Tower measurement network of in-situ CO2, CH4, and CO in support of the Indianapolis FLUX (INFLUX) Experiment
A twelve-station tower-based observation network measuring CO2, CH4, and CO was deployed in and around the Indianapolis, IN metropolitan area as part of the Indianapolis Flux Experiment (INFLUX). Measurements began in 2010 and the full network was deployed by 2013. Observations were made at heights...
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Archīum Ateneo
2017
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| Online Access: | https://archium.ateneo.edu/physics-faculty-pubs/34 https://www.elementascience.org/articles/10.1525/elementa.140/ |
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ph-ateneo-arc.physics-faculty-pubs-10332020-04-30T07:35:09Z Tower measurement network of in-situ CO2, CH4, and CO in support of the Indianapolis FLUX (INFLUX) Experiment Richardson, Scott Miles, Natasha Davis, Kenneth J Lauvaux, Thomas Martins, Douglas K Turnbull, Jocelyn McKain, Kathryn Sweeney, Colm Cambaliza, Maria Obiminda L A twelve-station tower-based observation network measuring CO2, CH4, and CO was deployed in and around the Indianapolis, IN metropolitan area as part of the Indianapolis Flux Experiment (INFLUX). Measurements began in 2010 and the full network was deployed by 2013. Observations were made at heights ranging from 39 to 136 m above ground level using existing communication towers. Several towers in the network had multiple measurement levels. Cavity ring-down spectrometers (CRDS) were used at all twelve sites and at least one calibrated reference tank was sampled daily at each site. Real time data communications were performed via cellular modems and data were transmitted daily for processing and quality assurance checks. Data quality control procedures were utilized to ensure compatibility within the INFLUX tower network and with global standards. For example, field target/calibration tanks were used to detect long-term instrument drift and instrument failure. Network-wide round robin tests were performed every 1–2 years to detect possible target tank drift and ensure network-wide comparability between measurements. NOAA flask packages were deployed at six of the INFLUX towers to provide a flask to in-situ direct comparison of the atmospheric samples. Results from these activities demonstrate that the compatibility of the CO2, CH4, and CO INFLUX in-situ tower-based measurements are less than or equal to 0.18 ppm CO2, 1.0 ppb for CH4, and 6 ppb for CO. 2017-01-01T08:00:00Z text https://archium.ateneo.edu/physics-faculty-pubs/34 https://www.elementascience.org/articles/10.1525/elementa.140/ Physics Faculty Publications Archīum Ateneo Network CRDS INFLUX Atmospheric Sciences |
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Network CRDS INFLUX Atmospheric Sciences |
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Network CRDS INFLUX Atmospheric Sciences Richardson, Scott Miles, Natasha Davis, Kenneth J Lauvaux, Thomas Martins, Douglas K Turnbull, Jocelyn McKain, Kathryn Sweeney, Colm Cambaliza, Maria Obiminda L Tower measurement network of in-situ CO2, CH4, and CO in support of the Indianapolis FLUX (INFLUX) Experiment |
| description |
A twelve-station tower-based observation network measuring CO2, CH4, and CO was deployed in and around the Indianapolis, IN metropolitan area as part of the Indianapolis Flux Experiment (INFLUX). Measurements began in 2010 and the full network was deployed by 2013. Observations were made at heights ranging from 39 to 136 m above ground level using existing communication towers. Several towers in the network had multiple measurement levels. Cavity ring-down spectrometers (CRDS) were used at all twelve sites and at least one calibrated reference tank was sampled daily at each site. Real time data communications were performed via cellular modems and data were transmitted daily for processing and quality assurance checks. Data quality control procedures were utilized to ensure compatibility within the INFLUX tower network and with global standards. For example, field target/calibration tanks were used to detect long-term instrument drift and instrument failure. Network-wide round robin tests were performed every 1–2 years to detect possible target tank drift and ensure network-wide comparability between measurements. NOAA flask packages were deployed at six of the INFLUX towers to provide a flask to in-situ direct comparison of the atmospheric samples. Results from these activities demonstrate that the compatibility of the CO2, CH4, and CO INFLUX in-situ tower-based measurements are less than or equal to 0.18 ppm CO2, 1.0 ppb for CH4, and 6 ppb for CO. |
| format |
text |
| author |
Richardson, Scott Miles, Natasha Davis, Kenneth J Lauvaux, Thomas Martins, Douglas K Turnbull, Jocelyn McKain, Kathryn Sweeney, Colm Cambaliza, Maria Obiminda L |
| author_facet |
Richardson, Scott Miles, Natasha Davis, Kenneth J Lauvaux, Thomas Martins, Douglas K Turnbull, Jocelyn McKain, Kathryn Sweeney, Colm Cambaliza, Maria Obiminda L |
| author_sort |
Richardson, Scott |
| title |
Tower measurement network of in-situ CO2, CH4, and CO in support of the Indianapolis FLUX (INFLUX) Experiment |
| title_short |
Tower measurement network of in-situ CO2, CH4, and CO in support of the Indianapolis FLUX (INFLUX) Experiment |
| title_full |
Tower measurement network of in-situ CO2, CH4, and CO in support of the Indianapolis FLUX (INFLUX) Experiment |
| title_fullStr |
Tower measurement network of in-situ CO2, CH4, and CO in support of the Indianapolis FLUX (INFLUX) Experiment |
| title_full_unstemmed |
Tower measurement network of in-situ CO2, CH4, and CO in support of the Indianapolis FLUX (INFLUX) Experiment |
| title_sort |
tower measurement network of in-situ co2, ch4, and co in support of the indianapolis flux (influx) experiment |
| publisher |
Archīum Ateneo |
| publishDate |
2017 |
| url |
https://archium.ateneo.edu/physics-faculty-pubs/34 https://www.elementascience.org/articles/10.1525/elementa.140/ |
| _version_ |
1681506588063432704 |