NH41E-03
Observations at Kuchinoerabu-jima volcano, southern Kyushu, Japan, by using unmanned helicopter
Thursday, 17 December 2015: 08:30
302 (Moscone South)
Takao Ohminato1, Takayuki Kaneko1, Takao Koyama1, Atsushi Watanabe1, Wataru Kanda2, Takeshi Tameguri3 and Ryunosuke Kazahaya4, (1)Earthquake Research Institute, University of Tokyo, Tokyo, Japan, (2)Tokyo Institute of Technology, Tokyo, Japan, (3)Disaster Prevention Research Institute, Kyoto University, Kyoto, Japan, (4)AIST - National Institute of Advanced Industrial Science and Technology, Tsukuba, Japan
Abstract:
Kuchinoerabu-jima, volcano is a volcanic island located southern Kyushu, Japan. In 3 August, 2014, a small eruption at active summit crater, Shin-dake, destroyed all the observation stations near the summit. Since then, this volcano was only poorly monitored. After the eruption, entering within 2km from Shin-dake crater was strictly prohibited and thus it was impossible to fix summit stations on site. In April, 2015, we conducted seismic sensor installation by using unmanned helicopter (RMAX-G1 manufactured by Yamaha) so as to reestablish the seismic monitoring network near the summit area. We installed four seismic stations in the summit area. We also conducted various types of near-summit observations including an aero-magnetic measurement over the summit area, taking visual and infra-red images from low altitude, and volcanic gas sampling. We present preliminary results of the near summit observations using unmanned helicopter.
The light-weight (5kg) and solar-powered seismic stations were designed exclusively for helicopter installation. They transmit seismic data every 10 minutes by using mobile data communication network. We could install them within 500m from the summit crater on 17, April. On 29 May, Shin-dake crater erupted again and the newly installed seismic stations were all destroyed by this eruption. The seismic stations could transmit data until just before the eruption. These data made us possible to evaluate the change in seismic activity leading up to the eruption.
An aero-magnetic survey was conducted on 17 and 18 April. The flight altitude was between 100m and 150m above the ground (i.e a draped magnetic survey) . Path interval is 100m and the total flight path length is 80km. The magnetic intensity data were converted to magnetization of the edifice of Shin-dake. Comparison between the result this time with that obtained in 2001 shows demagnetization near the summit area.
Temperature measurement over the summit area detected 368ºC at the fissure on the western flank.
Chemical composition of the volcanic gas was measured. Maximum concentration of SO2 was 28ppm and the apparent equilibrium temperature estimated from the gas composition was 550 ºC. CO2/SO2 ratio did not change significantly but a large variation in SO2/H2S ratio was observed.