Soil-meteorological measurements at ICOS monitoring stations in terrestrial ecosystems. De Beeck, M., O., Gielen, B., Merbold, L., Ayres, E., Serrano-Ortiz, P., Acosta, M., Pavelka, M., Montagnani, L., Nilsson, M., Klemedtsson, L., Vincke, C., De Ligne, A., Moureaux, C., Marańon-Jimenez, S., Saunders, M., Mereu, S., & Hörtnagl, L. International Agrophysics, 32(4):619-631, 2018.
doi  abstract   bibtex   
The Integrated Carbon Observation System is a pan-European research infrastructure providing standardized, long-term observations of greenhouse gas concentrations and earth-atmosphere greenhouse gas interactions. The terrestrial component of Integrated Carbon Observation System comprises a network of monitoring stations in terrestrial ecosystems where the principal activity is the measurement of ecosystem-atmosphere fluxes of greenhouse gases and energy by means of the eddy covariance technique. At each station a large set of ancillary variables needed for the interpretation of observed fluxes and for process studies is additionally monitored. This set includes a subset of variables that describe the thermal and moisture conditions of the soil and which are here conveniently referred to as soil-meteorological variables: soil temperature, volumetric soil water content, water table depth, and soil heat flux density. This paper describes the standard methodology that has been developped for the monitoring of these variables at the ecosystem stations. K e y w o r d s: ICOS, soil temperature, soil water content, water table depth, soil heat flux density INTRODUCTION The Integrated Carbon Observation System (ICOS) is a distributed pan-European research infrastructure providing in-situ standardised, integrated, long-term and high-precision observations of lower atmosphere greenhouse gas (GHG) concentrations and land-and ocean-atmosphere GHG interactions. The terrestrial component of ICOS comprises a network of monitoring stations
@article{
 title = {Soil-meteorological measurements at ICOS monitoring stations in terrestrial ecosystems},
 type = {article},
 year = {2018},
 keywords = {ICOS,soil heat flux density,soil temperature,soil water content,water table depth},
 pages = {619-631},
 volume = {32},
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 abstract = {The Integrated Carbon Observation System is a pan-European research infrastructure providing standardized, long-term observations of greenhouse gas concentrations and earth-atmosphere greenhouse gas interactions. The terrestrial component of Integrated Carbon Observation System comprises a network of monitoring stations in terrestrial ecosystems where the principal activity is the measurement of ecosystem-atmosphere fluxes of greenhouse gases and energy by means of the eddy covariance technique. At each station a large set of ancillary variables needed for the interpretation of observed fluxes and for process studies is additionally monitored. This set includes a subset of variables that describe the thermal and moisture conditions of the soil and which are here conveniently referred to as soil-meteorological variables: soil temperature, volumetric soil water content, water table depth, and soil heat flux density. This paper describes the standard methodology that has been developped for the monitoring of these variables at the ecosystem stations. K e y w o r d s: ICOS, soil temperature, soil water content, water table depth, soil heat flux density INTRODUCTION The Integrated Carbon Observation System (ICOS) is a distributed pan-European research infrastructure providing in-situ standardised, integrated, long-term and high-precision observations of lower atmosphere greenhouse gas (GHG) concentrations and land-and ocean-atmosphere GHG interactions. The terrestrial component of ICOS comprises a network of monitoring stations},
 bibtype = {article},
 author = {De Beeck, Maarten Op and Gielen, Bert and Merbold, Lutz and Ayres, Edward and Serrano-Ortiz, Penelope and Acosta, Manuel and Pavelka, Marian and Montagnani, Leonardo and Nilsson, Mats and Klemedtsson, Leif and Vincke, Caroline and De Ligne, Anne and Moureaux, Christine and Marańon-Jimenez, Sara and Saunders, Matthew and Mereu, Simone and Hörtnagl, Lukas},
 doi = {10.1515/intag-2017-0041},
 journal = {International Agrophysics},
 number = {4}
}

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