Cole-Dai, J. and E. Mosley-Thompson, 1999.

The Pinatubo eruption in South Pole Snow and its potential value to ice core paleovolcanic records.

Annals of Glaciology, 29, in press.

Snow samples collected in the 1996 austral summer at South Pole show that sulfate concentrations in snow and, by inference, sulfur aerosol concentrations in the Antarctic atmosphere were elevated from the end of 1991 to mid-1994 over a stable, non-volcanic background. The new data support earlier findings that the June 1991 Pinatubo eruption and the Hudson eruption in the same year deposited volcanic sulfate and tephra in South Pole snow and provide strong evidence of the global distribution of volcanic materials from the Pinatubo eruption. In this study, snow samples were taken in 6 snow pits spatially distributed around the South Pole Station in order to evaluate the local spatial variability of volcanic signals due to glaciological variables such as snow accumulation rates and snow redistribution by wind after initial deposition. The results indicate that Pinatubo sulfate flux varies by as much as 20% throughout a 400 km2 area centered around the South Pole Station. This glaciological variability probably represents the likely range of volcanic signals due to variations in snow deposition and post-depositional changes. The Pinatubo eruption provides an unprecedented opportunity to estimate aerosol mass loadings by explosive volcanic eruptions found in Antarctic ice cores via a quantitative relationship between aerosol mass loadings and sulfate flux in Antarctic snow. Here the satellite-estimated Pinatubo sulfur dioxide emission and the measured volcanic sulfate flux in snow, with an assumed linearly quantitative relationship, are used to calculate sulfur dioxide loadings for several well-known volcanic eruptions in the past 300 years covered by a shallow (42-meters) South Pole firn core drilled in 1996. The errors for the calculated mass loadings are estimated by means of the glaciological variability associated with Pinatubo volcanic flux.