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The capacity of northern peatlands for long-term carbon sequestration

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Zeitschriftentitel: Biogeosciences
Personen und Körperschaften: Alexandrov, Georgii A., Brovkin, Victor A., Kleinen, Thomas, Yu, Zicheng
In: Biogeosciences, 17, 2020, 1, S. 47-54
Format: E-Article
Sprache: Englisch
veröffentlicht:
Copernicus GmbH
Schlagwörter:
Earth-Surface Processes
Ecology, Evolution, Behavior and Systematics
author_facet Alexandrov, Georgii A.
Brovkin, Victor A.
Kleinen, Thomas
Yu, Zicheng
Alexandrov, Georgii A.
Brovkin, Victor A.
Kleinen, Thomas
Yu, Zicheng
author Alexandrov, Georgii A.
Brovkin, Victor A.
Kleinen, Thomas
Yu, Zicheng
spellingShingle Alexandrov, Georgii A.
Brovkin, Victor A.
Kleinen, Thomas
Yu, Zicheng
Biogeosciences
The capacity of northern peatlands for long-term carbon sequestration
Earth-Surface Processes
Ecology, Evolution, Behavior and Systematics
author_sort alexandrov, georgii a.
spelling Alexandrov, Georgii A. Brovkin, Victor A. Kleinen, Thomas Yu, Zicheng 1726-4189 Copernicus GmbH Earth-Surface Processes Ecology, Evolution, Behavior and Systematics http://dx.doi.org/10.5194/bg-17-47-2020 <jats:p>Abstract. Northern peatlands have been a persistent natural carbon sink since the Last Glacial Maximum. The continued growth and expansion of these carbon-rich ecosystems could offset a large portion of anthropogenic carbon emissions before the end of the present interglacial period. Here we used an impeded drainage model and gridded data on the depth to bedrock and the fraction of histosol-type soils to evaluate the limits to the growth of northern peatland carbon stocks. Our results show that the potential carbon stock in northern peatlands could reach a total of 875±125 Pg C before the end of the present interglacial, which could, as a result, remove 330±200 Pg C of carbon from the atmosphere. We argue that northern peatlands, together with the oceans, will potentially play an important role in reducing the atmospheric carbon dioxide concentration over the next 5000 years. </jats:p> The capacity of northern peatlands for long-term carbon sequestration Biogeosciences
doi_str_mv 10.5194/bg-17-47-2020
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title The capacity of northern peatlands for long-term carbon sequestration
title_unstemmed The capacity of northern peatlands for long-term carbon sequestration
title_full The capacity of northern peatlands for long-term carbon sequestration
title_fullStr The capacity of northern peatlands for long-term carbon sequestration
title_full_unstemmed The capacity of northern peatlands for long-term carbon sequestration
title_short The capacity of northern peatlands for long-term carbon sequestration
title_sort the capacity of northern peatlands for long-term carbon sequestration
topic Earth-Surface Processes
Ecology, Evolution, Behavior and Systematics
url http://dx.doi.org/10.5194/bg-17-47-2020
publishDate 2020
physical 47-54
description <jats:p>Abstract. Northern peatlands have been a persistent natural carbon sink since the Last Glacial Maximum. The continued growth and expansion of these carbon-rich ecosystems could offset a large portion of anthropogenic carbon emissions before the end of the present interglacial period. Here we used an impeded drainage model and gridded data on the depth to bedrock and the fraction of histosol-type soils to evaluate the limits to the growth of northern peatland carbon stocks. Our results show that the potential carbon stock in northern peatlands could reach a total of 875±125 Pg C before the end of the present interglacial, which could, as a result, remove 330±200 Pg C of carbon from the atmosphere. We argue that northern peatlands, together with the oceans, will potentially play an important role in reducing the atmospheric carbon dioxide concentration over the next 5000 years. </jats:p>
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author Alexandrov, Georgii A., Brovkin, Victor A., Kleinen, Thomas, Yu, Zicheng
author_facet Alexandrov, Georgii A., Brovkin, Victor A., Kleinen, Thomas, Yu, Zicheng, Alexandrov, Georgii A., Brovkin, Victor A., Kleinen, Thomas, Yu, Zicheng
author_sort alexandrov, georgii a.
container_issue 1
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container_title Biogeosciences
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description <jats:p>Abstract. Northern peatlands have been a persistent natural carbon sink since the Last Glacial Maximum. The continued growth and expansion of these carbon-rich ecosystems could offset a large portion of anthropogenic carbon emissions before the end of the present interglacial period. Here we used an impeded drainage model and gridded data on the depth to bedrock and the fraction of histosol-type soils to evaluate the limits to the growth of northern peatland carbon stocks. Our results show that the potential carbon stock in northern peatlands could reach a total of 875±125 Pg C before the end of the present interglacial, which could, as a result, remove 330±200 Pg C of carbon from the atmosphere. We argue that northern peatlands, together with the oceans, will potentially play an important role in reducing the atmospheric carbon dioxide concentration over the next 5000 years. </jats:p>
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spelling Alexandrov, Georgii A. Brovkin, Victor A. Kleinen, Thomas Yu, Zicheng 1726-4189 Copernicus GmbH Earth-Surface Processes Ecology, Evolution, Behavior and Systematics http://dx.doi.org/10.5194/bg-17-47-2020 <jats:p>Abstract. Northern peatlands have been a persistent natural carbon sink since the Last Glacial Maximum. The continued growth and expansion of these carbon-rich ecosystems could offset a large portion of anthropogenic carbon emissions before the end of the present interglacial period. Here we used an impeded drainage model and gridded data on the depth to bedrock and the fraction of histosol-type soils to evaluate the limits to the growth of northern peatland carbon stocks. Our results show that the potential carbon stock in northern peatlands could reach a total of 875±125 Pg C before the end of the present interglacial, which could, as a result, remove 330±200 Pg C of carbon from the atmosphere. We argue that northern peatlands, together with the oceans, will potentially play an important role in reducing the atmospheric carbon dioxide concentration over the next 5000 years. </jats:p> The capacity of northern peatlands for long-term carbon sequestration Biogeosciences
spellingShingle Alexandrov, Georgii A., Brovkin, Victor A., Kleinen, Thomas, Yu, Zicheng, Biogeosciences, The capacity of northern peatlands for long-term carbon sequestration, Earth-Surface Processes, Ecology, Evolution, Behavior and Systematics
title The capacity of northern peatlands for long-term carbon sequestration
title_full The capacity of northern peatlands for long-term carbon sequestration
title_fullStr The capacity of northern peatlands for long-term carbon sequestration
title_full_unstemmed The capacity of northern peatlands for long-term carbon sequestration
title_short The capacity of northern peatlands for long-term carbon sequestration
title_sort the capacity of northern peatlands for long-term carbon sequestration
title_unstemmed The capacity of northern peatlands for long-term carbon sequestration
topic Earth-Surface Processes, Ecology, Evolution, Behavior and Systematics
url http://dx.doi.org/10.5194/bg-17-47-2020