average. There has been increasing interest in understanding how warming and changes in snow and rainfall will affect high-latitude ecosystems. Although observational studies highlight the importance of cold-season carbon fluxes on the annual carbon balance, models, in general, cannot realistically capture these wintertime processes. In this thesis, we developed the LPJ-GUESS ecosystem model to better represent cold season processes. Our aim is to evaluate how changing winter conditions would affect arctic ecosystems and, indirectly, the global carbon and hydrological cycles. In our first study, we introduced a new snow scheme that improved the pan-Arctic model-data correspondence in observed snow depth, snow season length and snow insulation capacity. We used the updated model to examine the relationships between snow conditions and carbon flux changes under different future scenarios. We found that the coldest regions and coldest season are most vulnerable to environmental changes, which corresponds to the areas where we currently have the largest uncertainties. We explored the impact of extreme winter events on ground conditions and carbon fluxes. This study highlighted the still-existing shortcomings of the model in capturing short-term extreme weather phenomena and their impact. We tested a conceptual model to enable the simulation of autumn-time methane emissions at a high-arctic study site. The updated module could simulate both the growing season and autumn-time methane emission peaks, and we proposed further investigation into the possibilities of including physical controls of methane emissions in the model. Our studies improved the model’s performance in simulating wintertime processes across the Arctic. We highlight the importance of further developing snow dynamics and cold season greenhouse exchange processes in ecosystem models. Further improvements are necessary to create more robust future ... |
| format |
Doctoral or Postdoctoral Thesis |
| author |
Pongrácz, Alexandra |
| author_facet |
Pongrácz, Alexandra |
| author_sort |
Pongrácz, Alexandra |
| title |
Quantifying the impact of winter warming on the Arctic carbon cycle |
| title_short |
Quantifying the impact of winter warming on the Arctic carbon cycle |
| title_full |
Quantifying the impact of winter warming on the Arctic carbon cycle |
| title_fullStr |
Quantifying the impact of winter warming on the Arctic carbon cycle |
| title_full_unstemmed |
Quantifying the impact of winter warming on the Arctic carbon cycle |
| title_sort |
quantifying the impact of winter warming on the arctic carbon cycle |
| publisher |
Lund University (Media-Tryck) |
| publishDate |
2023 |
| url |
https://lup.lub.lu.se/record/32c8470b-a8f0-4038-b61c-3c732756afd2 https://portal.research.lu.se/files/135577009/AP_kappa.pdf |
| geographic |
Arctic |
| geographic_facet |
Arctic |
| genre |
Arctic permafrost |
| genre_facet |
Arctic permafrost |
| op_relation |
https://lup.lub.lu.se/record/32c8470b-a8f0-4038-b61c-3c732756afd2 urn:isbn:978-91-89187-21-4 urn:isbn:978-91-89187-22-1 https://portal.research.lu.se/files/135577009/AP_kappa.pdf |
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info:eu-repo/semantics/openAccess |
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1766313112199233536 |