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Report on Atmospheric Effects (1980-1989) — November 1983


Atmospheric Effects (1980-1989)

Scientific Event Alert Network Bulletin, vol. 8, no. 11 (November 1983)
Managing Editor: Lindsay McClelland.

Atmospheric Effects (1980-1989) El Chichón aerosols monitored by balloon, lidar, and sunset observations

Please cite this report as:

Global Volcanism Program, 1983. Report on Atmospheric Effects (1980-1989) (McClelland, L., ed.). Scientific Event Alert Network Bulletin, 8:11. Smithsonian Institution.



Atmospheric Effects (1980-1989)

All times are local (unless otherwise noted)


Balloon data - Antarctica and Wyoming. University of Wyoming atmospheric scientists launched a balloon from McMurdo, Antarctica (77.85°S, 166.62°E) on 27 October. Aerosols with a size and altitude distribution typical of remnants of debris injected by El Chichón were detected between the tropopause (at 12 km) and 19 km altitude. The layer's broad peak was centered on 15 km, where concentrations of particles larger than 0.15 µm were about 6/cm3, similar to values observed over Laramie, Wyoming at the same latitude 6 days earlier (see below).

From 22 km to the top of the sounding at 33 km, the balloon passed through a zone of much smaller particles, reminiscent of the cloud of tiny condensation nuclei observed over Wyoming in early 1983 and (in lesser quantities) during previous springtimes. Maximum concentrations of particles larger than 0.01 µm reached 100/cm3 at 25 km altitude, an order of magnitude less than the maximum in the early 1983 cloud over Wyoming. A secondary peak was measured at 30 km altitude (20/cm3), and concentrations were increasing again (to 10/19cm3) shortly before the balloon burst at about 33 km.

Stratospheric temperatures were unusually warm during the 27 October balloon mission, rising from -75°C at the tropopause, to about -50 to -60°C at 25 km, (the altitude of peak CN concentrations), to -25°C at 33 km. Comparison of the peak CN concentration during the 27 October balloon launch with a particle coagulation curve suggests that roughly 16 days had elapsed since the evaporation event. Temperature profile data in the South Polar region is sparse, but weather soundings at the Pole show a warming from about -50°C at roughly 30 km altitude (10 millibars) on 6 October, to -30°C at the same altitude on 11 October. This temperature change is consistent with those observed in conjunction with CN events in the arctic.

Balloons were launched from Laramie, Wyoming on 21 October and 22 November. A double tropopause was detected during the 21 October mission, with temperature reversals at 11 and 15 km altitude. Each reversal was associated with an aerosol layer. The denser layer was at 15 km, where particle concentrations were 6/cm3 larger than 0.15 µm and 4/cm3 larger than 0.25 µm. On 22 November, the aerosol layer extended from the tropoopause, at 7.5 km altitude in arctic air, to 22 km, reaching peak particle concentrations of 9-10/19cm3 (>0.15 µm) at 13 km. A secondary peak of 0.3/cm3 at 30 km (a high concentration for that altitude), suggested that equatorial air was present above the arctic air. Ratios of particles larger than 0.15 µm to those larger than 0.25 µm were similar to a month earlier, remaining at about 1.5, a value characteristic of the El Chichón aerosols but in distinct contrast with ratios of 4-5 for most volcanic aerosol clouds. Hofmann noted that multiple aerosol layers and complex boundaries between troposphere and stratosphere are often seen over mid-latitudes in the autumn, when air from polar regions is present at low altitudes while higher-altitude air has been transported from equatorial regions.

Lidar data. From Mauna Loa, Hawaii aerosol profile shape and backscattering values became increasingly variable in the autumn. The 13 September and 19 October profiles were jagged, with many small peaks. The 10 August profile was smooth; the 6 October pattern was similar but with a single new peak superimposed. On 9 November, a layer only 30-60 m thick was present between 15 and 16 km, just below the tropopause. On 30 November, backscattering increased very steeply from the base of the aerosol layer, dropping off above 21 km. At Hampton, Virginia, lidar data in late October and November showed variable aerosol profiles. When the jet stream moved south of Hampton, it transported polar air containing lower stratospheric aerosols into the region. Bases of aerosol layers in both the polar and tropical air masses were near the tropopause, several km lower in polar air than in tropical air (roughly 10 km vs 15 km). "Polar" aerosols were emplaced beneath the higher-altitude "tropical" layers, approximately doubling integrated backscattering values over Hampton in polar airmasses. A distinct layer at 18.5-19.8 km observed 29 and 30 November did not appear to be part of this pattern and its source is uncertain. This layer was not present 8 December. Late November lidar data from Fukuoka, Japan were very similar to late October results.

Unusual sunrises and sunsets. From Norwich, England, H. H. Lamb provided the following report.

"Abnormal coloured sunset and twilight glows presumed associated with the El Chichón eruption's stratospheric cloud have continued to be observed on almost any clear evening. In July, August, and September, the most regularly noticeable anomalies were cold yellow to sepia or stone-coloured twilights, later turning fiery red at the horizon. Frequently a nearly circular beautiful purple to rose patch of softer colour, some 10° of arc or a little more in diameter, was present above the horizontal yellow-brown layers of colour. The timing of the decline in elevation and ultimate disappearance of the purple/rose patch consistently indicated a height of about 20 km for the layer responsible throughout the period from late July to 14 October. On 5, 6, and 25 September and again on 7 October the purple/rose patch merged or extended into crepuscular rays in the same colour, the timing of which was used to derive the probable height of the layer.

"Since mid-October the displays have become more brilliant again and greater heights have been indicated for the active layer. On 21 October, the after-sunset glow was a brilliant fiery red along the horizon and at 1750 GMT a roughly circular purple patch of light developed strongly to over 20° elevation. This indicates a layer above 50 km height unless some secondary scattering effect was responsible. But on 24, 29, and 30 October a purple patch which later turned to rose pink became strongly illuminated about 1700 GMT up to 30° elevation, declining in elevation to 20° by 1707 and to 10° as it faded quickly about 1710. Over these dates a height of about 27 km is consistently indicated by these timings.

"It is not known whether this renewal of the optical effects and evidence of greater heights should be attributed to fresh dispersal of El Chichón material from other latitudes and/or other heights by the seasonal changes of the winds or whether a new stratospheric veil is involved."

Richard Keen continued to observe colorful twilights from Boulder, Colorado. An enhanced, salmon-colored twilight with maximum brightness and coloration at an SDA of 4° occurred 28 July. Similar twilights were observed 3 and 11-13 September (no observations were made in August). These included a fainter purplish glow to an SDA of 9°, similar to twilights of 3, 13, and 17 July. Strong double twilights, comparable to those seen from Boulder in November 1982 and January 1983, occurred 15-16 and 21 September, 3-6, 22, and 24-26 October, and 3, 6, 12, 14, and 23 November. They typically consisted of an enhanced salmon-colored 4° SDA primary twilight followed by a deep red secondary twilight to an SDA of about 17°. Keen had earlier noted that an aerosol layer at about 20 km altitude would have to extend about 1500 km W of a given observation point for secondary twilight illumination to occur. He suggests that a second requirement appears to be the absence of cirrus clouds in the same range. Satellite imagery showed that middle and high-altitude weather clouds were absent for 1500 km W from Boulder during all such observations, and these conditions were successfully used to predict double twilights.

Edward Brooks continued to observe some bright dawns and dusks through mid-November from Jeddah, Saudi Arabia. Colors were often strong in late October and sometimes reached 40° elevation, but illumination was usually most intense within a few degrees of the horizon. In early November, dawn and dusk colors were typically present only near the horizon; on the 8th, the absence of early dawn colors and the brief late dawn illumination low in the sky suggested that the scattering layer was at lower altitude than before. In mid-November, the onset of variable autumn weather coincided with frequent changes in dawns and dusks, which ranged from prolonged and bright-colored to brief and subdued.

From Millville, New Jersey, Fred Schaaf observed strong twilight colors in October. The timing and extent of illumination 10 October suggested an aerosol altitude of little more than 8 km. Strong 2-stage twilights were seen 27-28 October. Twilight effects weakened suddenly 30 October as arctic air moved into the area, as had occurred in mid-September, and remained weak through early November. Double twilights returned 8 November, when first-stage aerosol illumination ended at a time indicating that the top of the layer was at about 16-19 km. On the 12th, the arrival of arctic air again coincided with the weakening of twilight colors. In late November, colors were often intense but the aerosols appeared to be lower, with the top of the illuminated layer estimated at 11-13 km on the 29th.

Information Contacts: D. Hofmann, Univ. of Wyoming; R. Reiter, Garmisch-Partenkirchen, W Germany; T. DeFoor, MLO; W. Fuller and P. McCormick, NASA; M. Fujiwara and M. Hirono, Kyushu Univ., Japan; H. Lamb, Univ. of East Anglia, England; R. Keen, Univ. of Colorado; E. Brooks, Saudi Arabia; F. Schaaf, Milleville, NJ.