Current tsunami research activities in the Philippines

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DOST PHIVOLCS Current tsunami research activities in the Philippines Graciano P. Yumul, Jr. 1,2, Carla B. Dimalanta 1 and Bart Bautista 3 1 National Institute of Geological Sciences, University of the Philippines, Diliman, Quezon City, Philippines 2 Department of Science and Technology, Bicutan, Taguig, Philippines 3 Philippine Institute of Volcanology and Seismology Department of Science and Technology, Diliman, Quezon City, Philippines

Objectives To present what the Philippines has been doing in terms of tsunami mitigation and to identify future directions Bautista, 2006

Outline Philippine setting Current activities in the Philippines Risk assessment Monitoring Warning Modeling Future directions

Tectonic map of Southeast Asia Indochina Sundaland- Eurasian Plate Philippines Philippine Trench Philippine Sea Plate Sumatra-Java Trench Sulawesi Sumatra Borneo New Guinea Java ftp://ftp.ngdc.noaa.gov/

Seismicity around the Philippines http://neic.usgs.gov

Current activities Hazard and risk assessment Monitoring Warning Modeling

DOST PHIVOLCS Hazard and risk assessment Ko Puh, Thailand

Hazard and risk assessment Tsunami Hazard Assessment and Mitigation Program Tsunami Risk Mitigation Program Besana et al., 2005

THAMP 1. Davao Oriental (1992 Manay tsunami) 2. Bohol island (1990 earthquake) 3. SW Mindanao (1976 Moro Gulf earthquake) 4. Manila Trench tsunamis 5. Sorsogon uplifted terraces 6. Paraoir porites and uplifted terraces Besana et al., 2005

Tsunami Risk Mitigation Program Assess risk and develop a model for tsunami preparedness, warning and evacuation at the local government level Increase the level of awareness and preparedness of vulnerable communities to tsunami hazards and risks Develop simple and low cost technology for tsunami detection and warning

DOST PHIVOLCS Monitoring and warning

Tsunami monitoring and warning Far field tsunami events (eastern seaboard): Pacific Tsunami Warning Center Northwest Pacific Tsunami Warning and Information Center http://www.prh.noaa.gov/pr/ptwc/

PTWC area of responsibility

Northwest Pacific Tsunami Warning and Information Center (Japan government) Bautista, 2006

Tsunami monitoring and warning Near-field tsunami events: Local tsunami warning system http://www.adpc.net/v2007/

Local tsunami warning system Real-time seismic monitoring system Real-time local tsunami detection system Rapid communication system Mass alerting system

National seismic monitoring network 30 satellite telemetered stations With real time data transmission 34 manned stations Equipped with SSB radios and telephones for non-real time data transmission 9 of the 34 manned stations have broadband instruments PHIVOLCS

Instrumentations in the satellite-telemetered unmanned stations of PHIVOLCS Batteries and solar charger regulator Seismic vault, solar panel and VSAT antenna Three component shortperiod sensors Digitizer and VSAT modem / transmitter

Tsunami detection network Real-time tsunami wave detection stations First station installed in Lubang Island, Mindoro (funded by government of Finland)

PHIVOLCS tsunami wet sensor Electric cable Water collecting vessel Air Vent The height of the tube and elevation of probes and collecting vessel could be adjusted to set the tsunami height measurement level (i.e. 1 m, 3 m, 6 m or 10 m) Stainless Tube Tsunami Water Intake H To relay switch Concrete Pier Sea Water

Tsunami wet sensors, Lubang Island Bautista, 2006

DOST PHIVOLCS Modeling

Tsunami modeling Moro Gulf, Mindanao Arrival times and run-up heights PHIVOLCS

Tsunami modeling Moro Gulf, Mindanao Inundation areas (red) PHIVOLCS

Tsunami modeling Highlydispersive wave model Simulate tsunami inception and propagation Simulated wave height 4 hours after the earthquake Rivera, 2006

Tsunami modeling Manila Trench as possible source of tsunamis that can affect coastal communities of Metro Manila Bautista, 2006

Future directions National programs on disaster management Networking with S&T centers dealing with seismological hazards International collaborations for capacity and capability building

DOST PHIVOLCS National Programs

Department of Science and Technology Priority R&D programs ICT Alternative fuels Biotechnology Health and pharmaceutical Environment

Environment R&D programs Climate change Pollution control Disaster management

Environment: Disaster management program Meteorology (e.g. typhoon) Hydrology (e.g. flood, dam operation) Volcanology Seismology Active Faults Tsunami

Networking with S&T centers ASEAN Committee on Science and Technology APEC Industrial Science Technical Working Group Asian Disaster Preparedness Center Installation of tsunami buoys between Malaysia and Philippines

International collaboration for capacity and capability building Mobility of young scientists Ready access to appropriate technologies and equipment Joint R&D collaborations Open laboratories

Some questions we may want to answer 1. Scientific issues to be resolved? 2. Timeline and milestones? 3. Modality of collaborations? 4. Databasing, management and access? 5. Funding mechanism?

Future directions Pacific Tsunami Warning Center SCS Northwest Pacific Tsunami Warning and Information Center

DOST PHIVOLCS

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