BrO vertical distributions from SCIAMACHY limb measurements: comparison of algorithms and retrieval results

被引:27
作者
Rozanov, A. [1 ]
Kuehl, S. [2 ]
Doicu, A. [4 ]
McLinden, C. [8 ]
Pukite, J. [2 ]
Bovensmann, H. [1 ]
Burrows, J. P. [1 ]
Deutschmann, T. [3 ]
Dorf, M. [3 ]
Goutail, F. [5 ]
Grunow, K. [9 ]
Hendrick, F. [6 ]
von Hobe, M. [7 ]
Hrechanyy, S. [4 ,7 ]
Lichtenberg, G. [4 ]
Pfeilsticker, K. [3 ]
Pommereau, J. P. [5 ]
Van Roozendael, M. [6 ]
Stroh, F. [7 ]
Wagner, T. [2 ,3 ]
机构
[1] Univ Bremen, Inst Environm Phys IUP, Bremen, Germany
[2] Max Planck Inst Chem, D-55128 Mainz, Germany
[3] Heidelberg Univ, Inst Environm Phys, Heidelberg, Germany
[4] German Aerosp Ctr DLR Oberpfaffenhofen, Oberpfaffenhofen, Germany
[5] UVSQ, LATMOS, CNRS, Guyancourt, France
[6] Belgian Inst Space Aeron IASB BIRA, Brussels, Belgium
[7] Julich Res Ctr, Julich, Germany
[8] Environm Canada, Toronto, ON, Canada
[9] Free Univ Berlin, Inst Meteorol, D-1000 Berlin, Germany
来源
ATMOSPHERIC MEASUREMENT TECHNIQUES | 2011年 / 4卷 / 07期
关键词
RADIATIVE-TRANSFER MODEL; OPTICAL-ABSORPTION SPECTROSCOPY; ROTATIONAL RAMAN-SCATTERING; INFRARED IMAGER SYSTEM; STRATOSPHERIC BRO; DIFFERENT LATITUDES; PROFILE RETRIEVAL; OZONE; NO2; INSTRUMENT;
D O I
10.5194/amt-4-1319-2011
中图分类号
P4 [大气科学(气象学)];
学科分类号
0706 ; 070601 ;
摘要
This study presents two scientific and one operational retrieval algorithms used to obtain vertical distributions of bromine monoxide (BrO) from observations of the scattered solar light performed by the SCIAMACHY instrument in limb viewing geometry. The study begins with a discussion of the theoretical basis of all algorithms followed by an investigation of the retrieval sensitivity. Simulations with three different radiative transfer models allow us to analyze influence of the forward model implementation upon the retrieval results. By means of synthetic retrievals we analyze major sources of uncertainties in the resulting BrO profiles such as different BrO cross sections, their temperature dependence, and stratospheric aerosols. Finally, the reliability of SCIAMACHY BrO profile retrievals is demonstrated comparing results from different algorithms to each other and to balloon-borne observations.
引用
收藏
页码:1319 / 1359
页数:41
相关论文
共 37 条
  • [21] Algorithm for retrieval of vertical distribution of ozone from DIAL laser remote measurements
    Burlakov V.D.
    Dolgii S.I.
    Nevzorov A.A.
    Nevzorov A.V.
    Romanovskii O.A.
    [J]. Optical Memory and Neural Networks, 2015, 24 (4) : 295 - 302
  • [22] Measurements of vertical and horizontal distributions of ozone over Beijing from 2007 to 2010
    Chen, Pengfei
    Quan, Jiannong
    Zhang, Qiang
    Tie, Xuexi
    Gao, Yang
    Li, Xia
    Huang, Mengyu
    [J]. ATMOSPHERIC ENVIRONMENT, 2013, 74 : 37 - 44
  • [23] Ozone, NO2 and aerosol retrieval from SAGE III limb scatter measurements
    Rault, DF
    [J]. REMOTE SENSING OF CLOUDS AND THE ATMOSPHERE IX, 2004, 5571 : 205 - 216
  • [24] Lidar and satellite measurements of the vertical ozone distribution at the Siberian Lidar Station: Profile Retrieval and Estimation of Results
    Nevzorov, A. A.
    Nevzorov, A. V.
    Makeev, A. P.
    Gridnev, Yu. V.
    Romanovskii, O. A.
    Romanovskii, Ya. O.
    Kharchenko, O. V.
    [J]. REMOTE SENSING OF CLOUDS AND THE ATMOSPHERE XXVI, 2021, 11859
  • [25] Comparison of global datasets of sodium densities in the mesosphere and lower thermosphere from GOMOS, SCIAMACHY and OSIRIS measurements and WACCM model simulations from 2008 to 2012
    Langowski, Martin P.
    von Savigny, Christian
    Burrows, John P.
    Fussen, Didier
    Dawkins, Erin C. M.
    Feng, Wuhu
    Plane, John M. C.
    Marsh, Daniel R.
    [J]. ATMOSPHERIC MEASUREMENT TECHNIQUES, 2017, 10 (08) : 2989 - 3006
  • [26] Vertical Profiles of Tropospheric Ozone From MAX-DOAS Measurements During the CINDI-2 Campaign: Part 1Development of a New Retrieval Algorithm
    Wang, Yang
    Pukite, Janis
    Wagner, Thomas
    Donner, Sebastian
    Beirle, Steffen
    Hilboll, Andreas
    Vrekoussis, Mihalis
    Richter, Andreas
    Apituley, Arnoud
    Piters, Ankie
    Allaart, Marc
    Eskes, Henk
    Frumau, Arnoud
    Van Roozendael, Michel
    Lampel, Johannes
    Platt, Ulrich
    Schmitt, Stefan
    Swart, Daan
    Vonk, Jan
    [J]. JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, 2018, 123 (18) : 10637 - 10670
  • [27] First results of ozone profiles between 35 and 65 km retrieved from SCIAMACHY limb spectra and observations of ozone depletion during the solar proton events in October/November 2003
    Rohen, G. J.
    von Savigny, C.
    Llewellyn, E. J.
    Kaiser, J. W.
    Eichmann, K. -U.
    Bracher, A.
    Bovensmann, H.
    Burrows, J. P.
    [J]. ATMOSPHERIC REMOTE SENSING: EARTH'S SURFACE, TROPOSPHERE, STRATOSPHERE AND MESOSPHERE - II, 2006, 37 (12): : 2263 - 2268
  • [28] Results from the Fourth WMO Filter Radiometer Comparison for aerosol optical depth measurements
    Kazadzis, Stelios
    Kouremeti, Natalia
    Diemoz, Henri
    Grobner, Julian
    Forgan, Bruce W.
    Campanelli, Monica
    Estelles, Victor
    Lantz, Kathleen
    Michalsky, Joseph
    Carlund, Thomas
    Cuevas, Emilio
    Toledano, Carlos
    Becker, Ralf
    Nyeki, Stephan
    Kosmopoulos, Panagiotis G.
    Tatsiankou, Viktar
    Vuilleumier, Laurent
    Denn, Frederick M.
    Ohkawara, Nozomu
    Ijima, Osamu
    Goloub, Philippe
    Raptis, Panagiotis I.
    Milner, Michael
    Behrens, Klaus
    Barreto, Africa
    Martucci, Giovanni
    Hall, Emiel
    Wendell, James
    Fabbri, Bryan E.
    Wehrli, Christoph
    [J]. ATMOSPHERIC CHEMISTRY AND PHYSICS, 2018, 18 (05) : 3185 - 3201
  • [29] Optimal retrieval method to estimate ozone vertical profile in the mesosphere and lower thermosphere (MLT) region from submillimeter-wave limb emission spectra
    Kuribayashi, K.
    Yoshida, N.
    Jin, H.
    Orsolini, Y. J.
    Kasai, Y.
    [J]. JOURNAL OF QUANTITATIVE SPECTROSCOPY & RADIATIVE TRANSFER, 2017, 192 : 42 - 52
  • [30] Aerosol vertical distribution over east China from RIEMS-Chem simulation in comparison with CALIPSO measurements
    Li, Jiawei
    Han, Zhiwei
    [J]. ATMOSPHERIC ENVIRONMENT, 2016, 143 : 177 - 189
1234