A branch chamber system and techniques for simultaneous pollutant exposure experiments and gaseous flux determinations

C. A. Ennis; A. L. Lazrus; G. L. Kok; P. R. Zimmerman; R. K. Monson

A branch chamber system and techniques for simultaneous pollutant exposure experiments and gaseous flux determinations

C. A. Ennis, A. L. Lazrus, G. L. Kok, P. R. Zimmerman, R. K. Monson

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

Abstract

The system uses flexible Teflon bag-like chambers to enclose entire individual branches of young trees. Five gaseous fluxes (CO₂, H₂O, SO₂, O₃ and H₂O₂) are measured once per hour for each of two branches. A three-week continuous test was run in order to evaluate system performance. Inlet concentrations of the five gases were extremely stable, with uncertainties of ≤2.2% in all cases and day-to-night differences of <4%. Comparison of two branch chambers, one with clean air and one with the added pollutant gases H₂O₂, SO₂, and O₃, showed that between-chamber differences were <2% for the average inlet concentrations of H₂O and CO₂. Pollutant losses to chamber surfaces were significant but were generally smaller than losses to the branch itself. Chamber loss corrections were different for daytime and nighttime conditions and also evolved as the three-week experiment proceeded. -from Authors

Original language	English (US)
Pages (from-to)	170-182
Number of pages	13
Journal	Tellus, Series B
Volume	42 B
Issue number	2
State	Published - 1990
Externally published	Yes

ASJC Scopus subject areas

Atmospheric Science

Cite this

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title = "A branch chamber system and techniques for simultaneous pollutant exposure experiments and gaseous flux determinations",

abstract = "The system uses flexible Teflon bag-like chambers to enclose entire individual branches of young trees. Five gaseous fluxes (CO2, H2O, SO2, O3 and H2O2) are measured once per hour for each of two branches. A three-week continuous test was run in order to evaluate system performance. Inlet concentrations of the five gases were extremely stable, with uncertainties of ≤2.2% in all cases and day-to-night differences of <4%. Comparison of two branch chambers, one with clean air and one with the added pollutant gases H2O2, SO2, and O3, showed that between-chamber differences were <2% for the average inlet concentrations of H2O and CO2. Pollutant losses to chamber surfaces were significant but were generally smaller than losses to the branch itself. Chamber loss corrections were different for daytime and nighttime conditions and also evolved as the three-week experiment proceeded. -from Authors",

author = "Ennis, {C. A.} and Lazrus, {A. L.} and Kok, {G. L.} and Zimmerman, {P. R.} and Monson, {R. K.}",

year = "1990",

language = "English (US)",

volume = "42 B",

pages = "170--182",

journal = "Tellus, Series B",

issn = "0280-6509",

publisher = "Stockholm University Press",

number = "2",

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TY - JOUR

T1 - A branch chamber system and techniques for simultaneous pollutant exposure experiments and gaseous flux determinations

AU - Ennis, C. A.

AU - Lazrus, A. L.

AU - Kok, G. L.

AU - Zimmerman, P. R.

AU - Monson, R. K.

PY - 1990

Y1 - 1990

N2 - The system uses flexible Teflon bag-like chambers to enclose entire individual branches of young trees. Five gaseous fluxes (CO2, H2O, SO2, O3 and H2O2) are measured once per hour for each of two branches. A three-week continuous test was run in order to evaluate system performance. Inlet concentrations of the five gases were extremely stable, with uncertainties of ≤2.2% in all cases and day-to-night differences of <4%. Comparison of two branch chambers, one with clean air and one with the added pollutant gases H2O2, SO2, and O3, showed that between-chamber differences were <2% for the average inlet concentrations of H2O and CO2. Pollutant losses to chamber surfaces were significant but were generally smaller than losses to the branch itself. Chamber loss corrections were different for daytime and nighttime conditions and also evolved as the three-week experiment proceeded. -from Authors

AB - The system uses flexible Teflon bag-like chambers to enclose entire individual branches of young trees. Five gaseous fluxes (CO2, H2O, SO2, O3 and H2O2) are measured once per hour for each of two branches. A three-week continuous test was run in order to evaluate system performance. Inlet concentrations of the five gases were extremely stable, with uncertainties of ≤2.2% in all cases and day-to-night differences of <4%. Comparison of two branch chambers, one with clean air and one with the added pollutant gases H2O2, SO2, and O3, showed that between-chamber differences were <2% for the average inlet concentrations of H2O and CO2. Pollutant losses to chamber surfaces were significant but were generally smaller than losses to the branch itself. Chamber loss corrections were different for daytime and nighttime conditions and also evolved as the three-week experiment proceeded. -from Authors

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JO - Tellus, Series B

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IS - 2

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A branch chamber system and techniques for simultaneous pollutant exposure experiments and gaseous flux determinations

Abstract

ASJC Scopus subject areas

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