S. Nishizawa et al., RADON, CL- AND SO42- ANOMALIES IN HOT-SPRING WATER ASSOCIATED WITH THE 1995 EARTHQUAKE SWARM OFF THE EAST-COAST OF THE IZU PENINSULA, CENTRAL JAPAN, Applied geochemistry, 13(1), 1998, pp. 89-94
Radon concentrations were continuously monitored in hot spring water i
n a 200-m-deep well in the Yugano hot spring area, Izu Peninsula, Japa
n from July to December 1995. Concentrations of Cl- and SO42- were mea
sured in the hot spring water about once a month from May to December
1995. The Rn concentrations in the hot spring water increased signific
antly in September and October 1995, when the 1995 earthquake swarm of
f the E coast of the Izu Peninsula occurred at a distance of about 30
km from the observation well. The 1995 earthquake swarm began on 11 Se
ptember and became most active from the end of September to the beginn
ing of October. The Rn concentration rose gradually from 8 September,
3 days before the onset of the swarm activity, increasing by about 50%
by 17 September. It remained high in October but had returned to norm
al by the end of November. However, Cl- and SO42- concentrations doubl
ed suddenly from 22 to 23 September and remained high until the end of
November. A good correlation between Cl- and SO42- concentrations sug
gests the same mechanism for their anomalous increases, probably mixin
g of water with high Cl- and SO42- concentrations caused by crustal de
formation related to the seismic swarm activity. However, the anomalou
s increase in Rn concentration, which began 15 days before these anion
increases, cannot be explained by the same water mixing mechanism. A
possible mechanism for the anomalous Rn increase is the formation of m
icrocracks caused by compressional stress, which preceded the onset of
the earthquake swarm. (C) 1998 Elsevier Science Ltd. All rights reser
ved.