TIME-INTEGRATED COLLECTION OF CO 2 FOR 14 C ANALYSIS FROM SOILS

ABSTRACT We developed a passive sampler for time-integrated collection and radiocarbon ( 14 C) analysis of soil respiration, a major flux in the global C cycle. It consists of a permanent access well that controls the CO 2 uptake rate and an exchangeable molecular sieve CO 2 trap. We tested how acce...

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Published in:	Radiocarbon
Main Authors:	Pedron, Shawn, Xu, X, Walker, J C, Ferguson, J C, Jespersen, R G, Welker, J M, Klein, E S, Czimczik, C I
Format:	Article in Journal/Newspaper
Language:	English
Published:	Cambridge University Press (CUP) 2021
Subjects:	General Earth and Planetary Sciences Archeology Arctic Tundra
Online Access:	http://dx.doi.org/10.1017/rdc.2021.42 https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0033822221000424

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spelling	crcambridgeupr:10.1017/rdc.2021.42 2024-04-28T08:09:33+00:00 TIME-INTEGRATED COLLECTION OF CO 2 FOR 14 C ANALYSIS FROM SOILS Pedron, Shawn Xu, X Walker, J C Ferguson, J C Jespersen, R G Welker, J M Klein, E S Czimczik, C I 2021 http://dx.doi.org/10.1017/rdc.2021.42 https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0033822221000424 en eng Cambridge University Press (CUP) http://creativecommons.org/licenses/by/4.0/ Radiocarbon volume 63, issue 4, page 1303-1319 ISSN 0033-8222 1945-5755 General Earth and Planetary Sciences Archeology journal-article 2021 crcambridgeupr https://doi.org/10.1017/rdc.2021.42 2024-04-02T06:55:25Z ABSTRACT We developed a passive sampler for time-integrated collection and radiocarbon ( 14 C) analysis of soil respiration, a major flux in the global C cycle. It consists of a permanent access well that controls the CO 2 uptake rate and an exchangeable molecular sieve CO 2 trap. We tested how access well dimensions and environmental conditions affect collected CO 2 , and optimized cleaning procedures to minimize 14 CO 2 memory. We also deployed two generations of the sampler in Arctic tundra for up to two years, collecting CO 2 over periods of 3 days–2 months, while monitoring soil temperature, volumetric water content, and CO 2 concentration. The sampler collects CO 2 at a rate proportional to the length of a silicone tubing inlet (7–26 µg CO 2 -C day -1 ·m Si -1 ). With constant sampler dimensions in the field, CO 2 recovery is best explained by soil temperature. We retrieved 0.1–5.3 mg C from the 1st and 0.6–13 mg C from the 2nd generation samplers, equivalent to uptake rates of 2–215 ( n= 17) and 10–247 µg CO 2 -C day -1 ( n= 20), respectively. The method blank is 8 ± 6 µg C (mean ± sd, n= 8), with a radiocarbon content (fraction modern) ranging from 0.5875–0.6013 ( n= 2). The sampler enables more continuous investigations of soil C emission sources and is suitable for Arctic environments. Article in Journal/Newspaper Arctic Tundra Cambridge University Press Radiocarbon 1 17
institution	Open Polar
collection	Cambridge University Press
op_collection_id	crcambridgeupr
language	English
topic	General Earth and Planetary Sciences Archeology
spellingShingle	General Earth and Planetary Sciences Archeology Pedron, Shawn Xu, X Walker, J C Ferguson, J C Jespersen, R G Welker, J M Klein, E S Czimczik, C I TIME-INTEGRATED COLLECTION OF CO 2 FOR 14 C ANALYSIS FROM SOILS
topic_facet	General Earth and Planetary Sciences Archeology
description	ABSTRACT We developed a passive sampler for time-integrated collection and radiocarbon ( 14 C) analysis of soil respiration, a major flux in the global C cycle. It consists of a permanent access well that controls the CO 2 uptake rate and an exchangeable molecular sieve CO 2 trap. We tested how access well dimensions and environmental conditions affect collected CO 2 , and optimized cleaning procedures to minimize 14 CO 2 memory. We also deployed two generations of the sampler in Arctic tundra for up to two years, collecting CO 2 over periods of 3 days–2 months, while monitoring soil temperature, volumetric water content, and CO 2 concentration. The sampler collects CO 2 at a rate proportional to the length of a silicone tubing inlet (7–26 µg CO 2 -C day -1 ·m Si -1 ). With constant sampler dimensions in the field, CO 2 recovery is best explained by soil temperature. We retrieved 0.1–5.3 mg C from the 1st and 0.6–13 mg C from the 2nd generation samplers, equivalent to uptake rates of 2–215 ( n= 17) and 10–247 µg CO 2 -C day -1 ( n= 20), respectively. The method blank is 8 ± 6 µg C (mean ± sd, n= 8), with a radiocarbon content (fraction modern) ranging from 0.5875–0.6013 ( n= 2). The sampler enables more continuous investigations of soil C emission sources and is suitable for Arctic environments.
format	Article in Journal/Newspaper
author	Pedron, Shawn Xu, X Walker, J C Ferguson, J C Jespersen, R G Welker, J M Klein, E S Czimczik, C I
author_facet	Pedron, Shawn Xu, X Walker, J C Ferguson, J C Jespersen, R G Welker, J M Klein, E S Czimczik, C I
author_sort	Pedron, Shawn
title	TIME-INTEGRATED COLLECTION OF CO 2 FOR 14 C ANALYSIS FROM SOILS
title_short	TIME-INTEGRATED COLLECTION OF CO 2 FOR 14 C ANALYSIS FROM SOILS
title_full	TIME-INTEGRATED COLLECTION OF CO 2 FOR 14 C ANALYSIS FROM SOILS
title_fullStr	TIME-INTEGRATED COLLECTION OF CO 2 FOR 14 C ANALYSIS FROM SOILS
title_full_unstemmed	TIME-INTEGRATED COLLECTION OF CO 2 FOR 14 C ANALYSIS FROM SOILS
title_sort	time-integrated collection of co 2 for 14 c analysis from soils
publisher	Cambridge University Press (CUP)
publishDate	2021
url	http://dx.doi.org/10.1017/rdc.2021.42 https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0033822221000424
genre	Arctic Tundra
genre_facet	Arctic Tundra
op_source	Radiocarbon volume 63, issue 4, page 1303-1319 ISSN 0033-8222 1945-5755
op_rights	http://creativecommons.org/licenses/by/4.0/
op_doi	https://doi.org/10.1017/rdc.2021.42
container_title	Radiocarbon
container_start_page	1
op_container_end_page	17
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TIME-INTEGRATED COLLECTION OF CO 2 FOR 14 C ANALYSIS FROM SOILS

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