Quiet emission of vapor from summit crater and S flank fumaroles

On 19 and 20 July, quiet emissions and occasional denser puffs of white vapor from the summit crater were observed. A zone of fumaroles on the S flank of the volcano, free of snow and ~400 m below the summit, also released a similar amount of vapor as that from the summit crater.

Guallatiri, one of N Chile's most active volcanoes, is a symmetrical ice-clad volcano at the S end of the Nevados de Quimsachata volcano group.

Information Contacts: J. Sesiano, Département de Minéralogie, Université de Genève, 13 rue des Maraîchers, 1121 Genève 4, Switzerland.

Information is preliminary and subject to change. All times are local (unless otherwise noted)

November 1985 (SEAN 10:11) Cite this Report

Vapor plumes at 1-minute intervals

[This activity was initially attributed to Acotango in the Quimsachata Volcano Group. It is now thought to have originated from Guallatiri, further along the same line of sight as Acotango (figure 1). Investigation of Acotango volcano in 1987, by Oscar González-Ferrán, revealed no evidence of a recent eruption.]

Figure 1. Sketch map of the Nevados de Quimsachata area. Volcano names are in large type, town names in smaller type. Roads are indicated by pairs of dashed lines. Contour interval is 500 m. Robert Koeppen's line of sight fro his observation point near Sajama, Bolivia, is shown by a dashed line. The border between Chile and Bolivia is not shown, but follows the crest of the Andes. Courtesy of Robert Koeppen, USGS.

The quoted material is a report from Robert Koeppen. "On 1 December at 0750, Robert Koeppen (USGS), Walter West (U. S. Embassy, La Paz, Bolivia), and Jaime Jauregui (Geological Survey of Bolivia) observed steam plumes erupting from a source near the crest of Nevados de Quimsachata. The observation was made from a point about 25 km to the NNE, near the W base of Volcán Nevado Sajama, Bolivia. Visibility was initially excellent, but within about 45 minutes cloud cover completely obscured the mountain's summit. Intervening peaks prevented exact determination of the vent, but the eruption appeared to originate from Cerro Acotango, either from the main summit or possibly immediately to the NW. If the eruption plume came from Volcán Guallatiri, the next possible source area along the line of sight, then it would represent a significantly larger eruption (figure 1).

"The eruptions produced white, billowing clouds that rose vertically above the Quimsachata crest, perhaps about 500 m, then drifted W. The eruptions occurred in episodic bursts, and, based on first sightings of the plumes, at intervals ranging from 45-75 seconds. One large plume drifted more NW and appeared to trail a curtain, possibly of ash fallout. Several bursts seemed particularly vigorous and appeared to consist of several plumes coalescing at higher levels."

Chilean forest service personnel based near Lago Chungara, roughly 20 km to the NW, reported that they had seen no activity, but visibilities in the area are frequently poor.

No eruptions are known in historic time from Cerro Acotango, but Yoshio Katsui and Oscar González-Ferrán (1968) mapped it as Holocene. Four historic eruptions bave been reported from Guallatiri, most recently in December 1960. Chilean geologists note that fumarolic activity from Guallatiri is apparently continuous but less vigorous than the plume emission observed 1 December.

Reference. Katsui, Y., and González-Ferrán, O., 1968, Geología del area neovolcánica de los Nevados de Payachata: Publicaciones del Instituto de Geología, Universidad de Chile, no. 29, 161 p.

Information Contacts: R. Koeppen, USGS, Reston, VA; L. López E., Univ. de Chile, Santiago.

December 1987 (SEAN 12:12) Cite this Report

Increased fumarolic activity; distant 1985 observation probably of this volcano

"During a reconaissance in the Nevados de Pachayata/Nevados de Quimsachata region between 2 and 5 December, vigorous fumarolic activity was observed at Guallatiri. The activity was much more intense than in previous years and the emissions were more frequent, occurring about every 30 minutes. Whitish-yellow columns rose 300-500 m above the volcano's central dacitic dome. Nearby secondary fumaroles extended from the principal vent onto the W part of the volcano (figure 2).

Figure 2. Sketch map of Guallatiri showing fumaroles active on 3 December 1987. Courtesy of O. González-Ferrán.

"In December 1985, Robert Koeppen had observed (from the base of Sajama volcano 25 km to the NE) strong fumaroles that appeared to be from Acotango. During the 1987 reconaissance, the volcanoes Capurata, Acotango, and Humarata did not show any signs of activity; their craters were covered with ice and clean snow. Consequently, we believe that the activity observed by Koeppen was not from Acotango, but from Guallatiri [farther along Koeppen's line of sight from Sajama; see map in 10:11], which recently has notably increased its activity."

Information Contacts: O. González-Ferrán, Univ de Chile.

May 1991 (BGVN 16:05) Cite this Report

Strong fumarolic activity

Two strongly active zones of fumaroles were observed during a summit visit on 2 November 1990. The more intense fumaroles, 80 m below the . . . summit, produced a plume 200 m high accompanied by a jet-engine noise. Some boiling mud pools were also seen. The second zone, on the S side of the volcano at ~3,000 m elev, contained about 10 fumaroles. The volcano was otherwise snow-covered.

Information Contacts: P. Vetsch and R. Haubrichs, SVG, Switzerland.

July 1996 (BGVN 21:07) Cite this Report

Quiet emission of vapor from summit crater and S flank fumaroles

On 19 and 20 July, quiet emissions and occasional denser puffs of white vapor from the summit crater were observed. A zone of fumaroles on the S flank of the volcano, free of snow and ~400 m below the summit, also released a similar amount of vapor as that from the summit crater.

Guallatiri, one of N Chile's most active volcanoes, is a symmetrical ice-clad volcano at the S end of the Nevados de Quimsachata volcano group.

Information Contacts: J. Sesiano, Département de Minéralogie, Université de Genève, 13 rue des Maraîchers, 1121 Genève 4, Switzerland.