The importance of interactions between snow, permafrost and vegetation dynamics in affecting terrestrial carbon balance in circumpolar regions, 2022-2100
Permafrost dynamics can drastically affect vegetation and soil carbon dynamics in northern high latitudes. Vegetation has significant influences on the energy balance of soil surface by impacting the short-wave radiation, long-wave radiation and surface sensible heat flux, affecting soil thermal dyn...
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Arctic Data Center
2023
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| Online Access: | https://doi.org/10.18739/A2DJ58J2R |
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dataone:doi:10.18739/A2DJ58J2R |
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openpolar |
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dataone:doi:10.18739/A2DJ58J2R 2024-03-03T19:46:31+00:00 The importance of interactions between snow, permafrost and vegetation dynamics in affecting terrestrial carbon balance in circumpolar regions, 2022-2100 Yiming Xu Qianlai Zhuang simulated regional (45-90N) terrestrial carbon fluxes ENVELOPE(180.0,180.0,90.0,45.0) BEGINDATE: 2023-03-17T00:00:00Z ENDDATE: 2023-03-17T00:00:00Z 2023-03-17T00:00:00Z https://doi.org/10.18739/A2DJ58J2R unknown Arctic Data Center permafrost carbon dynamics ecosystem modeling land surface process Dataset 2023 dataone:urn:node:ARCTIC https://doi.org/10.18739/A2DJ58J2R 2024-03-03T19:19:11Z Permafrost dynamics can drastically affect vegetation and soil carbon dynamics in northern high latitudes. Vegetation has significant influences on the energy balance of soil surface by impacting the short-wave radiation, long-wave radiation and surface sensible heat flux, affecting soil thermal dynamics, in turn, inducing vegetation shift, affecting carbon cycling. During winter, snow can also significantly impact soil temperature due to its insulative effect. However, these processes have not been fully modeled to date. To quantify the interactions between vegetation, snow, and soil thermal dynamics and their impacts on carbon dynamics over the circumpolar region (45–90◦ N), we revise a sophisticated ecosystem model to improve simulations of soil temperature profile and their influences on vegetation, ecosystem carbon pools and fluxes. We find that, with warmer soil temperature in winter and cooler soil temperature in summer simulated with the revised model considering vegetation shift and snow effects, the region will release 1.54 Pg C/year (pentagrams of carbon per year) to the atmosphere for present-day and 66.77–87.95 Pg C/year in 2022–2100. The canopy effects due to vegetation shift, however, will get more carbon sequestered into the ecosystem at 1.00 Pg C/year for present day and 36.09–44.32 Pg C/year in 2022–2100. This study highlights the importance to consider the interactions between snow, vegetation shift and soil thermal dynamics in simulating carbon dynamics in the region. Dataset permafrost Arctic Data Center (via DataONE) ENVELOPE(180.0,180.0,90.0,45.0) |
| institution |
Open Polar |
| collection |
Arctic Data Center (via DataONE) |
| op_collection_id |
dataone:urn:node:ARCTIC |
| language |
unknown |
| topic |
permafrost carbon dynamics ecosystem modeling land surface process |
| spellingShingle |
permafrost carbon dynamics ecosystem modeling land surface process Yiming Xu Qianlai Zhuang The importance of interactions between snow, permafrost and vegetation dynamics in affecting terrestrial carbon balance in circumpolar regions, 2022-2100 |
| topic_facet |
permafrost carbon dynamics ecosystem modeling land surface process |
| description |
Permafrost dynamics can drastically affect vegetation and soil carbon dynamics in northern high latitudes. Vegetation has significant influences on the energy balance of soil surface by impacting the short-wave radiation, long-wave radiation and surface sensible heat flux, affecting soil thermal dynamics, in turn, inducing vegetation shift, affecting carbon cycling. During winter, snow can also significantly impact soil temperature due to its insulative effect. However, these processes have not been fully modeled to date. To quantify the interactions between vegetation, snow, and soil thermal dynamics and their impacts on carbon dynamics over the circumpolar region (45–90◦ N), we revise a sophisticated ecosystem model to improve simulations of soil temperature profile and their influences on vegetation, ecosystem carbon pools and fluxes. We find that, with warmer soil temperature in winter and cooler soil temperature in summer simulated with the revised model considering vegetation shift and snow effects, the region will release 1.54 Pg C/year (pentagrams of carbon per year) to the atmosphere for present-day and 66.77–87.95 Pg C/year in 2022–2100. The canopy effects due to vegetation shift, however, will get more carbon sequestered into the ecosystem at 1.00 Pg C/year for present day and 36.09–44.32 Pg C/year in 2022–2100. This study highlights the importance to consider the interactions between snow, vegetation shift and soil thermal dynamics in simulating carbon dynamics in the region. |
| format |
Dataset |
| author |
Yiming Xu Qianlai Zhuang |
| author_facet |
Yiming Xu Qianlai Zhuang |
| author_sort |
Yiming Xu |
| title |
The importance of interactions between snow, permafrost and vegetation dynamics in affecting terrestrial carbon balance in circumpolar regions, 2022-2100 |
| title_short |
The importance of interactions between snow, permafrost and vegetation dynamics in affecting terrestrial carbon balance in circumpolar regions, 2022-2100 |
| title_full |
The importance of interactions between snow, permafrost and vegetation dynamics in affecting terrestrial carbon balance in circumpolar regions, 2022-2100 |
| title_fullStr |
The importance of interactions between snow, permafrost and vegetation dynamics in affecting terrestrial carbon balance in circumpolar regions, 2022-2100 |
| title_full_unstemmed |
The importance of interactions between snow, permafrost and vegetation dynamics in affecting terrestrial carbon balance in circumpolar regions, 2022-2100 |
| title_sort |
importance of interactions between snow, permafrost and vegetation dynamics in affecting terrestrial carbon balance in circumpolar regions, 2022-2100 |
| publisher |
Arctic Data Center |
| publishDate |
2023 |
| url |
https://doi.org/10.18739/A2DJ58J2R |
| op_coverage |
simulated regional (45-90N) terrestrial carbon fluxes ENVELOPE(180.0,180.0,90.0,45.0) BEGINDATE: 2023-03-17T00:00:00Z ENDDATE: 2023-03-17T00:00:00Z |
| long_lat |
ENVELOPE(180.0,180.0,90.0,45.0) |
| genre |
permafrost |
| genre_facet |
permafrost |
| op_doi |
https://doi.org/10.18739/A2DJ58J2R |
| _version_ |
1792544810496688128 |