论文信息 - Latitudinal survey of spectral optical depths of the Pinatubo volcanic cloud‐derived particle sizes, columnar mass loadings, and effects on planetary albedo

Latitudinal survey of spectral optical depths of the Pinatubo volcanic cloud‐derived particle sizes, columnar mass loadings, and effects on planetary albedo

We have made airborne measurements of spectral optical depths, radiative fluxes, and scattered radiation fields during the NASA Caribbean mission (July 7–14, 1991) to characterize the Pinatubo volcanic cloud. In this paper we report the latitudinal and spectral dependence of the volcanic cloud's optical depth. From these measurements we determine moments of the particle size distribution. The change in planetary albedo induced by the volcanic cloud is calculated for the range of measured optical depths with the objective of assessing the impact on the solar radiation budget. Mid-visible optical depths higher than 0.4 were observed, placing the Pinatubo stratospheric cloud among the thickest ever measured. The latitudinal distribution of extinction shows that by July 7, 1991 the volcanic cloud had extended to 30°N. The effective particle radius was determined to be between 0.18 μm and 035 μm with a corresponding columnar mass loading between 35 and 80 mg.m−2.

Francisco P. J. Valero | Peter Pilewskie | P. Pilewskie | F. Valero

[1] L. C. Helmle,et al. The Delta-Four-Stream Approximation for Radiative Flux Transfer , 1982 .

[2] Michael D. King,et al. Latitudinal variation of spectral optical thickness and columnar size distribution of the El Chichon stratospheric aerosol layer , 1985 .

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

[4] T. Ackerman,et al. The effects of the Arctic haze as determined from airborne radiometric measurements during AGASP II , 1989 .

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

[6] Paul Pellegrino,et al. Monitoring the Mt. Pinatubo aerosol layer with NOAA/11 AVHRR data , 1992 .

[7] 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 .

[8] M. P. McCormick,et al. Temperature effects on the stratosphere of the April 4, 1982 eruption of El Chichon, Mexico , 1983 .

[9] M. P. McCormick,et al. Stratospheric temperature increases due to Pinatubo aerosols , 1992 .