Identification of spikes associated with local sources in continuous time series of atmospheric CO, CO2 and CH4
This study deals with the problem of identifying atmospheric data influenced by local emissions that can result in spikes in time series of greenhouse gases and long-lived tracer measurements. We considered three spike detection methods known as coefficient of variation (COV), robust extraction of b...
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Copernicus Publications
2018
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article Verlagsveröffentlichung El Yazidi, Abdelhadi Ramonet, Michel Ciais, Philippe Broquet, Gregoire Pison, Isabelle Abbaris, Amara Brunner, Dominik Conil, Sebastien Delmotte, Marc Gheusi, Francois Guerin, Frederic Hazan, Lynn Kachroudi, Nesrine Kouvarakis, Giorgos Mihalopoulos, Nikolaos Rivier, Leonard Serça, Dominique Identification of spikes associated with local sources in continuous time series of atmospheric CO, CO2 and CH4 |
topic_facet |
article Verlagsveröffentlichung |
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This study deals with the problem of identifying atmospheric data influenced by local emissions that can result in spikes in time series of greenhouse gases and long-lived tracer measurements. We considered three spike detection methods known as coefficient of variation (COV), robust extraction of baseline signal (REBS) and standard deviation of the background (SD) to detect and filter positive spikes in continuous greenhouse gas time series from four monitoring stations representative of the European ICOS (Integrated Carbon Observation System) Research Infrastructure network. The results of the different methods are compared to each other and against a manual detection performed by station managers. Four stations were selected as test cases to apply the spike detection methods: a continental rural tower of 100 m height in eastern France (OPE), a high-mountain observatory in the south-west of France (PDM), a regional marine background site in Crete (FKL) and a marine clean-air background site in the Southern Hemisphere on Amsterdam Island (AMS). This selection allows us to address spike detection problems in time series with different variability. Two years of continuous measurements of CO2, CH4 and CO were analysed. All methods were found to be able to detect short-term spikes (lasting from a few seconds to a few minutes) in the time series. Analysis of the results of each method leads us to exclude the COV method due to the requirement to arbitrarily specify an a priori percentage of rejected data in the time series, which may over- or underestimate the actual number of spikes. The two other methods freely determine the number of spikes for a given set of parameters, and the values of these parameters were calibrated to provide the best match with spikes known to reflect local emissions episodes that are well documented by the station managers. More than 96 % of the spikes manually identified by station managers were successfully detected both in the SD and the REBS methods after the best adjustment of parameter values. At PDM, measurements made by two analyzers located 200 m from each other allow us to confirm that the CH4 spikes identified in one of the time series but not in the other correspond to a local source from a sewage treatment facility in one of the observatory buildings. From this experiment, we also found that the REBS method underestimates the number of positive anomalies in the CH4 data caused by local sewage emissions. As a conclusion, we recommend the use of the SD method, which also appears to be the easiest one to implement in automatic data processing, used for the operational filtering of spikes in greenhouse gases time series at global and regional monitoring stations of networks like that of the ICOS atmosphere network. |
format |
Article in Journal/Newspaper |
author |
El Yazidi, Abdelhadi Ramonet, Michel Ciais, Philippe Broquet, Gregoire Pison, Isabelle Abbaris, Amara Brunner, Dominik Conil, Sebastien Delmotte, Marc Gheusi, Francois Guerin, Frederic Hazan, Lynn Kachroudi, Nesrine Kouvarakis, Giorgos Mihalopoulos, Nikolaos Rivier, Leonard Serça, Dominique |
author_facet |
El Yazidi, Abdelhadi Ramonet, Michel Ciais, Philippe Broquet, Gregoire Pison, Isabelle Abbaris, Amara Brunner, Dominik Conil, Sebastien Delmotte, Marc Gheusi, Francois Guerin, Frederic Hazan, Lynn Kachroudi, Nesrine Kouvarakis, Giorgos Mihalopoulos, Nikolaos Rivier, Leonard Serça, Dominique |
author_sort |
El Yazidi, Abdelhadi |
title |
Identification of spikes associated with local sources in continuous time series of atmospheric CO, CO2 and CH4 |
title_short |
Identification of spikes associated with local sources in continuous time series of atmospheric CO, CO2 and CH4 |
title_full |
Identification of spikes associated with local sources in continuous time series of atmospheric CO, CO2 and CH4 |
title_fullStr |
Identification of spikes associated with local sources in continuous time series of atmospheric CO, CO2 and CH4 |
title_full_unstemmed |
Identification of spikes associated with local sources in continuous time series of atmospheric CO, CO2 and CH4 |
title_sort |
identification of spikes associated with local sources in continuous time series of atmospheric co, co2 and ch4 |
publisher |
Copernicus Publications |
publishDate |
2018 |
url |
https://doi.org/10.5194/amt-11-1599-2018 https://noa.gwlb.de/receive/cop_mods_00006964 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00006921/amt-11-1599-2018.pdf https://amt.copernicus.org/articles/11/1599/2018/amt-11-1599-2018.pdf |
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Amsterdam Island |
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Atmospheric Measurement Techniques -- http://www.bibliothek.uni-regensburg.de/ezeit/?2505596 -- http://www.atmospheric-measurement-techniques.net/ -- 1867-8548 https://doi.org/10.5194/amt-11-1599-2018 https://noa.gwlb.de/receive/cop_mods_00006964 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00006921/amt-11-1599-2018.pdf https://amt.copernicus.org/articles/11/1599/2018/amt-11-1599-2018.pdf |
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CC-BY |
op_doi |
https://doi.org/10.5194/amt-11-1599-2018 |
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Atmospheric Measurement Techniques |
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ftnonlinearchiv:oai:noa.gwlb.de:cop_mods_00006964 2023-05-15T13:22:36+02:00 Identification of spikes associated with local sources in continuous time series of atmospheric CO, CO2 and CH4 El Yazidi, Abdelhadi Ramonet, Michel Ciais, Philippe Broquet, Gregoire Pison, Isabelle Abbaris, Amara Brunner, Dominik Conil, Sebastien Delmotte, Marc Gheusi, Francois Guerin, Frederic Hazan, Lynn Kachroudi, Nesrine Kouvarakis, Giorgos Mihalopoulos, Nikolaos Rivier, Leonard Serça, Dominique 2018-03 electronic https://doi.org/10.5194/amt-11-1599-2018 https://noa.gwlb.de/receive/cop_mods_00006964 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00006921/amt-11-1599-2018.pdf https://amt.copernicus.org/articles/11/1599/2018/amt-11-1599-2018.pdf eng eng Copernicus Publications Atmospheric Measurement Techniques -- http://www.bibliothek.uni-regensburg.de/ezeit/?2505596 -- http://www.atmospheric-measurement-techniques.net/ -- 1867-8548 https://doi.org/10.5194/amt-11-1599-2018 https://noa.gwlb.de/receive/cop_mods_00006964 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00006921/amt-11-1599-2018.pdf https://amt.copernicus.org/articles/11/1599/2018/amt-11-1599-2018.pdf https://creativecommons.org/licenses/by/4.0/ uneingeschränkt info:eu-repo/semantics/openAccess CC-BY article Verlagsveröffentlichung article Text doc-type:article 2018 ftnonlinearchiv https://doi.org/10.5194/amt-11-1599-2018 2022-02-08T22:58:46Z This study deals with the problem of identifying atmospheric data influenced by local emissions that can result in spikes in time series of greenhouse gases and long-lived tracer measurements. We considered three spike detection methods known as coefficient of variation (COV), robust extraction of baseline signal (REBS) and standard deviation of the background (SD) to detect and filter positive spikes in continuous greenhouse gas time series from four monitoring stations representative of the European ICOS (Integrated Carbon Observation System) Research Infrastructure network. The results of the different methods are compared to each other and against a manual detection performed by station managers. Four stations were selected as test cases to apply the spike detection methods: a continental rural tower of 100 m height in eastern France (OPE), a high-mountain observatory in the south-west of France (PDM), a regional marine background site in Crete (FKL) and a marine clean-air background site in the Southern Hemisphere on Amsterdam Island (AMS). This selection allows us to address spike detection problems in time series with different variability. Two years of continuous measurements of CO2, CH4 and CO were analysed. All methods were found to be able to detect short-term spikes (lasting from a few seconds to a few minutes) in the time series. Analysis of the results of each method leads us to exclude the COV method due to the requirement to arbitrarily specify an a priori percentage of rejected data in the time series, which may over- or underestimate the actual number of spikes. The two other methods freely determine the number of spikes for a given set of parameters, and the values of these parameters were calibrated to provide the best match with spikes known to reflect local emissions episodes that are well documented by the station managers. More than 96 % of the spikes manually identified by station managers were successfully detected both in the SD and the REBS methods after the best adjustment of parameter values. At PDM, measurements made by two analyzers located 200 m from each other allow us to confirm that the CH4 spikes identified in one of the time series but not in the other correspond to a local source from a sewage treatment facility in one of the observatory buildings. From this experiment, we also found that the REBS method underestimates the number of positive anomalies in the CH4 data caused by local sewage emissions. As a conclusion, we recommend the use of the SD method, which also appears to be the easiest one to implement in automatic data processing, used for the operational filtering of spikes in greenhouse gases time series at global and regional monitoring stations of networks like that of the ICOS atmosphere network. Article in Journal/Newspaper Amsterdam Island Niedersächsisches Online-Archiv NOA The Spike ENVELOPE(-37.317,-37.317,-54.017,-54.017) Atmospheric Measurement Techniques 11 3 1599 1614 |