An explosive eruption 22 April followed more than a month of seismic and explosive precursors. Almost daily explosive bursts from 18 March to 4 April sent eruptive clouds to 1-4 km above the summit. Shallow earthquake swarms increased in early April from 14 earthquakes on 4 April to 90 distinct earthquakes in a continuous swarm on 7 April, when the Level of Concern Code was raised to orange by geologists at the IVGG. Magnitudes were estimated to be about M 2 on 6 April. Steam and gas explosions with some ash content continued over the next 3 days with seismicity remaining at high levels. Earthquakes increased in number and magnitude 12-15 April, with a maximum of 124 earthquakes on 14 April.

A snowstorm prevented observations 17-19 April, but explosions from the volcano were heard in Kliuchi (45 km SW) every few seconds on the 19th. Numerous gas and steam bursts occurred from the active dome 19-20 April. The gas-and-ash plume rose 800 m above the crater rim and drifted SW. Two spine-like or obelisk-shaped extrusions, 30-40 m high, were observed on the summit dome 20 April by geologists from IVGG and the IV. Shallow seismicity beneath the dome began to migrate towards the surface that same day. Seismicity began decreasing 19 April, and had declined sharply by the 21st. Gas and steam bursts rose to 600 m above the dome on 21 April.

The climactic eruption began the morning of 22 April. IV scientists reported explosions at the dome and from the crater near the dome beginning at 1030. The eruption cloud was ~7 km high by 1042 and >10 km high at 1313. The cloud obscured the volcano after the explosions until about 1600 when the lower part of the cloud was blown E and the upper part W. The eruption also produced pyroclastic flows and mud flows >10 km long.

The Level of Concern Code was raised to red on 22 April by IVGG geologists, who reported strong explosions at 1205 and 1230. At 1205 the eruptive cloud rose 6 km above the crater rim . . . and then to 15 km by 1330. The lower part of the ash cloud was moving WSW, and the upper portion was moving SE. Lightning was seen within the cloud. At 1340 the height of the eruption column was estimated to be 18 km (~20 km altitude). The ash cloud was detected drifting W by a weather satellite at 1432. By 1545, the ash cloud was moving WSW over the Kamchatka Peninsula. Pyroclastic flows down the flanks of the volcano reached 900 m elev, and mud flows extended 100 m lower.

The next morning, at 0530 on 23 April, another explosive ash eruption sent a column to 9-11 km altitude with the cloud moving in different directions at different altitudes. Bad weather prevented visual helicopter inspections of the crater area that day, but ash had started falling in . . . Kliuchi during the night and continued past 0800, stopping sometime later in the day. Strong winds rapidly redistributed the ash making thickness estimates difficult; however no more than 3 mm of ash appears to have fallen on the town, 45 km SW. Seismic activity decreased in the 24 hours after the eruption, and the Level of Concern Code was lowered to orange. No new pyroclastic flows or mudflows were observed on the lower flanks of the volcano.

IV also reported single explosions continuing on 23 April. The ash column was 3 km high and ashfall also occurred in Ust'-Kamchatsk (100 km SE). Baidarnaya station (8 km from active crater) registered 27 earthquakes on 23 April with amplitudes of 2-4 µm.

The volcano became visible 24 April, and a gas and steam column 4.5 km high was observed by IVGG at 2230, drifting to the N. Shimmering lights inside the crater were observed during the night. Seismicity was twice that recorded 22 April, and 20 earthquakes were detected in addition to constant low-amplitude tremor beneath the crater. An explosive burst was recorded seismically at 0619 on 25 April. A steam-and-ash column to 3.5 km above the crater was observed that day at 0530 and 0730, with a >30-km-long plume directed NNW.

Clouds again prevented visual observations 26-29 April, but the Level of Concern Code was lowered to yellow on 27 April because of the overall decline in volcanic activity. However, seismicity remained above background levels during this period with 36 earthquakes recorded on 27 April. Shallow, low-amplitude tremor was also continuing beneath the active dome.

Separate strong explosions were observed by IV geologists once every few days from 24 April to 3 May. The height of the ash cloud during the last days reached 1.5-2 km.

Thermal capacity and volume of ejected pyroclastics were calculated based on powerful explosions on 21 April at 2242-2258 (plume 6 km above the crater); 22 April at 0013-0026 (>10 km), 1104-1110, 1630 (7 km), and 2030, and 24 April at 1719 (3.5 km). Tremor amplitude was as much as 35 microns, with a period 0.6-0.9s (7.5 km from the active dome). Based on the height of the eruptive cloud and tremor, calculations indicate that the thermal capacity of the plume was about 1-50 x 10⁹ MJ, with about 1-50 x 10⁶ tons of ejected pyroclastics. Calculations were made by V. V. Ivanov (IV) using the methods of Fedotov (1985) and Firstov and others (1977).

References. Fedotov, S. A., 1985, Estimates of heat and pyroclast discharge by volcanic eruptions based upon the eruption cloud and steady plume observations: Journal of Geodynamics, v. 3, p. 275-302.

Firstov, P. P., Lemzikov, V. K., and Rulenko, O. P., 1977, Seismic regime of Karymsky volcano (1970-1973): Volcanism and Geodynamics, p. 161-179 (in Russian).

Geological Summary. The high, isolated massif of Sheveluch volcano (also spelled Shiveluch) rises above the lowlands NNE of the Kliuchevskaya volcano group. The 1,300 km3 andesitic volcano is one of Kamchatka's largest and most active volcanic structures, with at least 60 large eruptions during the Holocene. The summit of roughly 65,000-year-old Stary Shiveluch is truncated by a broad 9-km-wide late-Pleistocene caldera breached to the south. Many lava domes occur on its outer flanks. The Molodoy Shiveluch lava dome complex was constructed during the Holocene within the large open caldera; Holocene lava dome extrusion also took place on the flanks of Stary Shiveluch. Widespread tephra layers from these eruptions have provided valuable time markers for dating volcanic events in Kamchatka. Frequent collapses of dome complexes, most recently in 1964, have produced debris avalanches whose deposits cover much of the floor of the breached caldera.

Information Contacts: V. Kirianov, IVGG; S. Fedotov, V. Ivanov, G. Bogoyavlenskaya, V. Gavrilov, and N. Zharinov, IV; J. Lynch, SAB.