Magma ascent beneath Unzen Volcano, SW Japan, deduced from the electrical resistivity structure

The resistivity structure of Unzen Volcano has been revealed by extensive m agnetotelluric surveys since the first eruption on November 17, 1990, This structure comprises a highly resistive surface layer, a low-resistive secon d layer at several hundred meters depth, interpreted as a water-saturated l ayer, a resistive third layer, and a low-resistive fourth layer at 10 km de pth, possibly related to the deep magmatic activity. The structure has infl uenced the volcanic activity of Unzen. This activity was characterized by a series of dramatic changes in eruption type: a minor phreatic eruption on November 17, 1990; phreatic eruptions after February 12, 1991, preceded by several weeks of volcanic tremor; phreatomagmatic eruptions after April 9, and dome effusion beginning May 19, 1991. This paper presents a hypothesis in which the top of the magma column rose about 20 m/day, reached the base of the water-saturated layer at the end of January, 1991, and approached th e upper boundary of this layer on April 9. Thus, the temporal change of eru ption type and associated phenomena are systematically explained by an inte raction between magma and groundwater contained in the saturated layer. (C) 1999 Elsevier Science B.V. All rights reserved.