Zusammenfassung der Projektergebnisse

The present project addressed the development of airborne UV/vis/near IR absorbing miniDOAS limb instruments, and their deployment on research aircrafts (DLR-Falcon, Geophysica, and NASA Global Hawk) and high-flying research balloons into the lower and middle atmosphere. The instruments are able to measure time and space-dependent vertical profiles of some critical radicals and trace gases (e.g., O3, HONO, NO2, C2H2O2, CH2O, O4, BrO, OClO, IO, and OIO) in the targeted atmospheric region. Within the project, some key features of the miniDOAS instrument were improved, such as (a) its low weight and power consumption which was necessary due to limitations with the host vehicles, (b) a stable optical imaging for in largely changing ambient conditions (temperature and pressures), as well as (c) an actively control of the telescope pointing for all miniDOAS instruments assembled on host vehicles providing their attitude data to scientific users. Also predictions of a fully spherical and refractive radiative transfer (RT) model were validated by field observations made within the project. The thus validated RT model was also extensively used to forward model of (each) limb measurement. Further a scattering code was developed which in future may help to interpret the near IR limb measurements with respect to the optical properties, size and shape of liquid and solid particles. Finally, in support of the data evaluation and the profile retrieval, a master retrieval algorithm was developed which includes measured and ‘a priori’ information either obtained from complementary sensors assembled on the same host vehicle, or from process oriented and/or global models, as well as other external information (atmospheric temperature and pressure, solar zenith and azimuth angles, altitude, yaw, pitch and roll angle of the host payload, et cetera) necessary in the data retrieval. Major scientific applications of the airborne UV/vis/near IR limb technique included studies on the photochemistry and kinetics of halogen and nitrogen oxides in the stratosphere, trend assessment of the ozone-depleting halogens bromine and iodine, the photochemistry and budget of bromine (and eventually iodine) within the tropical tropopause layer, detection of halogen oxides within the polar and tropical troposphere as well as of some key intermediates in the oxidation chain of volatile organic compounds. Using the data collected within the present project, ongoing and future studies may not only address yet unexplored photochemical processes but also microphysical and radiative processes relevant for climate change, such as the formation of sub-visible cirrus within the tropical tropopause layer, the radiative transfer in mixed-phased clouds, or aerosol-cloud interactions in polluted and unpolluted air masses.

Projektbezogene Publikationen (Auswahl)

• Balloon-borne limb measurements of the diurnal variation of UV/vis absorbing radicals - a case study on NO2 and O3, Atmos. Meas. Tech., 3, 933-946, 2010
  Kritten L., A. Butz, M. Dorf, T. Deutschmann, S. Kühl, C. Prados-Roman, J. Pukite, A. Rozanov, R. Schofield, and K. Pfeilsticker
  
• Airborne DOAS limb measurements of tropospheric trace gas profiles: case study on the profile retrieval of O4 and BrO, Atmos. Meas. Tech., 4, 1241–1260, 2011
  Prados-Roman C., A. Butz, T. Deutschmann, M. Dorf, L. Kritten, A. Minikin, U. Platt, H. Schlager, H. Sihler, N. Theys, M. Van Roozendael, T. Wagner, and K. Pfeilsticker
  
• The Monte Carlo Atmospheric Radiative Transfer Model McArtim: Introduction and Validation of Jacobians and 3D Features, Journal of Quantitative Spectroscopy and Radiative Transfer, 112, 6, Pages 1119–1137, 2011
  Deutschmann T., I. S. Beirle, U. Frieß, M. Grzegorski, C. Kern, L. Kritten, U. Platt, J. Pukite, T. Wagner, B. Werner, K. Pfeilsticker
  
• Atmospheric test of the J(BrONO2)/k(BrO+NO2) ratio: Implications for total stratospheric Bry and bromine-mediated ozone loss, Atmos. Chem. Phys., 13, 6263-6274, 2013
  Kreycy S., C.C.P. Camy-Peyret, M.P. Chipperfield, M. Dorf, W.Feng, R. Hossaini, L. Kritten, B. Werner, and K. Pfeilsticker
  (Siehe online unter https://doi.org/10.5194/acp-13-6263-2013)
• DOAS observations over Borneo during the SHIVA aircraft campaign, Malaysian Journal of Science 32 (SCS Special Issue), 259-266, 2013
  Großmann K., M. Dorf, M. Kenntner, V. Catoire, H. Schlager, F. Hendrick, I. DeSmedt, Y. Huan, and K. Pfeilsticker
  
• Iodine monoxide in the Western Pacific marine boundary layer, Atmos. Chem. Phys., 13, 3363-3378, 2013
  Großmann K., U. Frieß, E. Peters, F. Wittrock, J. Lampel, S. Yilmaz, J. Tschritter, R. Sommariva, R. von Glasow, B. Quack, K. Krüger, K. Pfeilsticker, and U. Platt
  (Siehe online unter https://doi.org/10.5194/acp-13-3363-2013)
• Constraining the N2O5 UV absorption cross-section from spectroscopic trace gas measurements in the tropical mid-stratosphere, Atmos. Chem. Phys. 14, 9555–9566, 2014
  Kritten L., Butz, A., Chipperfield, M. P., Dorf, M., Dhomse, S., Hossaini, R., Oelhaf, H., Prados-Roman, C., Wetzel, G., and Pfeilsticker, K.
  (Siehe online unter https://doi.org/10.5194/acp-14-9555-2014)
• Convective transport of veryshort-lived bromocarbons to the stratosphere, Atmos. Chem. Phys., 14, 5781-5792, 2014
  Liang, Q., Atlas, E., Blake, D., Dorf, M., Pfeilsticker, K., and Schauffler, S.
  (Siehe online unter https://doi.org/10.5194/acp-14-5781-2014)
• Glyoxal observations in the global marine boundary layer, J. Geophys. Res., 119, 10, 27 6160–6169, 2014
  Mahajan A. S., C. Prados-Roman, T. D. Hay, J. Lampel, D. Pöhler, K. Großmann, J.Tschritter, U. Frieß, U. Platt, P. Johnston, K. Kreher, F. Wittrock, J. P. Burrows, J. M.C. Plane, and A. Saiz-Lopez
  (Siehe online unter https://doi.org/10.1002/2013JD021388)
• Scattering of electromagnetic radiation based on numerical calculation of the T-matrix through its integral representation, Proc. SPIE 9232, International Conference on Optical Particle Characterization (OPC 2014), 923208 (August 6, 2014); 2014
  Tricoli, U. and K. Pfeilsticker
  (Siehe online unter https://doi.org/10.1117/12.2063545)