Damage and Height Distribution of Sumatra Earthquake-Tsunami of December 26, 2004, in Banda Aceh City and its Environs

Tsuji, Yosuke; Tanioka, Yuichiro; Matsutomi, Hideo; Nishimura, Yuichi; Kamataki, Takanobu; Murakami, Yoshikane; Sakakiyama, Tsutomu; Moore, Adam D.; Gelfenbaum, Guy; Nugroho, Sindhu; Waluyo, Budi; Sukanta, I Nyoman; Triyono, Rahmat; Namegaya, Yuichi

doi:10.20965/jdr.2006.p0103

Cited by 29 publications

(15 citation statements)

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“…The tsunami inundated 4 km inland, causing human damage estimated at more than 70,000 in Banda Aceh [ JICA , 2005]. Tsunami heights above tide level when the tsunami attacked Banda Aceh around this area were estimated to have been approximately 3–12 m (Figure 1b) [ Borrero , 2005; Tsuji et al , 2006].…”

Section: Study Areamentioning

confidence: 99%

“…(a) The epicenter and rupture area of the 2004 Indian Ocean tsunami [ Chlieh et al , 2007]. (b) Map of study sites in Banda Aceh with measured tsunami height [ Borrero , 2005; Tsuji et al , 2006]. Satellite images of the coast of Banda Aceh (IKONOS) (c) before and (d) after the 2004 tsunami (18 June 2004 and 29 December 2004, respectively).…”

Section: Study Areamentioning

confidence: 99%

“…The computed arrival time, wave period and height of the tsunami were consistent with the observed waveform (Figure 4a). Figures 4b and 4c portray the measured tsunami heights [ Borrero , 2005; Tsuji et al , 2006] and the extent of the inundation zone [ JICA , 2005] versus the results from our numerical model. The model results are also consistent with measured data in terms of the tsunami height ( RSME = ±1.2, Figure 4b) and the extent of inundation zone (approximately 94% agreement).…”

Section: Damage and Tsunami Impact On Mangrove Treesmentioning

confidence: 99%

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Tsunami damage reduction performance of a mangrove forest in Banda Aceh, Indonesia inferred from field data and a numerical model

et al. 2010

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[1] Since the 26 December 2004 Indian Ocean tsunami, the role of mangrove forests as natural defenses protecting coastal communities from tsunami disaster has been highlighted. However, some mangrove forests were destroyed by that tsunami. They are expected to have lost their protective functions. In this study, we develop a fragility function to assess the mangrove trees' vulnerability, expressed as the damage probability of mangrove trees, based on field surveys and numerical modeling of the 2004 Indian Ocean tsunami in Banda Aceh, Indonesia. Based on the fragility function, we reconstruct a numerical model of tsunami inundation including the performance of mangrove forests in terms of reducing tsunami damage. The model reveals that a 10 year old mangrove forest in a 500 m wide area can reduce a tsunami's hydrodynamic force by approximately 70% for an incident wave of 3.0 m inundation depth and a wave period of 40 min at the shoreline. The model also shows, for a tsunami inundation depth of greater than 4 m, that a 10 year old mangrove forest would be mostly destroyed and that it would lose its force reduction capacity. Moreover, approximately 80% of a 30 year old mangrove forest would survive a 5 m tsunami and absorb 50% of the tsunami's hydrodynamic force.Citation: Yanagisawa, H., S. Koshimura, T. Miyagi, and F. Imamura (2010), Tsunami damage reduction performance of a mangrove forest in Banda Aceh, Indonesia inferred from field data and a numerical model,

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Section: Study Areamentioning

confidence: 99%

Section: Study Areamentioning

confidence: 99%

Section: Damage and Tsunami Impact On Mangrove Treesmentioning

confidence: 99%

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Tsunami damage reduction performance of a mangrove forest in Banda Aceh, Indonesia inferred from field data and a numerical model

et al. 2010

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“…1), we notice important differences between them: while data by Borrero (2005a, b; squared symbols in Fig. 1) and Tsuji et al (2005;triangles in Fig. 1) are quite consistent, values from Tsunarisque (Lavigne et al, 2009; represented by stars in Fig.…”

Section: The Schema Approachmentioning

confidence: 65%

“…These give the maximum vertical elevation of the flow and can be measured either with respect to the sea level on the day of the measurement or with respect to the ground level. If the height of the water marks is measured with respect to the sea level at the time of the measurement, a correction must be applied for tides in order to bring the measurement to the sea level at the time of the tsunami's occurrence or to the mean sea level (thus obtaining what is called by Tsuji et al, 2005, the "pure tsunami heights", i.e. the absolute water elevation above mean sea level).…”

Section: The Schema Approachmentioning

confidence: 99%

Inventory of uncertainties associated with the process of tsunami damage assessment on buildings (SCHEMA FP6 EC co-funded project)

Gardi

Valencia

Guillande

et al. 2011

Nat. Hazards Earth Syst. Sci.

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Abstract. Within the framework of the SCHEMA FP6 EC co-funded project (http://www.schemaproject.org), we have identified the sources of errors/uncertainties that can be introduced at several steps of the damage assessment process, from post-disaster field measures up to hazard and damages maps production. Errors, for instance, are introduced when collecting post-disaster observations owing to different types of instruments/methods, water marks considered, tide correction, etc.: in extreme cases, differences of meters can be found between water heights data published by different teams for the same locations. Much uncertainty comes from difficulties in identifying and characterizing the potential tsunami sources and from numerical modelling. Moreover, the resolution of the employed Digital Terrain Models can noticeably affect the predicted inundation extent. We have also verified that the consistency of the computations on the long term varies sensitively depending on the code, raising the problem of results reliability for emergency management in dangerous coasts exposed to repeated waves. In addition, damage assessment is performed using damage functions linking the mean damage level on buildings with the maximum water elevation measured in the field without considering other tsunami parameters such as stream velocity. Finally, we examined uncertainties introduced in hazard and vulnerability mapping due to cartographic processing.

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Reconstruction of Tsunami Inland Propagation on December 26, 2004 in Banda Aceh, Indonesia, through Field Investigations

Lavigne

Paris

Grancher

et al. 2009

Tsunami Science Four Years After the 2004 Indian Ocean Tsunami

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Damage and Height Distribution of Sumatra Earthquake-Tsunami of December 26, 2004, in Banda Aceh City and its Environs

Cited by 29 publications

References 0 publications

Tsunami damage reduction performance of a mangrove forest in Banda Aceh, Indonesia inferred from field data and a numerical model

Tsunami damage reduction performance of a mangrove forest in Banda Aceh, Indonesia inferred from field data and a numerical model

Inventory of uncertainties associated with the process of tsunami damage assessment on buildings (SCHEMA FP6 EC co-funded project)

Reconstruction of Tsunami Inland Propagation on December 26, 2004 in Banda Aceh, Indonesia, through Field Investigations

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