Estimating the storage term in eddy covariance measurements: The ICOS methodology. Montagnani, L., Grünwald, T., Kowalski, A., Mammarella, I., Merbold, L., Metzger, S., Sedlák, P., & Siebicke, L. International Agrophysics, 32(4):551-567, 2018.
doi  abstract   bibtex   
In eddy covariance measurements, the storage flux represents the variation in time of the dry molar fraction of a given gas in the control volume representative of turbulent flux. Depending on the time scale considered, and on the height above ground of the measurements, it can either be a major component of the overall net ecosystem exchange or nearly negligible. Instrumental configuration and computational procedures must be optimized to measure this change at the time step used for the turbulent flux measurement. Three different configurations are suitable within the Integrated Carbon Observation System infrastructure for the storage flux determination: separate sampling, subsequent sampling and mixed sampling. These configurations have their own advantages and disadvantages, and must be carefully selected based on the specific features of the considered station. In this paper, guidelines about number and distribution of vertical and horizontal sampling points are given. Details about suitable instruments, sampling devices, and computational procedures for the quantification of the storage flux of different GHG gases are also provided.
@article{
 title = {Estimating the storage term in eddy covariance measurements: The ICOS methodology},
 type = {article},
 year = {2018},
 keywords = {ICOS,eddy covariance,greenhouse gases,protocol,storage flux},
 pages = {551-567},
 volume = {32},
 id = {4419a120-0f9b-3c31-90f3-f7d8e5362f8d},
 created = {2020-08-28T15:56:02.556Z},
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 last_modified = {2020-09-08T15:25:47.881Z},
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 abstract = {In eddy covariance measurements, the storage flux represents the variation in time of the dry molar fraction of a given gas in the control volume representative of turbulent flux. Depending on the time scale considered, and on the height above ground of the measurements, it can either be a major component of the overall net ecosystem exchange or nearly negligible. Instrumental configuration and computational procedures must be optimized to measure this change at the time step used for the turbulent flux measurement. Three different configurations are suitable within the Integrated Carbon Observation System infrastructure for the storage flux determination: separate sampling, subsequent sampling and mixed sampling. These configurations have their own advantages and disadvantages, and must be carefully selected based on the specific features of the considered station. In this paper, guidelines about number and distribution of vertical and horizontal sampling points are given. Details about suitable instruments, sampling devices, and computational procedures for the quantification of the storage flux of different GHG gases are also provided.},
 bibtype = {article},
 author = {Montagnani, Leonardo and Grünwald, Thomas and Kowalski, Andrew and Mammarella, Ivan and Merbold, Lutz and Metzger, Stefan and Sedlák, Pavel and Siebicke, Lukas},
 doi = {10.1515/intag-2017-0037},
 journal = {International Agrophysics},
 number = {4}
}
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