Representativeness of the IAGOS airborne measurements in the lower troposphere

Article English OPEN
Petetin, H. ; Jeoffrion, M. ; Sauvage, B. ; Athier, G. ; Blot, R. ; Boulanger, D. ; Clark, H. ; Cousin, J.-M. ; Gheusi, F. ; Nedelec, P. ; Steinbacher, M. ; Thouret, V. (2018)
  • Publisher: University of California Press
  • Journal: Elementa: Science of the Anthropocene (issn: 2325-1026, eissn: 2325-1026)
  • Related identifiers: doi: 10.1525/elementa.280
  • Subject: airborne observations | IAGOS | representativeness | GE1-350 | carbon monoxide | Environmental sciences | airborne observations; representativeness; ozone; carbon monoxide; IAGOS; GAW | GAW | ozone

In the framework of the In Service Aircraft for Global Observing System (IAGOS) program, airborne in-situ O3 and CO measurements are performed routinely using in-service aircraft, providing vertical profiles from the surface to about 10–12 km. Due to the specificity of... View more
  • References (16)
    16 references, page 1 of 2

    Brenninkmeijer, CAM, Crutzen, P, Boumard, F, Dauer, T, Dix, B, Ebinghaus, R, Filippi, D, Fischer, H, Franke, H, Frieβ, U, Heintzenberg, J, Helleis, F, Hermann, M, Kock, HH, Koeppel, C, Lelieveld, J, Leuenberger, M, Martinsson, BG, Miemczyk, S, Moret, HP, Nguyen, HN, Nyfeler, P, Oram, D, O'Sullivan, D, Penkett, S, Platt, U, Pupek, M, Ramonet, M, Randa, B, Reichelt, M, Rhee, TS, Rohwer, J, Rosenfeld, K, Scharffe, D, Schlager, H, Schumann, U, Slemr, F, Sprung, D, Stock, P, Thaler, R, Valentino, F, van Velthoven, P, Waibel, A, Wandel, A, Waschitschek, K, Wiedensohler, A, Xueref-Remy, I, Zahn, A, Zech, U and Ziereis, H 2007 Civil Aircraft for the regular investigation of the atmosphere based on an instrumented container: The new CARIBIC system. Atmos. Chem. Phys 7(18): 4953-4976. DOI: https://doi. org/10.5194/acp-7-4953-2007

    Bundke, U, Berg, M, Houben, N, Ibrahim, A, Fiebig, M, Tettich, F, Klaus, C, Franke, H and Petzold, A 2015 The IAGOS-CORE aerosol package: Instrument design, operation and performance for continuous measurement aboard in-service aircraft. Tellus B Chem. Phys. Meteorol 67(1): 28339. DOI: https:// doi.org/10.3402/tellusb.v67.28339

    Chevalier, A, Gheusi, F, Delmas, R, Ordóñez, C, Sarrat, C, Zbinden, R, Thouret, V, Athier, G and Cousin, J-M 2007 Influence of altitude on ozone levels and variability in the lower troposphere: A ground-based study for western Europe over the period 2001-2004. Guerreiro, CBB, Foltescu, V and de Leeuw, F 2014 Air Atmos. Chem. Phys 7(16): 4311-4326. DOI: https:// quality status and trends in Europe. Atmos. Environ doi.org/10.5194/acp-7-4311-2007 98: 376-384. DOI: https://doi.org/10.1016/j.

    Cui, J, Pandey Deolal, S, Sprenger, M, Henne, S, ICAO 2016 Doc 4444 - Procedures for Air Navigation Staehelin, J, Steinbacher, M and Nédélec, Services: Air Traffic Management, 16th edition. P 2011 Free tropospheric ozone changes over [online] Available from: http://flightservicebureau. Europe as observed at Jungfraujoch (1990-2008): org/wp-content/uploads/2017/03/ICAO-Doc4444- An analysis based on backward trajectories. J. Pans-Atm-16thEdition-2016-OPSGROUP.pdf. Geophys. Res 116(D10): 304. DOI: https://doi. Kalabokas, PD, Cammas, J-P, Thouret, V, Volz-Thomas, org/10.1029/2010JD015154 A, Boulanger, D and Repapis, CC 2013 Examination

    Dils, B, Cui, J, Henne, S, Mahieu, E, Steinbacher, M of the atmospheric conditions associated with and De Mazière, M 2011 1997-2007 CO trend at high and low summer ozone levels in the lower the high Alpine site Jungfraujoch: A comparison troposphere over the eastern Mediterranean. Atmos. between NDIR surface in situ and FTIR remote Chem. Phys 13(20): 10339-10352. DOI: https://doi. sensing observations. Atmos. Chem. Phys 11(13). org/10.5194/acp-13-10339-2013 DOI: https://doi.org/10.5194/acp-11-6735-2011 Kalabokas, PD, Volz-Thomas, A, Brioude, J, Thouret, V,

    Ding, AJ, Wang, T, Thouret, V, Cammas, J-P and Cammas, J-P and Repapis, CC 2007 Vertical ozone Nédélec, P 2008 Tropospheric ozone climatology measurements in the troposphere over the Eastern over Beijing: Analysis of aircraft data from the Mediterranean and comparison with Central MOZAIC program. Atmos. Chem. Phys 8(1): 1-13. Europe. Atmos. Chem. Phys 7(14): 3783-3790. DOI: DOI: https://doi.org/10.5194/acp-8-1-2008 https://doi.org/10.5194/acp-7-3783-2007

    Elguindi, N, Clark, H, Ordóñez, C, Thouret, V, Liu, G, Tarasick, DW, Fioletov, VE, Sioris, CE and Flemming, J, Stein, O, Huijnen, V, Moinat, P, Rochon, YJ 2009 Ozone correlation lengths Inness, A, Peuch, V-H, Stohl, A, Turquety, S, and measurement uncertainties from analysis of Athier, G, Cammas, J-P and Schultz, M 2010 historical ozonesonde data in North America and Current status of the ability of the GEMS/MACC Europe. J. Geophys. Res 114(D4). DOI: https://doi. models to reproduce the tropospheric CO vertical org/10.1029/2008JD010576 distribution as measured by MOZAIC. Geosci. Model Liu, H, Jacob, DJ, Bey, I, Yantosca, RM, Duncan, BN and Dev 3(2): 501-518. DOI: https://doi.org/10.5194/ Sachse, WG 2003 Transport pathways for Asian gmd-3-501-2010 pollution outflow over the Pacific: Interannual and

    Emmons, LK, Edwards, DP, Deeter, MN, Gille, JC, seasonal variations. J. Geophys. Res 108(D20): 8786. Campos, T, Nédélec, P, Novelli, P and Sachse, DOI: https://doi.org/10.1029/2002JD003102 G 2009 Measurements of Pollution In The Logan, JA, Staehelin, J, Megretskaia, IA, Cammas, Troposphere (MOPITT) validation through 2006, J-P, Thouret, V, Claude, H, De Backer, H, Atmos. Chem. Phys 9(5): 1795-1803. DOI: https:// Steinbacher, M, Scheel, H-E, Stübi, R, Fröhlich, doi.org/10.5194/acp-9-1795-2009 M and Derwent, R 2012 Changes in ozone over

    Filges, A, Gerbig, C, Chen, H, Franke, H, Klaus, C and Europe: Analysis of ozone measurements from Jordan, A 2015 The IAGOS-core greenhouse gas sondes, regular aircraft (MOZAIC) and alpine surface package: A measurement system for continuous sites. J. Geophys. Res 117(D9): 301. DOI: https://doi. airborne observations of CO2, CH4, H2O and CO. org/10.1029/2011JD016952 Tellus B Chem. Phys. Meteorol 67(1): 27989. DOI: Machida, T, Matsueda, H, Sawa, Y, Nakagawa, Y, https://doi.org/10.3402/tellusb.v67.27989 Hirotani, K, Kondo, N, Goto, K, Nakazawa, Hansen, AB, McKeen, S, Nopmongcol, U, and applications. Atmos. Chem. Phys 12(16): Prank, M, Sartelet, KN, Segers, A, Silver, JD, 7475-7497. DOI: https://doi.org/10.5194/ Yarwood, G, Werhahn, J, Zhang, J, Rao, ST and acp-12-7475-2012 Galmarini, S 2013 Evaluating the capability of Tressol, M, Ordonez, C, Zbinden, R, Brioude, J, regional-scale air quality models to capture the Thouret, V, Mari, C, Nedelec, P, Cammas, J-P, vertical distribution of pollutants. Geosci. Model Smit, H, Patz, H-W and Volz-Thomas, A 2008 Dev 6(3): 791-818. DOI: https://doi.org/10.5194/ Air pollution during the 2003 European heat wave gmd-6-791-2013 as seen by MOZAIC airliners. Atmos. Chem. Phys

    Staufer, J, Staehelin, J, Stübi, R, Peter, T, Tummon, F and 8(8): 2133-2150. DOI: https://doi.org/10.5194/ Thouret, V 2013 Trajectory matching of ozonesondes acp-8-2133-2008 and MOZAIC measurements in the UTLS - Part 1: Worden, HM, Deeter, MN, Edwards, DP, Gille, Method description and application at Payerne, JC, Drummond, JR and Nédélec, P 2010 Switzerland. Atmos. Meas. Tech 6(12): 3393-3406. Observations of near-surface carbon monoxide DOI: https://doi.org/10.5194/amt-6-3393-2013 from space using MOPITT multispectral retrievals.

  • Metrics
    No metrics available
Share - Bookmark