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Stratospheric aerosol effects from Soufriere Volcano as measured by the SAGE satellite system (1982)

Kent, G. S. ; Cunnold, D. M. ; Mccormick, M. P. ; [et al.]

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Publication Date: 2011-08-18

Description: During its April 1979 eruption series, Soufriere Volcano produced two major stratospheric plumes that the SAGE (Stratospheric Aerosol and Gas Experiment) satellite system tracked to West Africa and the North Atlantic Ocean. The total mass of these plumes, whose movement and dispersion are in agreement with those deduced from meteorological data and dispersion theory, was less than 0.5 percent of the global stratospheric aerosol burden; no significant temperature or climate perturbation is therefore expected.

Keywords: GEOPHYSICS

Type: Science; 216; June 4

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2

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SAM II aerosol profile measurements, Poker Flat, Alaska; July 16-19, 1979 (1981)

Chu, W. P. ; Herman, B. M. ; Mcmaster, L. R. ; [et al.]

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Publication Date: 2011-08-18

Description: SAM II satellite measurements during the July 1979 Poker Flat mission, yielded an aerosol extinction coefficient of 0.0004/km at 1.0 micron wavelength, in the region of the stratospheric aerosol mixing ratio peak (12-16 km). The stratospheric aerosol optical depth for these data, calculated from the tropopause through 30 km, is approximately 0.001. These results are consistent with the average 1979 summertime values found throughout the Arctic.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters; 8; Jan. 198

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3

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Characterization of aerosols from eruptions of Mount St. Helens (1981)

Woods, D. C. ; Mccormick, M. P. ; Chuan, R. L.

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Publication Date: 2011-08-18

Description: Measurements of mass concentration and size distribution of aerosols from eruptions of Mount St. Helens as well as morphological and elemental analyses were obtained between 7 April and 7 August 1980. In situ measurements were made in early phreatic and later, minor phreatomagmatic eruption clouds near the vent of the volcano and in plumes injected into the stratosphere from the major eruptions of 18 and 25 May. The phreatic aerosol was characterized by an essentially monomodal size distribution dominated by silicate particles larger than 10 micrometers in diameter. The phreatomagmatic eruption cloud was multimodal; the large size mode consisted of silicate particles and the small size modes were made up of mixtures of sulfuric acid and silicate particles. The stratospheric aerosol from the main eruption exhibited a characteristic narrow single mode with particles less than 1 micrometer in diameter and nearly all of the mass made up of sulfuric acid droplets.

Keywords: GEOPHYSICS

Type: Science; 211; Feb. 20

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4

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High-latitude stratospheric aerosols measured by the SAM II satellite system in 1978 and 1979 (1981)

Chu, W. P. ; Swissler, T. J. ; Herman, B. M. ; [et al.]

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Publication Date: 2011-08-18

Description: Results of the first year of data collection by the SAM (Stratospheric Aerosol Measurement) II satellite system are presented. Almost 10,000 profiles of stratospheric aerosol extinction in the Arctic and Antarctic regions are used to construct plots of weekly averaged aerosol extinction versus altitude and time and stratospheric optical depth versus time. Corresponding temperature fields are presented. These data show striking similarities in the aerosol behavior for corresponding seasons. Wintertime polar stratospheric clouds that are strongly correlated with temperature are documented. They are much more prevalent in the Antarctic stratosphere during the cold austral winter and increase the stratospheric optical depths by as much as an order of magnitude for a period of about 2 months. These clouds might represent a sink for stratospheric water vapor and must be considered in the radiative budget for this region and time.

Keywords: GEOPHYSICS

Type: Science; 214; Oct. 16

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5

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Lidar measurements of Mount St. Helens effluents (1982)

Mccormick, M. P.

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Publication Date: 2011-08-18

Description: Lidar measurements of the worldwide movement of stratospheric aerosols produced by the 18 May 1980 eruption of Mount St. Helens are described. Ground-based and airborne measurements show that the layers below 20 km produced by this eruption moved in an easterly direction while those above 20 km moved in a westerly direction. The effluent at jet stream altitudes of 10 to 12 km circled the globe in about 16 days and the effluent at 23 km (the highest altitude recorded) circled the globe in about 56 days. Mass calculations, using backscatter-to-mass conversion models, indicate that approximately half a million metric tons of new stratospheric material were produced by this eruption. Even though this represents a 200% increase in Northern Hemispheric aerosol, no significant long-term atmospheric temperature change should occur.

Keywords: GEOPHYSICS

Type: Optical Engineering; 21; Mar

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6

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El Chichon eruption cloud - Comparison of lidar and optical thickness measurements for October 1982 (1983)

Spinhirne, J. D. ; Mccormick, M. P. ; Swissler, T. J.

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Publication Date: 2011-08-18

Description: Sun photometer and lidar backscatter measurements of the El Chichon volcanic cloud were obtained during an airborne latitude survey. The observations were collected between 46 deg N and 46 deg S from Oct. 19-Nov. 7, 1982. Comparisons between these data sets have been performed. An aerosol optical model was developed for the conversion of the lidar measurements to optical thickness values using numerical aerosol size distribution data and index of refraction information collected with coordinated dustsonde balloon flights. The derived lidar optical thickness values were found to agree with the sun photometer optical thickness values within measurement uncertainties. The lidar derived values ranged from 0.16 at the equator to 0.03 at 30 deg S latitude. Peak values were concentrated between 35 deg N and 10 deg S.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 10; Sept

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7

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Stratospheric aerosol mass and latitudinal distribution of the El Chichon eruption cloud for October 1982 (1983)

Mccormick, M. P. ; Swissler, T. J.

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Publication Date: 2011-08-18

Description: The eruptions of El Chicon in Mexico during March and April, 1982, produced the largest enhancements in stratospheric aerosols, which were experienced in at least the last 20 years. An experimental survey flight was conducted in October-November 1982 to underfly El Chichon's eruption cloud and to map out its latitudinal distribution. A NASA aircraft was flown between 46 deg N latitude and 46 deg S latitude in a coordinated field campaign. The present investigation is concerned with the results of lidar stratospheric measurements taken over the entire mission. The employed airborne lidar system consists of a ruby laser, nominally emitting 1 joule/pulse at 0.5 pulse/sec during flight, and a 35.6-cm receiving Cassegrainian-configured telescope. The lidar data presented are described in two forms, taking into account the lidar backscattering ratio and the integrated aerosol backscattering function.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 10; Sept

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8

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Global distribution of stratospheric aerosols by satellite measurements (1983)

Mccormick, M. P.

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Publication Date: 2011-08-18

Description: (Previously cited in issue 08, p. 1248, Accession no. A82-22043)

Keywords: GEOPHYSICS

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9

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SAGE - European ozonesonde comparison (1982)

Reiter, R. ; Mccormick, M. P.

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Publication Date: 2011-08-18

Description: Between February and December 1979, 30 correlative comparisons were conducted of ozone profiles derived from the satellite sensor SAGE and those derived from balloon-borne ozonesondes launched in Europe. The mean absolute differences between SAGE and the European sondes when ozone mixing ratio is used as the basis of comparison are listed, and ozone comparisons made at four stations in Europe are plotted as ozone mixing ratio versus altitude. The agreement is considered quite reasonable. Also shown is an April 2, 1979 Garmisch comparison where the time and space differences were very small. The agreement is found to be remarkable. For example, the ratio of SAGE to ozonesonde values at 13 out of 17 levels between 12.5 and 28.5 km lies in the range 0.92-1.06.

Keywords: GEOPHYSICS

Type: Nature; 300; Nov. 25

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10

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Satellite and correlative measurements of the stratospheric aerosol. I An optical model for data conversions (1981)

Russell, P. B. ; Livingston, J. M. ; Swissler, T. J. ; [et al.]

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Publication Date: 2011-08-18

Description: A description is presented of an empirically based model of stratospheric aerosol optical properties (size distributions and refractive indices) and their variations. The need for such a model arose in the data validation and archival programs for two satellite sensors, SAM II and SAGE. These programs require the ability to convert measurements of a given aerosol macroproperty (e.g., volume extinction coefficient, volume backscatter coefficient, particle number or mass per unit volume) to best estimates of other aerosol macroproperties, and to assess quantitatively the uncertainties in the conversion process. The described model provides the information on size distributions, refractive indices and their variations necessary for these tasks, and also defines a procedure for combining the model information with empirical data in a way that facilitates automatic data processing. Although the model was developed for use in the satellite validation and archival programs, it also has proven useful in other studies of stratospheric aerosol.

Keywords: GEOPHYSICS

Type: Journal of the Atmospheric Sciences; 38; June 198

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