Latitudinal variation of spectral optical thickness and columnar size distribution of the El Chichon stratospheric aerosol layer

Multiwavelength solar radiometer observations of directly transmitted solar radiation have been obtained at 10 discrete wavelengths between 0.440 and 2.233 pm during an airborne latitudinal survey in late April and early May 1983. These observations have been used to derive the spectral optical thickness of the El Chichon stratospheric aerosol layer from 68”N to 56% The stratospheric optical thicknesses 1 year after the eruptions of El Chichon were still greatly enhanced over background levels for the stratosphere. The maximum optical thickness of 0.14 (0.670-pm wavelength) was found at 5O”N, rather than at 20‘N as was found during an airborne latitudinal survey in late October and early November 1982. Columnar aerosol size distributions have been inferred from the 1982 and 1983 data sets by numerically inverting the aerosol optical thickness measurements as a function of wavelength. In May 1983, latitudes north of 5”s had bimodal stratospheric aerosol size distributions, while latitudes south of 5’S had monomodal size distributions. During October 1982, when optical thickness measurements were obtained only from 0.440 to 0.871 pm, the size distributions showed a strong latitudinal variation but were everywhere monomodal. For both dates the northern hemisphere distribution indicated a significantly higher ratio of large particles to small particles than the southern hemisphere distribution. The addition of the near-infrared wavelengths in the May 1983 experiment increased the accuracy of the size distribution determinations at the large-particle end of the spectrum, as anticipated, but was also found to increase the accuracy at the small-particle end.

[1]  J A Reagan,et al.  Extraterrestrial solar flux measurement limitations due to a Beer's law assumption and uncertainty in local time. , 1982, Applied optics.

[2]  J. Pollack,et al.  The El Chichon volcanic cloud: An introduction , 1983 .

[3]  D. Hofmann,et al.  Sulfuric Acid Droplet Formation and Growth in the Stratosphere After the 1982 Eruption of El Chich�n , 1983, Science.

[4]  J. Spinhirne El Chichon eruption cloud - Latitudinal variation of the spectral optical thickness for October 1982 , 1983 .

[5]  D. Hofmann,et al.  Delayed production of sulfuric acid condensation nuclei in the polar stratosphere from El Chichon volcanic vapors , 1985 .

[6]  J. Spinhirne,et al.  Solar Infrared Photometer , 1985 .

[7]  Michael D. King,et al.  Aerosol size distributions obtained by inversion of spectral optical depth measurements , 1978 .

[8]  Michael D. King,et al.  Sensitivity of constrained linear inversions to the selection of the Lagrange multiplier. [for inferring columnar aerosol size distribution from spectral aerosol optical depth measurements] , 1982 .

[9]  M. McCormick,et al.  El Chichon eruption cloud: Comparison of lidar and optical thickness measurements for October 1982 , 1983 .

[10]  G. Shaw Error analysis of multi-wavelength sun photometry , 1976 .

[11]  S. Twomey,et al.  On the Numerical Solution of Fredholm Integral Equations of the First Kind by the Inversion of the Linear System Produced by Quadrature , 1963, JACM.

[12]  K. Snetsinger,et al.  Effect of the eruption of El Chichon on stratospheric aerosol size and composition , 1983 .

[13]  J. Deluisi,et al.  Spectral extinction of direct solar radiation by the El Chichon cloud during December 1982 , 1983 .

[14]  J. Kerr,et al.  Estimates of the amount of sulphur dioxide injected into the stratosphere by the explosive volcanic , 1983 .

[15]  M. McCormick,et al.  Stratospheric aerosol mass and latitudinal distribution of the El Chichon eruption cloud for October 1982 , 1983 .

[16]  Michael D. King,et al.  A model of the radiative properties of the El Chichon stratospheric aerosol layer , 1984 .

[17]  K. F. Palmer,et al.  Optical constants of sulfuric Acid; application to the clouds of venus? , 1975, Applied optics.

[18]  D. Hofmann,et al.  Stratospheric sulfuric acid fraction and mass estimate for the 1982 volcanic eruption of El Chichon , 1983 .

[19]  R. West,et al.  Formation of the El Chichon aerosol cloud , 1983 .

[20]  P. R. Bevington,et al.  Data Reduction and Error Analysis for the Physical Sciences , 1969 .

[21]  J. Deluisi,et al.  On some radiative features of the el chichon volcanic stratospheric dust cloud and a cloud of unknown origin observed at Mauna Loa , 1983 .

[22]  T. Ackerman,et al.  Possible effects of the El Chichon volcanic cloud on the radiation budget of the northern Tropics , 1983 .