Comparison of eddy covariance and modified Bowen ratio methods for measuring gas fluxes and implications for measuring fluxes of persistent organic pollutants

Semi-volatile persistent organic pollutants (POPs) cycle between the atmosphere and terrestrial surfaces; however measuring fluxes of POPs between the atmosphere and other media is challenging. Sampling times of hours to days are required to accurately measure trace concentrations of POPs in the atm...

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Bibliographic Details
Published in:Atmospheric chemistry and physics 2016-04, Vol.16 (8), p.5315-5322
Main Authors: Bolinius, Damien Johann, Jahnke, Annika, MacLeod, Matthew
Format: Article
Language:English
Subjects:
Air pollution
Air pollution measurements
Applied Environmental Science
Atmosphere
Bowen ratio
Carbon dioxide
Comparative analysis
Concentration gradient
Covariance
Datasets
Duration
Eddy covariance
Environmental aspects
Fluxes
Gradients
Heat
Measurement methods
Methods
PCB
Persistent organic pollutants
Pesticides
Pollutants
Polychlorinated biphenyls
Sampling
tillämpad miljövetenskap
Vortices
Water vapor
Water vapour
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Summary:Semi-volatile persistent organic pollutants (POPs) cycle between the atmosphere and terrestrial surfaces; however measuring fluxes of POPs between the atmosphere and other media is challenging. Sampling times of hours to days are required to accurately measure trace concentrations of POPs in the atmosphere, which rules out the use of eddy covariance techniques that are used to measure gas fluxes of major air pollutants. An alternative, the modified Bowen ratio (MBR) method, has been used instead. In this study we used data from FLUXNET for CO2 and water vapor (H2O) to compare fluxes measured by eddy covariance to fluxes measured with the MBR method using vertical concentration gradients in air derived from averaged data that simulate the long sampling times typically required to measure POPs. When concentration gradients are strong and fluxes are unidirectional, the MBR method and the eddy covariance method agree within a factor of 3 for CO2, and within a factor of 10 for H2O. To remain within the range of applicability of the MBR method, field studies should be carried out under conditions such that the direction of net flux does not change during the sampling period. If that condition is met, then the performance of the MBR method is neither strongly affected by the length of sample duration nor the use of a fixed value for the transfer coefficient.
ISSN:1680-7324
1680-7316
1680-7324
DOI:10.5194/acp-16-5315-2016