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Original Articles

Airborne lidar measurements of aerosol spatial distribution and optical properties over the Atlantic Ocean during a European pollution outbreak of ACE-2

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Pages 662-677 | Received 15 Apr 1999, Accepted 13 Sep 1999, Published online: 15 Dec 2016

References

  • Anderson, B. E. et al. 1996. Aerosols from biomass burn-ing over the tropical South Atlantic region: distribu-tions and impacts. J. Geophys. Res. 101,24,117-24,137.
  • Anderson, T. L. et al. 1996. Performance characteristics of a high-sensitivity three-wavelength total scatter/ backscatter coefficient nephelometer. J. Atmos. Oceanic Tech. 13, 967–986.
  • Bates, T. S., Huebert, B. J., Gras, J. L., Griffiths, F. B. and Durkee, P. A. 1994. International global atmo-spheric chemistry (IGAC) projects' first Aerosol Characterization Experiment (ACE 1). Overview. J. Geophys. Res. 103, 16,297–16,318
  • Bates, T. S., Quinn, P., Covert, D. S., Coffman, D. J. and Johnson, D. 2000. Aerosol physical properties and controlling processes in the lower marine boundary layer: A comparison of sub-micron data from ACE-1 and ACE-2. Tellus 52B, 258–272.
  • Berner A., Sidla, S., Galambos, Z., Kruisz, C. and Hitzen-berger, R. 1996. Modal character of atmospheric black carbon size distributions. J. Geophys. Res. 101, 19,559–19,565
  • Boucher O. and Lohman, U. 1995. The sulfate-CNN-cloud albedo effect: a sensitivity study using two gen-eral circulation models. Tellus B47, 281–300
  • Boucher O. and Anderson, T. L. 1995. General circula-tion model assessment of the sensitivity of direct cli-mate forcing by anthropogenic sulfate aerosols to aerosol size and chemistry. J. Geophys. Res. 100, 26,117–26,134
  • Browell, E. V. et al. 1996. Large-scale air mass character-istics observed over Western Pacific during sum-mertime. J. Geophys. Res. 101, 1691–1712.
  • Chalon, J.-P. et al. 1998. Les avions franccais de recher-che atmosphérique et de télédétection. La Météorolo-gie 8, 14–44.
  • Chazette P., David, C., Lefrére, J., Godin, S., Pelon, J. and Mégie, G. 1995. Comparative lidar study of the optical, geometrical, and dynamical properties of stra-tospheric post-volcanic aerosols, following the erup-tions of El Chichon and Mount Pinatubo. J. Geophys. Res. 100, 23,195–23,207
  • Dulac, F., Tanre, D., Bergametti, G., Buat-Ménard, P., Desbois, M. and Sutton, D. 1992. Assessment of the African airborne dust mass over the western Mediter-ranean Sea using Meteosat data. J. Geophys. Res. 97, 2489–2506
  • Flamant, C., Trouillet, V., Chazette, P. and Pelon, J. 1998. Wind speed dependence of atmospheric bound-ary layer optical properties and ocean surface reflectance as observed by backscatter lidar. J. Geo-phys. Res. 103, 25,137–25,158
  • Hanel, G. 1976. The properties of atmospheric aerosol particles as functions of the relative humidity at ther-modynamic equilibrium with the surrounding moist air. Adv. Geophys. 19, 73–188.
  • Hegg, D. A., Livingston, J., Hobbs, P. V., Novakov, T. and Russell, P. 1997. Chemical apportionment of the aerosol column optical depth off the mid-Atlantic coast of the United States. J. Geophys. Res. 102, 25,293–25,303
  • Heintzenberg, J. and Charlson, R. J. 1996. Design and applications of the integrating nephelometer: A review. J. Atmos. Oceanic Tech. 13, 987–999.
  • Holben, B. N., Kaufman, Y. J., Setzer, A. W., Tanré, D. and Ward, D. E. 1991. Optical properties of aerosol emissions from biomass burning in the Tropics, BASE-A. In: Global biomass burning (ed. J. S. Levine, MIT Press, Cambridge, Mass., pp. 403–411.
  • Hoppel, W. A., Fitzgerald, J. W., Frick, G. M., Larson, R. E. and Mack, E. J. 1990. Aerosol size and optical properties found in the marine boundary layer over the Atlantic Ocean. J. Geophys. Res. 95, 3659–3686.
  • von Hoyningen-Huene, W., Schmidt, T., Herber, A. and Silva, A. M. 1998. Climate-relevant columnar aerosol parameters obtained during ACE-2 CLEARCOL-UMN and their influence on the shortwave radiative balance. J. Aerosol Sci. 29, suppl. 1, S269-S270.
  • Jaenicke, R. 1993. Tropospheric aerosols. In: Aerosol-cloud-climate interactions (ed. P. V. Hobbs). Academic Press, San Diego, pp. 1–31.
  • Johnson, D. et al. 2000. An overview of the Lagrangian experiments undertaken during the North Atlantic Regional Aerosol Characterisation Experiment (ACE-2). Tellus 52B, 290–320.
  • Klett, J. D. 1985. Lidar inversion with variable back-scatter/extinction ratios. Appl. Opt. 24, 1638–1643.
  • Livingston, J. M., Kapustin, V. N., Schmid, B., Russell, P. B., Quinn, P. K., Timothy, S. B., Philip, A. D. and Freudenthaler, V. 2000. Shipboard sunphotometer measurements of aerosol optical depth spectra and columnar water vapor during ACE-2. Tellus B, this issue.
  • Moulin, C., Lambert, C. E., Poitou, J. and Dulac, F. 1996. Long-term (1983-1994) calibration of the Meteosat solar (VIS) channel using desert and marine targets. Int. J. Remote Sens. 17, 1183–1200.
  • Moulin, C., Guillard, F., Dulac, F. and Lambert, C. E. 1997a. Long-term daily monitoring of Saharan dust load over marine areas using Meteosat ISCCP-B2 data (I). Methodology and preliminary results for the Western Mediterranean. J. Geophys. Res. 102, 16,947–16,958
  • Moulin, C., Dulac, F., Lambert, C. E., Chazette, P., Jankowiak, I., Chatenet, B. and Lavenu, F. 1997b. Long-term daily monitoring of Saharan dust load over marine areas using Meteosat ISCCP-B2 data (II). Accuracy of the method and validation using sun-photometer measurements. J. Geophys. Res. 102, 16,959–16,969
  • Novakov, T., Hegg, D. A. and Hobbs, P. V. 1997. Air-borne measurements of carbonaceous aerosols on east coast of the US. J. Geophys. Res. 102, 30,023–30,030
  • Novakov, T., Quinn, P. K. and Bates, T. S. 2000. A shipboard measurements of concentrations and prop-erties of carboneaceous aerosols during ACE-2. Tellus 52B, 228–238.
  • Neustlls, C., Weise, D., Birmili, W., Wex, H., Weiden-sohler, A. and Covert, D. 2000. Size-segregated chem-ical, gravimetric, and number distribution derived mass closure of the aerosol in Sagres, Portugal during ACE-2. Tellus B, this issue.
  • Paronis, D., Dulac, F., Chazette, P., Hamonou, E. and Liberti, G. L. 1998. Aerosol optical thichkness mon-itoring in the Mediterranean. J. Aerosol Sci. 29, suppl. 1, S671—S672.
  • Quaglia P. et al. 1996. The airborne water vapor lidar LEANDRE 2: design, realization, tests and first valida-tion. In: Advances in atmospheric remote sensing with lidar (ed. A. Ansmann, R. Neuber, P. Rairoux and U. Wandinger). Springer, Berlin, pp. 297–300.
  • Quinn, P. K., Bates, T. S., Coffman, D. J., Miller, L. T., Johnson, J. E. and Covert, D. S. 2000. A comparison of aerosol chemical and optical properties from the first and second Aerosol Characterization Experiment. Tellus 52B, 239–257.
  • Raes, F., Bates, T. S., McGovern, F. M. and Van Liedek-erte, M. 2000. The second Aerosol Characterization Experiment (ACE-2): general overview and main results. Tellus 52B, 111–126.
  • Russell, P. B. and Heintzenberg, J. 2000. An overview of the ACE-2 clear sky column closure experiment (CLEARCOLUMN). Tellus 52B, 463–483.
  • Russell, P. B., Hobbs, P. V. and Stowe, L. L. 1999. Aerosol properties and radiative effects in the UIS mid-Atlantic haze plume: an overview of the tropo-spheric aerosol radiative forcing observational experi-ment (TARFOX). J. Geophys. Res. 104, 2213–2222.
  • Scheele, M. P., Siegmund, P. C. and Van Velthoven, P. F. J. 1996. Sensitivity of trajectories to data reso-lution and its dependence on the starting point: in or outside a tropopause fold. Meteor. Appl. 3, 267–273.
  • Sloane, C. S. 1984. Optical properties of aerosols of mixed composition. Atmos. Env. 18, 871–878.
  • Smith, M.H.., Consterdine, I. E. and Park, P. M. 1989. Atmospheric loadings of marine aerosol during a Heb-ridean cyclone. Quart. J. Roy. Meteorol. Soc. 115, 383–395
  • Tegen I. and Lacis, A. A. 1996. Modeling of particle size distribution and its influence on the radiative proper-ties of mineral dust aerosol. J. Geophys. Res. 101, 19,237–19,244
  • Verver, G., Raes, F., Vogelezang, D. and Johnson, D. 2000. The second Aerosol Characterization Experi-ment (ACE-2): Meteorological and chemical context. Tellus 52B, 126–140.
  • Winker, D. M., Couch, R. H. and McCormick, M. P. 1996. An overview of LITE: NASA's lidar in-space technology experiment. Proc. IEEE 84, 164–180.