Rapid Expansion of Northern Peatlands and Doubled Estimate of Carbon Storage

Northern peatlands are an integral part of the global carbon cycle—a strong sink of atmospheric carbon dioxide and source of methane. Increasing anthropogenic carbon dioxide and methane in the atmosphere are thought to strongly impact these environments, and yet, peatlands are not routinely included...

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Veröffentlicht in:	Nature geoscience 2019-11, Vol.12 (11), p.917-921
Hauptverfasser:	Nichols, Jonathan E., Peteet, Dorothy M.
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Sprache:	eng
Schlagworte:	704/106 704/106/413 704/158/47 704/158/47/4113 704/47 Accumulation Algorithms Anthropogenic factors Atmosphere Atmospheric methane Atmospheric models Carbon Carbon capture and storage Carbon cycle Carbon dioxide Carbon dioxide atmospheric concentrations Carbon sequestration Carbon sinks Coral reefs Earth Earth and Environmental Science Earth Resources And Remote Sensing Earth Sciences Earth System Sciences Environmental impact Geochemistry Geology Geophysics/Geodesy Glacial periods Holocene Human influences Ice ages Methane Ocean circulation Partial pressure Peat Peatlands Permafrost Stability Stocks Upwelling
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creator	Nichols, Jonathan E. Peteet, Dorothy M.
description	Northern peatlands are an integral part of the global carbon cycle—a strong sink of atmospheric carbon dioxide and source of methane. Increasing anthropogenic carbon dioxide and methane in the atmosphere are thought to strongly impact these environments, and yet, peatlands are not routinely included in Earth system models. Here we present a quantification of the sink and stock of northern peat carbon from the last glacial period through the pre-industrial period. Additional data and new algorithms for reconstructing the history of peat carbon accumulation and the timing of peatland initiation increased the estimate of total northern peat carbon stocks from 545 Gt to 1,055 Gt of carbon. Further, the post-glacial increases in peatland initiation rate and carbon accumulation rate are more abrupt than previously reported. Peatlands have been a strong carbon sink throughout the Holocene, but the atmospheric partial pressure of carbon dioxide has been relatively stable over this period. While processes such as permafrost thaw and coral reef development probably contributed some additional carbon to the atmosphere, we suggest that deep ocean upwelling was the most important mechanism for balancing the peatland sink and maintaining the observed stability.
doi_str_mv	10.1038/s41561-019-0454-z
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Geosci</addtitle><description>Northern peatlands are an integral part of the global carbon cycle—a strong sink of atmospheric carbon dioxide and source of methane. Increasing anthropogenic carbon dioxide and methane in the atmosphere are thought to strongly impact these environments, and yet, peatlands are not routinely included in Earth system models. Here we present a quantification of the sink and stock of northern peat carbon from the last glacial period through the pre-industrial period. Additional data and new algorithms for reconstructing the history of peat carbon accumulation and the timing of peatland initiation increased the estimate of total northern peat carbon stocks from 545 Gt to 1,055 Gt of carbon. Further, the post-glacial increases in peatland initiation rate and carbon accumulation rate are more abrupt than previously reported. 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subjects	704/106 704/106/413 704/158/47 704/158/47/4113 704/47 Accumulation Algorithms Anthropogenic factors Atmosphere Atmospheric methane Atmospheric models Carbon Carbon capture and storage Carbon cycle Carbon dioxide Carbon dioxide atmospheric concentrations Carbon sequestration Carbon sinks Coral reefs Earth Earth and Environmental Science Earth Resources And Remote Sensing Earth Sciences Earth System Sciences Environmental impact Geochemistry Geology Geophysics/Geodesy Glacial periods Holocene Human influences Ice ages Methane Ocean circulation Partial pressure Peat Peatlands Permafrost Stability Stocks Upwelling
title	Rapid Expansion of Northern Peatlands and Doubled Estimate of Carbon Storage
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