A chamber system with automatic opening and closing for continuously measuring soil respiration based on an open-flow dynamic method

Sang Uk Suh; Young Moon Chun; Nam Yi Chae; Joon Kim; Jong Hwan Lim; Masayuki Yokozawa; Mi Sun Lee; Jae Seok Lee

doi:10.1007/s11284-005-0137-7

A chamber system with automatic opening and closing for continuously measuring soil respiration based on an open-flow dynamic method

Sang Uk Suh, Young Moon Chun, Nam Yi Chae, Joon Kim, Jong Hwan Lim, Masayuki Yokozawa, Mi Sun Lee, Jae Seok Lee^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

35 Citations (Scopus)

Abstract

We developed an automatic opening and closing chamber system (AOCC) based on an open-flow dynamic method (open-flow AOCC). The AOCC can be used during all four seasons, even at the surface of relatively deep snow. We compared the open-flow AOCC with two closed dynamic methods [the AOCC configured as a closed dynamic system (closed dynamic AOCC) and the LI-6400 system] under field conditions. The closed dynamic-AOCC and LI-6400 measurements were about 15.4% and 5.2% lower, respectively, than the values obtained with the open-flow AOCC. There was a significant difference in soil respiration rate between the open-flow AOCC and the closed dynamic AOCC system. In contrast, no significant difference in soil respiration rate was detected between the open-flow AOCC and the LI-6400 system. In the field, the open-flow AOCC permitted continuous long-term measurements under a range of temperature conditions and did a good job of reflecting the marked daily and seasonal variations in soil respiration as a function of soil temperature.

Original language	English
Pages (from-to)	405-414
Number of pages	10
Journal	Ecological Research
Volume	21
Issue number	3
DOIs	https://doi.org/10.1007/s11284-005-0137-7
Publication status	Published - 2006 May
Externally published	Yes

Keywords

Closed dynamic method
Open-flow method
Q value
Soil respiration
Temperate deciduous forest

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics

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10.1007/s11284-005-0137-7

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@article{70f0673557f240c1b440621bb531768c,

title = "A chamber system with automatic opening and closing for continuously measuring soil respiration based on an open-flow dynamic method",

abstract = "We developed an automatic opening and closing chamber system (AOCC) based on an open-flow dynamic method (open-flow AOCC). The AOCC can be used during all four seasons, even at the surface of relatively deep snow. We compared the open-flow AOCC with two closed dynamic methods [the AOCC configured as a closed dynamic system (closed dynamic AOCC) and the LI-6400 system] under field conditions. The closed dynamic-AOCC and LI-6400 measurements were about 15.4% and 5.2% lower, respectively, than the values obtained with the open-flow AOCC. There was a significant difference in soil respiration rate between the open-flow AOCC and the closed dynamic AOCC system. In contrast, no significant difference in soil respiration rate was detected between the open-flow AOCC and the LI-6400 system. In the field, the open-flow AOCC permitted continuous long-term measurements under a range of temperature conditions and did a good job of reflecting the marked daily and seasonal variations in soil respiration as a function of soil temperature.",

keywords = "Closed dynamic method, Open-flow method, Q value, Soil respiration, Temperate deciduous forest",

author = "Suh, {Sang Uk} and Chun, {Young Moon} and Chae, {Nam Yi} and Joon Kim and Lim, {Jong Hwan} and Masayuki Yokozawa and Lee, {Mi Sun} and Lee, {Jae Seok}",

note = "Funding Information: Acknowledgments This work was supported by the Ministry of Environment of Korea through the Eco-Technopia 21 Project and by the faculty research fund of Konkuk University in 2003. Copyright: Copyright 2008 Elsevier B.V., All rights reserved.",

year = "2006",

month = may,

doi = "10.1007/s11284-005-0137-7",

language = "English",

volume = "21",

pages = "405--414",

journal = "Ecological Research",

issn = "0912-3814",

publisher = "Springer Japan",

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T1 - A chamber system with automatic opening and closing for continuously measuring soil respiration based on an open-flow dynamic method

AU - Suh, Sang Uk

AU - Chun, Young Moon

AU - Chae, Nam Yi

AU - Kim, Joon

AU - Lim, Jong Hwan

AU - Yokozawa, Masayuki

AU - Lee, Mi Sun

AU - Lee, Jae Seok

N1 - Funding Information: Acknowledgments This work was supported by the Ministry of Environment of Korea through the Eco-Technopia 21 Project and by the faculty research fund of Konkuk University in 2003. Copyright: Copyright 2008 Elsevier B.V., All rights reserved.

PY - 2006/5

Y1 - 2006/5

N2 - We developed an automatic opening and closing chamber system (AOCC) based on an open-flow dynamic method (open-flow AOCC). The AOCC can be used during all four seasons, even at the surface of relatively deep snow. We compared the open-flow AOCC with two closed dynamic methods [the AOCC configured as a closed dynamic system (closed dynamic AOCC) and the LI-6400 system] under field conditions. The closed dynamic-AOCC and LI-6400 measurements were about 15.4% and 5.2% lower, respectively, than the values obtained with the open-flow AOCC. There was a significant difference in soil respiration rate between the open-flow AOCC and the closed dynamic AOCC system. In contrast, no significant difference in soil respiration rate was detected between the open-flow AOCC and the LI-6400 system. In the field, the open-flow AOCC permitted continuous long-term measurements under a range of temperature conditions and did a good job of reflecting the marked daily and seasonal variations in soil respiration as a function of soil temperature.

AB - We developed an automatic opening and closing chamber system (AOCC) based on an open-flow dynamic method (open-flow AOCC). The AOCC can be used during all four seasons, even at the surface of relatively deep snow. We compared the open-flow AOCC with two closed dynamic methods [the AOCC configured as a closed dynamic system (closed dynamic AOCC) and the LI-6400 system] under field conditions. The closed dynamic-AOCC and LI-6400 measurements were about 15.4% and 5.2% lower, respectively, than the values obtained with the open-flow AOCC. There was a significant difference in soil respiration rate between the open-flow AOCC and the closed dynamic AOCC system. In contrast, no significant difference in soil respiration rate was detected between the open-flow AOCC and the LI-6400 system. In the field, the open-flow AOCC permitted continuous long-term measurements under a range of temperature conditions and did a good job of reflecting the marked daily and seasonal variations in soil respiration as a function of soil temperature.

KW - Closed dynamic method

KW - Open-flow method

KW - Q value

KW - Soil respiration

KW - Temperate deciduous forest

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A chamber system with automatic opening and closing for continuously measuring soil respiration based on an open-flow dynamic method

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Keywords

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