Carbon dynamics of a controlled peatland restoration experiment in Norway

Institut for Geovidenskab og Naturforvaltning

Carbon dynamics of a controlled peatland restoration experiment in Norway

Publikation: Konferencebidrag › Konferenceabstrakt til konference › Forskning

Standard

Carbon dynamics of a controlled peatland restoration experiment in Norway. / Bekken, Michael; Pirk, Norbert; Vatne, Astrid; Tallaksen, Lena; Westermann, Sebastian; Larsen, Poul; Ibrom, Andreas; Larsen, Klaus Steenberg; Knutson, Jacqueline; Dörsch, Peter.

2023. Abstract fra EGU General Assembly 2023, Vienna, Østrig.

Publikation: Konferencebidrag › Konferenceabstrakt til konference › Forskning

Harvard

Bekken, M, Pirk, N, Vatne, A, Tallaksen, L, Westermann, S, Larsen, P, Ibrom, A, Larsen, KS, Knutson, J & Dörsch, P 2023, 'Carbon dynamics of a controlled peatland restoration experiment in Norway', EGU General Assembly 2023, Vienna, Østrig, 24/04/2023 - 28/04/2023. https://doi.org/10.5194/egusphere-egu23-15754

APA

Bekken, M., Pirk, N., Vatne, A., Tallaksen, L., Westermann, S., Larsen, P., Ibrom, A., Larsen, K. S., Knutson, J., & Dörsch, P. (2023). Carbon dynamics of a controlled peatland restoration experiment in Norway. Abstract fra EGU General Assembly 2023, Vienna, Østrig. https://doi.org/10.5194/egusphere-egu23-15754

Vancouver

Bekken M, Pirk N, Vatne A, Tallaksen L, Westermann S, Larsen P o.a.. Carbon dynamics of a controlled peatland restoration experiment in Norway. 2023. Abstract fra EGU General Assembly 2023, Vienna, Østrig. https://doi.org/10.5194/egusphere-egu23-15754

Author

Bekken, Michael ; Pirk, Norbert ; Vatne, Astrid ; Tallaksen, Lena ; Westermann, Sebastian ; Larsen, Poul ; Ibrom, Andreas ; Larsen, Klaus Steenberg ; Knutson, Jacqueline ; Dörsch, Peter. / Carbon dynamics of a controlled peatland restoration experiment in Norway. Abstract fra EGU General Assembly 2023, Vienna, Østrig.1 s.

Bibtex

@conference{814efe5f6d1640d88170acf1123b1aaa,

title = "Carbon dynamics of a controlled peatland restoration experiment in Norway",

abstract = "Norway has the third greatest extent of peatlands in Europe, after Finland and Sweden. Norwegian peatlands cover nearly 30 000 km2 or 7.7 percent of Norway{\textquoteright}s land area. However, 6500 km2 of these peatlands have been drained for forestry or agriculture and are estimated to emit approximately 6 Mton CO2 annually, accounting for 11 percent of Norway{\textquoteright}s total carbon emissions. In 2016, the Norwegian Environment Agency and the Norwegian Directorate of Agriculture embarked on a peatland restoration plan to reduce greenhouse gas emissions and improve the ecological conditions of drained and degraded peatlands in Norway. Since then, over 100 peatland sites have been restored. However, only one of these sites is being actively monitored to determine the effect of restoration on carbon fluxes, making this site critical to understanding carbon dynamics of restored peatlands in Norway. The site, located in the Regn{\aa}sen and His{\aa}sen Nature Reserve (Trysil Municipality, Innlandet county) consists of two study areas that are sub-catchments of the same watershed, cover approximately 0.5 km2, and are separated by 0.5 km. Both areas were drained in the 1960s, with a network of drainage ditches totaling approximately 4000m. One of the areas was restored in 2021 by constructing 318 dams in the drainage ditches, while the other area remains drained as a control. In 2019 eddy covariance towers were installed to track vertical CO2 and CH4 fluxes on each site. In addition, DOC, DIC and water discharge measurements were taken to estimate lateral carbon transport, and soil samples were taken to estimate carbon stocks. Preliminary results indicate that CO2 fluxes have decreased and CH4 fluxes have increased in the restored site as compared to the drained site, and that vertical carbon fluxes account for over 90% of carbon transport on both sites. This project is coordinated by the LATICE (Land-ATmosphere Interactions in Cold Environments) project at University of Oslo. The results of this study will assist the Norwegian Environment Agency in shaping the next phase of the peatland restoration work in Norway.",

author = "Michael Bekken and Norbert Pirk and Astrid Vatne and Lena Tallaksen and Sebastian Westermann and Poul Larsen and Andreas Ibrom and Larsen, {Klaus Steenberg} and Jacqueline Knutson and Peter D{\"o}rsch",

year = "2023",

doi = "10.5194/egusphere-egu23-15754",

language = "English",

note = "EGU General Assembly 2023 : Vienna, Austria & Online ; Conference date: 24-04-2023 Through 28-04-2023",

}

RIS

TY - ABST

T1 - Carbon dynamics of a controlled peatland restoration experiment in Norway

AU - Bekken, Michael

AU - Pirk, Norbert

AU - Vatne, Astrid

AU - Tallaksen, Lena

AU - Westermann, Sebastian

AU - Larsen, Poul

AU - Ibrom, Andreas

AU - Larsen, Klaus Steenberg

AU - Knutson, Jacqueline

AU - Dörsch, Peter

PY - 2023

Y1 - 2023

N2 - Norway has the third greatest extent of peatlands in Europe, after Finland and Sweden. Norwegian peatlands cover nearly 30 000 km2 or 7.7 percent of Norway’s land area. However, 6500 km2 of these peatlands have been drained for forestry or agriculture and are estimated to emit approximately 6 Mton CO2 annually, accounting for 11 percent of Norway’s total carbon emissions. In 2016, the Norwegian Environment Agency and the Norwegian Directorate of Agriculture embarked on a peatland restoration plan to reduce greenhouse gas emissions and improve the ecological conditions of drained and degraded peatlands in Norway. Since then, over 100 peatland sites have been restored. However, only one of these sites is being actively monitored to determine the effect of restoration on carbon fluxes, making this site critical to understanding carbon dynamics of restored peatlands in Norway. The site, located in the Regnåsen and Hisåsen Nature Reserve (Trysil Municipality, Innlandet county) consists of two study areas that are sub-catchments of the same watershed, cover approximately 0.5 km2, and are separated by 0.5 km. Both areas were drained in the 1960s, with a network of drainage ditches totaling approximately 4000m. One of the areas was restored in 2021 by constructing 318 dams in the drainage ditches, while the other area remains drained as a control. In 2019 eddy covariance towers were installed to track vertical CO2 and CH4 fluxes on each site. In addition, DOC, DIC and water discharge measurements were taken to estimate lateral carbon transport, and soil samples were taken to estimate carbon stocks. Preliminary results indicate that CO2 fluxes have decreased and CH4 fluxes have increased in the restored site as compared to the drained site, and that vertical carbon fluxes account for over 90% of carbon transport on both sites. This project is coordinated by the LATICE (Land-ATmosphere Interactions in Cold Environments) project at University of Oslo. The results of this study will assist the Norwegian Environment Agency in shaping the next phase of the peatland restoration work in Norway.

AB - Norway has the third greatest extent of peatlands in Europe, after Finland and Sweden. Norwegian peatlands cover nearly 30 000 km2 or 7.7 percent of Norway’s land area. However, 6500 km2 of these peatlands have been drained for forestry or agriculture and are estimated to emit approximately 6 Mton CO2 annually, accounting for 11 percent of Norway’s total carbon emissions. In 2016, the Norwegian Environment Agency and the Norwegian Directorate of Agriculture embarked on a peatland restoration plan to reduce greenhouse gas emissions and improve the ecological conditions of drained and degraded peatlands in Norway. Since then, over 100 peatland sites have been restored. However, only one of these sites is being actively monitored to determine the effect of restoration on carbon fluxes, making this site critical to understanding carbon dynamics of restored peatlands in Norway. The site, located in the Regnåsen and Hisåsen Nature Reserve (Trysil Municipality, Innlandet county) consists of two study areas that are sub-catchments of the same watershed, cover approximately 0.5 km2, and are separated by 0.5 km. Both areas were drained in the 1960s, with a network of drainage ditches totaling approximately 4000m. One of the areas was restored in 2021 by constructing 318 dams in the drainage ditches, while the other area remains drained as a control. In 2019 eddy covariance towers were installed to track vertical CO2 and CH4 fluxes on each site. In addition, DOC, DIC and water discharge measurements were taken to estimate lateral carbon transport, and soil samples were taken to estimate carbon stocks. Preliminary results indicate that CO2 fluxes have decreased and CH4 fluxes have increased in the restored site as compared to the drained site, and that vertical carbon fluxes account for over 90% of carbon transport on both sites. This project is coordinated by the LATICE (Land-ATmosphere Interactions in Cold Environments) project at University of Oslo. The results of this study will assist the Norwegian Environment Agency in shaping the next phase of the peatland restoration work in Norway.

U2 - 10.5194/egusphere-egu23-15754

DO - 10.5194/egusphere-egu23-15754

M3 - Conference abstract for conference

T2 - EGU General Assembly 2023

Y2 - 24 April 2023 through 28 April 2023

ER -

ID: 345057428