Dynamics of deep soil carbon – insights from <sup>14</sup>C time series across a climatic gradient

Dynamics of deep soil carbon – insights from <sup>14</sup>C time series across a climatic gradient

<p>Quantitative constraints on soil organic matter (SOM) dynamics are essential for comprehensive understanding of the terrestrial carbon cycle. Deep soil carbon is of particular interest as it represents large stocks and its turnover times remain highly uncertain. In this study, SOM dynamics...

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Main Authors: T. S. van der Voort, U. Mannu, F. Hagedorn, C. McIntyre, L. Walthert, P. Schleppi, N. Haghipour, T. I. Eglinton
Format: Article
Language:English
Published: Copernicus Publications 2019-08-01
Series:Biogeosciences
Online Access:https://www.biogeosciences.net/16/3233/2019/bg-16-3233-2019.pdf
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spelling doaj-e6b409ff1a1644708b41a4590a976ff52020-11-25T01:59:25ZengCopernicus PublicationsBiogeosciences1726-41701726-41892019-08-01163233324610.5194/bg-16-3233-2019Dynamics of deep soil carbon – insights from <sup>14</sup>C time series across a climatic gradientT. S. van der Voort0T. S. van der Voort1U. Mannu2U. Mannu3F. Hagedorn4C. McIntyre5C. McIntyre6C. McIntyre7L. Walthert8P. Schleppi9N. Haghipour10T. I. Eglinton11Institute of Geology, ETH Zürich, Sonneggstrasse 5, 8092 Zurich, Switzerlandnow at: Campus Fryslân, University of Groningen, Wirdumerdijk 34, Leeuwarden, the NetherlandsInstitute of Geology, ETH Zürich, Sonneggstrasse 5, 8092 Zurich, Switzerlandnow at: Department of Earth and Climate Science, IISER Pune, Pune, IndiaForest soils and Biogeochemistry, Swiss Federal Research Institute WSL, Zürcherstrasse 111, 8903 Birmensdorf, SwitzerlandInstitute of Geology, ETH Zürich, Sonneggstrasse 5, 8092 Zurich, SwitzerlandDepartment of Physics, Laboratory of Ion Beam Physics, ETH Zurich, Schaffmattstrasse 20, 9083 Zurich, Switzerlandnow at: AMS Laboratory, Scottish Universities Environmental Research Centre (SUERC), Rankine Av., East Kilbride, G75 0QF, UKForest soils and Biogeochemistry, Swiss Federal Research Institute WSL, Zürcherstrasse 111, 8903 Birmensdorf, SwitzerlandForest soils and Biogeochemistry, Swiss Federal Research Institute WSL, Zürcherstrasse 111, 8903 Birmensdorf, SwitzerlandInstitute of Geology, ETH Zürich, Sonneggstrasse 5, 8092 Zurich, SwitzerlandInstitute of Geology, ETH Zürich, Sonneggstrasse 5, 8092 Zurich, Switzerland<p>Quantitative constraints on soil organic matter (SOM) dynamics are essential for comprehensive understanding of the terrestrial carbon cycle. Deep soil carbon is of particular interest as it represents large stocks and its turnover times remain highly uncertain. In this study, SOM dynamics in both the top and deep soil across a climatic (average temperature <span class="inline-formula">∼</span>&thinsp;1–9&thinsp;<span class="inline-formula"><sup>∘</sup></span>C) gradient are determined using time-series (<span class="inline-formula">∼20</span> years) <span class="inline-formula"><sup>14</sup>C</span> data from bulk soil and water-extractable organic carbon (WEOC). Analytical measurements reveal enrichment of bomb-derived radiocarbon in the deep soil layers on the bulk level during the last 2 decades. The WEOC pool is strongly enriched in bomb-derived carbon, indicating that it is a dynamic pool. Turnover time estimates of both the bulk and WEOC pool show that the latter cycles up to a magnitude faster than the former. The presence of bomb-derived carbon in the deep soil, as well as the rapidly turning WEOC pool across the climatic gradient, implies that there likely is a dynamic component of carbon in the deep soil. Precipitation and bedrock type appear to exert a stronger influence on soil C turnover time and stocks as compared to temperature.</p>https://www.biogeosciences.net/16/3233/2019/bg-16-3233-2019.pdf
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language English
format Article
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author T. S. van der Voort
T. S. van der Voort
U. Mannu
U. Mannu
F. Hagedorn
C. McIntyre
C. McIntyre
C. McIntyre
L. Walthert
P. Schleppi
N. Haghipour
T. I. Eglinton
spellingShingle T. S. van der Voort
T. S. van der Voort
U. Mannu
U. Mannu
F. Hagedorn
C. McIntyre
C. McIntyre
C. McIntyre
L. Walthert
P. Schleppi
N. Haghipour
T. I. Eglinton
Dynamics of deep soil carbon – insights from <sup>14</sup>C time series across a climatic gradient
Biogeosciences
author_facet T. S. van der Voort
T. S. van der Voort
U. Mannu
U. Mannu
F. Hagedorn
C. McIntyre
C. McIntyre
C. McIntyre
L. Walthert
P. Schleppi
N. Haghipour
T. I. Eglinton
author_sort T. S. van der Voort
title Dynamics of deep soil carbon – insights from <sup>14</sup>C time series across a climatic gradient
title_short Dynamics of deep soil carbon – insights from <sup>14</sup>C time series across a climatic gradient
title_full Dynamics of deep soil carbon – insights from <sup>14</sup>C time series across a climatic gradient
title_fullStr Dynamics of deep soil carbon – insights from <sup>14</sup>C time series across a climatic gradient
title_full_unstemmed Dynamics of deep soil carbon – insights from <sup>14</sup>C time series across a climatic gradient
title_sort dynamics of deep soil carbon – insights from <sup>14</sup>c time series across a climatic gradient
publisher Copernicus Publications
series Biogeosciences
issn 1726-4170
1726-4189
publishDate 2019-08-01
description <p>Quantitative constraints on soil organic matter (SOM) dynamics are essential for comprehensive understanding of the terrestrial carbon cycle. Deep soil carbon is of particular interest as it represents large stocks and its turnover times remain highly uncertain. In this study, SOM dynamics in both the top and deep soil across a climatic (average temperature <span class="inline-formula">∼</span>&thinsp;1–9&thinsp;<span class="inline-formula"><sup>∘</sup></span>C) gradient are determined using time-series (<span class="inline-formula">∼20</span> years) <span class="inline-formula"><sup>14</sup>C</span> data from bulk soil and water-extractable organic carbon (WEOC). Analytical measurements reveal enrichment of bomb-derived radiocarbon in the deep soil layers on the bulk level during the last 2 decades. The WEOC pool is strongly enriched in bomb-derived carbon, indicating that it is a dynamic pool. Turnover time estimates of both the bulk and WEOC pool show that the latter cycles up to a magnitude faster than the former. The presence of bomb-derived carbon in the deep soil, as well as the rapidly turning WEOC pool across the climatic gradient, implies that there likely is a dynamic component of carbon in the deep soil. Precipitation and bedrock type appear to exert a stronger influence on soil C turnover time and stocks as compared to temperature.</p>
url https://www.biogeosciences.net/16/3233/2019/bg-16-3233-2019.pdf
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