Level of Knowledge Coastal People on Earthquake and Tsunami Disasters Mitigation in Bengkulu, Indonesia

Authors

  • Jose Rizal University of Bengkulu Indonesia
  • Dian Agustina
  • Siska Yosmar

Keywords:

Earthquake and tsunami, Zoning Map, Kriging Interpolation, Structural Equation Modeling

Abstract

The classic problem in disaster mitigation activities is in planning, implementation, and sustainability. One of the contributing factors is the unavailability of information locally about the model of natural disaster occurrence and the model of human behavior as an object that is directly affected by the incident. We have conducted field surveys as well as distributing questionnaires in some coastal areas in the Province of Bengkulu. The data obtained are presented in the form of zoning maps and mathematical models that can illustrate the human behavior of earthquake and tsunami disaster mitigation. The kriging interpolation method is used in zoning map of coastal community knowledge level about earthquake and tsunami disaster mitigation. While the Structural Equation Modelling is used to see the relationship between mitigation variables with earthquake and tsunami disaster risk variables. Conclusions from the results of the study, based on simultaneous measurements of the five disaster mitigation variables, most of the coastal areas located in Mukomuko, Bengkulu Tengah and Seluma districts are included in areas with poorly prepared zone criteria. Partially, especially for Policy Statement variables, almost all districts in Bengkulu Province are perceived not yet ready by respondents from this research. Based on the resulting structural equation model, the reduction of the earthquake and tsunami risk impacts is strongly influenced by emergency response plans and disaster warning system factors.

References

EOS: Earth Obsevatory Singapure. “West Sumatra Tectonics and Tsunami Hazardâ€. Singapure. 2015.

McCloskey, J., Antonioli, A., Piatanesi, A., Sieh, K., Steacy, S., Nalbant, S., Cocco, M., Giunchi, C., Huang, J.D., Dunlop, P., “Tsunami Threat in the Indian Ocean from a Future Megathrust Earthquake West of Sumatraâ€, Earth and Planetary Science Letters 265 pp 61–81, 2008.

Philibosian, B., K. Sieh, D. H. Natawidjaja, H.-W. Chiang, C.-C. Shen, B. W. Suwargadi, E. M. Hill, and R. L. Edwards, “An Ancient Shallow Slip Event on the Mentawai Segment of the Sunda Megathrust, Sumatra, J. Geophys. Res., 117, B05401, doi:10.1029/2011JB009075. 2012.

Meltzner, A. J., K. Sieh, H.-W. Chiang, C.-C. Shen, B. W. Suwargadi, D. H. Natawidjaja, B. Philibosian, and R. W. Briggs, “Persistent Termini of 2004 - and 2005-like Ruptures of the Sunda megathrustâ€, J. Geophys. Res., 117, B04405, 2012, doi:10.1029/2011JB008888.

Natawidjaja, D. H., Sieh, K., Chlieh, M., Galetzka, J., Suwargadi, B. W., Cheng, H, “Source Parameters of the Great Sumatran Megathrust Earthquakes of 1797 and 1833 Inferred from Coral Microatollsâ€. J. Geophys. Res. 111, B06403. doi:10.1029/2005JB004025, 2006.

B.A.D. Van Veen., D. Vatvani. , F. Zijl., “Tsunami flood modelling for Aceh & West Sumatra and Its Application for an Early Warning System†Journal of Continental Shelf Research vol. 79 pp. 46–53, 2014,

Borrero, J., Sieh, K., Chlieh, M., Synolakis, C., “Tsunami Forecasts for Western Sumatraâ€, Journal of PNAS Vol 103, no. 52, pp. 19673-19677, 2006, doi:10.1073/pnas.0604069103.

Goda, K., Yasuda, T., Mori, N., and Maruyama, T., “New Scaling Relationships of Earthquake Source Parameters for Stochastic Tsunami Simulationâ€, Coastal Engineering Journal, Vol. 58, No. 3, 2016, Japan Society of Civil Engineers Coastal Engineering committee DOI: 10.1142/S0578563416500108

Mörner, N.A., “Converting Tsunami Wave Heights to Earthquake Magnitudesâ€. Open Journal of Earthquake Research, 6, 89-97. 2017. https://doi.org/10.4236/ojer.2017.62005

Muhammad, A., Goda, K., and Alexander, N., “Tsunami Hazard Analysis of Future Megathrust Sumatra Earthquakes in Padang, Indonesia Using Stochastic Tsunami Simulationâ€. Front. Built Environ. 2:33. doi: 10.3389/fbuil.2016.00033. 2016.

Shannon, R., Hope, M. and McCloskey, J., “The Bengkulu Premonition: Cultural Pluralism and Hybridity in Disaster Risk Reduction. Areaâ€, 43: 449–455. doi:10.1111/j.1475-4762.2011.01029.x, 2011

McCaughey, J., Lubis, A. M., Huang, Z., Hill, E. M., Eriksson, S., Sieh, K., “Earthquake and tsunami hazard in West Sumatra: Integrating Science, Outreach, and Local Stakeholder Needsâ€, Geophysical Research Abstracts, Vol. 14 EGU2012-8535, 2012.

LIPI – UNESCO/ISDR, “Kajian Kesiapsiagaan Masyarakat dalam Mengantisipasi Bencana Gempa Bumi & Tsunamiâ€. Laporan Kegiatan Deputi Ilmu Pengetahuan, Kebumian Lembaga Ilmu Pengetahuan Indonesia, Jakarta. 2006.

Singarimbun, M dan S, Effendi., “Validitas dan Reliabilitas Instrumen Penelitian, dalam Djamaludin Ancok edâ€. Metode Penelitian Survai,. LP3S, Jakarta, 1987

Cressie, N., “Spatial Prediction and Ordinary Krigingâ€, Journal of Mathematical Geology, Vol. 20, No. 4. pp 405-421. 1988.

Cressie, N ., “Statistics For Spatial Data. New York: John Wiley and Sons, Inc. 1993.

Joreskog, K. G., “A General Approach To Confirmatory Maximum Likelihood Factor Analysisâ€. Journal of Psychometrika-vol. 34, no. 2, 1969.

Hardle, W., “Applied Multivariate Statistical Analysisâ€, .Humbolt-Universitat zu Berlin.Jerman. 2007

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Published

2017-10-30

How to Cite

Level of Knowledge Coastal People on Earthquake and Tsunami Disasters Mitigation in Bengkulu, Indonesia. (2017). Asian Journal of Applied Sciences, 5(5). https://ajouronline.com/index.php/AJAS/article/view/5055

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