Sir,

Glaciar Grande del Nevado del Plomo, which trends in an almost west–east course, is one of the glaciers in the most glacierized area of the Rio Mendoza basin (Reference Corte and EspizúaCorte and Espizúa, 1981). In this glacierized region originates the Río del Plomo, which is the main tributary of the Río Tupungato. It flows into Río Mendoza but does not form it alone.

This glacier is situated at lat. 33°08’S., long. 70°01’W., occupies a large cirque south-east of Nevado del Plomo (6050 m), and flows down to 3550 m a.s.l (after surging 3165 m a.s.l.). This area was very well mapped at a scale of 1:25000 by Helbling, using terrestrial photogrammetry, during his field work with Reichert in 1907–12. More recent Argentine and Chilean maps only reproduce Helbling’s map, with some errors (for instance, Nevado del Plomo is incorrectly referred to as Cerro Juncal). Since 1912, the glaciers at the head of Río del Plomo have receded considerably, the different tributaries becoming distinct. Therefore, there was no totally correct map of this area until the 1983 and 1985 1:10000 photogrammetric interpretation of the 1974 air photographs by the Instituto Argentino de Nivologia y Glaciologia (except for Corte and Espizúa’s sketch map without names or contour lines)

Glaciar Grande del Nevado del Plomo had surged in 1934, when a flood caused by the outburst of an ice-dammed lake with a calculated volume of 60 × 10⁶m³ produced many disasters (Reference HelblingHelbling, 1935; Reference RazzaRazza, 1935; Reference LliboutryLliboutry, 1956). There is also evidence that during the eighteenth century it could possibly have surged (Reference PrietoPrieto, 1986), though there is no certainty about the exact date on which this occurred.

Through Andinists, we knew that in April 1984 the glacier could have been in exactly the same position that we had observed a year before, that is, within 4 km of its 1934 position, where the glacier, after crossing the Río del Plomo valley, had reached a rock wall named “Roca Pulida” thus forming a lake. Satellite imagery showed that in September 1984 Glaciar Grande del Nevado del Plomo had advanced, and that in November–December an ice–dammed lake had formed. The glacier’s snout rested against “Roca Pulida”, and its surface exhibited the typical features of a surge, i.e. a chaotic mass of crevasses and ice pinnacles.

Access to this area is only possible by mule or by helicopter, because there is no track for vehicles; it is 55 km from the village of Punta de Vacas on the route to Chile and in one of the highest parts of the Andean Cordillera.

Our first knowledge of the surge was due to the fact that the whole area was flooded by two sudden peaks in the normal flow of Río Tupungato, which occurred on 14 and 22 February 1985 and each lasted about 12 h. On each occasion, the flow rate was over 250 m³s⁻¹, whereas the mean annual average over 31 years is 21.560 m³ s⁻¹; February’s mean, maximum, and minimum are respectively 45.27, 127.60, and 25.14 m³ s⁻¹ (information from Agua y Energía Eléctrica).

With the assistance of the government of Provincía Mendoza, a scientific and technical party from the Instituto Argentino de Nivología y Glaciología and Agua y Energía Eléctrica was left in the area to study the local situation, On 28 February, the following data were obtained: mean height of the glacier above the lake: 70 m; length of glacier crossing the Río del Plomo valley: 820m; approximate volume of the ice dam: 27 × 10⁶ m³; length of the lake: 1494 m; width of the lake against the glacier: 703 m; perimeter of the lake: 3.84 km; area of the lake: 616 × 10³ m²; daily mean increase in height of the lake: 7.0 cm h⁻¹; mean daily inflow of the river into the lake: 11m³ s⁻¹; estimated volume of the lake: 12.1 × 10⁶ m³; difference in present height of the lake and its maximum level (14 February 1985): 39m; maximum volume of water stored in the lake: 55 × 10⁶ m³.

On 10 March there was another outburst from the lake but this time it was initially through a moulin in the glacier’s snout; in early April the lake disappeared, because its waters had drained through a small subglacial tunnel carved naturally beneath the glacier. In December 1985, this was the situation due probably to the poor winter snow accumulation and also the fact that the surge had terminated. Unfortunately, we were not present during any of the drainages of the lake.

This is a summary of the results of the party’s field work and other papers which are to be published. Part of this information will be included in a future publication.

Instiluto Argentino de Nivología y Glaciologia, CRICYT ME.

Casillo de Correo 131,

5500 Mendoza,

Argentina

22 January 1986 and in revised form 19 November 1986

Roberto H. Bruce

Gabrlel A. Cabrera

Juan Carlos Lelva

Luis E. Lenzano