Abstract
The September 16th 2015 Illapel M8.3 earthquake, Chile, generated a tsunami that affected a sparsely populated region, causing 15 casualties and destroying 1069 houses (USGS 2015). A maximum surface elevation of +4.5 m was observed in Coquimbo’s tide gauge while in other sites of the tide network, the tsunami did not exceed +2.0 m. A post-tsunami survey team comprised by local researchers was deployed from September 17th to November 14th 2015. The survey covered approximately 80 sites along 500 km of the primary impact zone, from the northernmost site where damage was reported, Bahía Carrizalillo (29.11°S; 71.46°W), southward to El Yali National Reserve (33.75°S; 71.73°W) beyond which no tsunami damage occurred. The results of the survey in coastal towns with evident damage and isolated sites where the tsunami signature remained almost intact are summarized in this paper. A large amount of quantitative material is presented; including (1) inundation lines in five coastal sites, (2) 157 profiles including wave runup and flow depths and (3) 47 interviews to eyewitness, generally 2–3 per site. About two-thirds of the data were collected in isolated areas to guarantee spatial homogeneity along the impact zone. The type of damage in specific areas of biological interest and in coastal cities such as Concón, Tongoy and Coquimbo is also reported. A maximum runup of 13.6 m was recorded in La Cebada (30.97°S; 71.65°W). The information presented herein provides spatial completeness in places that may have not been surveyed by other teams, and redundancy in areas surveyed by others.
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References
An, C., Sepúlveda, I. and P.L.-F. Liu (2014) Tsunami Source and Its Validation of the 2014 Iquique, Chile Earthquake, Geophysical Research Letters, 41 (11), 3988–3994, doi:10.1002/2014GL060567.
BBC News Online (September 17, 2015) Chile quake: State of emergency declared for Coquimbo. (Accessed 17 November 2015).
Beck, S., Barrientos, S., Kausel, E. and Reyes, M. (1998) Source characteristics of historic earthquakes along the central Chilesubduction zone, Journal of South American Earth Sciences, 11(2), 115–129, doi:10.1016/S0895-9811(98)00005-4.
Bobillier, C. (1926) Terremoto de Atacama, Boletín del Servicio Sismológico de Chile, XVI, Available at www.memoriachilena.cl/archivos2/pdfs/MC0064465.pdf.
Castro C. and Brignardello, L. (2005) Geomorfología aplicada a la ordenación territorial de litorales arenosos. Orientaciones para la protección, usos y aprovechamiento sustentables del sector de Los Choros, comuna de la Higuera, IV Región, Revista de Geografía Norte Grande, 33: 33–58.
Catalán, P. A., Aránguiz, R., González, G., Tomita, T., Cienfuegos,R., González, J., Shrivastava, M., Kumagai, K.,Mokrani, C., Cortés, P. and Gubler, A. (2015) The 1 April 2014 Pisagua Tsunami: Observations and Modeling, Geophys. Res. Lett., 42, doi:10.1002/2015GL063333.
Cisternas, M., Araya-CornejO, C., Carvajal, M. and Gorigoitia, N. (2015) Alturas de tsunami y cambios en el nivel de la costa asociados al terremoto de chile del 2015: observaciones de campo y comparaciones históricas. IV Congreso de Oceanografía Física, Meteorología y Clima. Valparaíso, Chile.
Contreras-López, M. (2014) Efectos del terremoto y tsunami del 27 de febrero de 2010 en la Reserva Nacional El Yali, Anales Museo de Historia Natural de Valparaíso, 27: 79–92.
Contreras-López, M., Winckler, P. and Urbina, L. (2012) Área de inundación y efectos del tsunami del 27 de febrero de 2010 en la localidad de Llolleo, San Antonio – Chile (33°36.5′’S), RevistaGeograáfica de Valparaíso, 46: 69–81.
Contreras, M. and Winckler, P. (2013) Casualties, housing, infrastructure and vessel losses due to the February 27, 2010 Chile Tsunami on the central coast of Chile (in Spanish), Obras y Proyectos, 14: 6–19, doi:10.4067/S0718-28132013000200001.
Davis, T.J. (Ed.) (1994) The Ramsar Convention manual: a guide to the convention on wetlands of international importance especially as waterfowl habitat. Gland: Ramsar Convention Bureau.
Dominey-Howes, D., Dengler, L., Dunbar, P., Kong, L., Fritz, H., Imamura, F., and Borrero, J. (2014) International Tsunami Survey Team (ITST) Post-Tsunami Survey Field Guide, Second Edition. UNESCO-IOC, Paris.
Dussaillant, A., Galdanes, P. and Sun C.L. (2009) Water level fluctuations in a coastal lagoon wetland, Chile. El Yali Ramsar, Desalination, 246: 202–214, doi:10.1016/j.desal.2008.03.053.
Emery, K.O. (1961) A simple method of measuring beach profiles, Limnology and oceanography, 6(1), 90–93, doi:10.4319/lo.1961.6.1.0090.
Emparan, C. and PinedA, G. (2000) Área La Serena - La Higuera, Región De Coquimbo. Servicio Nacional de Geología y Minería. Mapas Geológicos. N°18, 1 mapa escala 1:100.000.
Fariña, J.M., Bertness, M.D., Silliman, B., Aragoneses, N. and Gayo, E. (2012) Historia natural y patrones ecológicos del humedal costero El Yali, Chile Central. En Fariña MJ & Camaño A (editores) ‘‘Humedales costeros de Chile’’. Ediciones UC, Santiago de Chile. P: 215–250.
Farías, M., Vargas, G., Tassara, A., Carretier, S., Baize, S., Melnick, D. and Bataille, K. (2010) Land-level changes produced by the Mw 8.8 2010 chilean earthquake, Science, 329(5994): 916, doi:10.1126/science.1192094.
Figueroa, R., Suarez, M.L., Andreu, A., Ruiz, V.H. and VidalAbarca, M.R. (2009) Caracterización ecológica de humedales de la zona semiárida en Chile Central, Gayana (Concepción), 73(1), 76–94, doi:10.4067/S0717-65382009000100011.
Fritz, H., Petroff, C., Catalán, P., Cienfuegos, R., Winckler, P., Kalligeris, N., WEISS, R., Barrientos, S., Meneses, G., Valderas- Bermejo, C., Ebeling, C., Papadopoulos, A., Contreras, M., Almar, R., Dominguez, J. and Synolakis, C. (2011) Field Survey of the 27 February 2010 Chile Tsunami, Pure and Applied Geophysics, 168(11), 1989–2010, doi:10.1007/s00024-011-0283-5.
Gaillard, J.C., Clavé, E., Vibert, O., Denain, J. C., Efendi, Y., Grancher, D.,… and Setiawan, R. (2008) Ethnic groups’ response to the 26 December 2004 earthquake and tsunami in Aceh, Indonesia, Natural Hazards, 47(1), 17–38, doi: 10.1007/s11069-007-9193-3.
INN (2015) NCh. 3363. Structural design - Buildings in risk areas of flooding due tsunami or seiche (in Spanish).
INSARAP (2015) Chile Earthquake: Sentinel-1 Insar Analysis. http://insarap.org (Accessed 23 November 2015).
IOC (2013) Sea level station monitoring facility. www.iocsealevelmonitoring.org (Accessed 19 October 2015).
IOC, IHO and BODC (2003) Centenary Edition of the GEBCO Digital Atlas.
ITIC (2015a). 16 September 2015 (UTC), Mw 8.3, Off Illapel, Chile Tsunami. http://itic.ioc-unesco.org/index.php?option=com_content&view=article&id=1946:16-september-2015-utc-mw-8-3-northern-chile-tsunami&catid=2164&Itemid=2616. (Accessed 22 November 2015).
ITIC (2015b). https://vimeo.com/album/3664923. (Accessed 22November 2015).
Kelleher, J.A. (1972) Rupture zones of large South American earthquakes and some predictions, Journal of Geophysical Research, 77(11), 2087–2103, doi:10.1029/JB077i011p02087.
Khew, Y.T.J., Jarzebski, M.P., Dyah, F., San Carlos, R., Gu, J., Esteban,M.,&Akiyama, T. (2015) Assessment of social perception on the contribution of hard-infrastructure for tsunami mitigation to coastal community resilience after the 2010 tsunami: Greater Concepcion area, Chile, International Journal of Disaster Risk Reduction, 13, 324–333, doi:10.1016/j.ijdrr.2015.07.013.
Lira, J. (1939) Puertos en playas de arena. In Primer Congreso Sudamericano de ingenierıía. Tomo II. Imprenta Universitaria.
Lomnitz, C. (2004) Major earthquakes of Chile: a historical survey, 1535-1960, Seismological Research Letters, 75(3), 368–378, doi:10.1785/gssrl.75.3.368.
Marín, A., Gelcich, S., Araya, G., Olea, G., Espíndola, M. and Castilla, J.C. (2010) The 2010 tsunami in Chile: Devastation and survival of coastal small-scale fishing communities. Marine Policy, 34(6), 1381–1384, doi:10.1016/j.marpol.2010.06.010.
Mascarenhas, A. and Jayakumar, S. (2008) An environmental perspective of the post-tsunami scenario along the coast of Tamil Nadu, India: Role of sand dunes and forests, Journal of Environmental Management, 89 (1), 24–34, doi:10.1016/j.jenvman.2007.01.053.
MINVU (2013) NTM 007. Diseño estructural para edificaciones en áreas de riesgo de inundación por tsunami o seiche.
Miranda, G. (editor) (1923) Álbum graáfico del terremoto del norte. Available at www.memoriachilena.cl/archivos2/pdfs/MC0064464.pdf.
Molina, M., Campos, R., Manosalva, D., Becerra, D. and Gálvez, B. (2015) Efecto de las marejadas del 6 y 8 de Agosto de 2015 en 3 Playas de la Bahía De Valparíaso, XXII Congreso Chileno deIngeniera Hidráulica, SOCHID. Santiago, 22 y 23 de Octubre.
Mori, N., Takahashi, T., Yasuda, T., and YanagisawA, H. (2011) Survey of 2011 Tohoku earthquake tsunami inundation and runup, Geophysical Research Letters, 38(7), doi:10.1029/2011GL049210.
Mori, N., Takahashi, T. and The 2011 Tohoku Earthquake Tsunami Joint Survey Group (2012) Nationwide post event survey and analysis of the 2011 Tohoku earthquake tsunami, Coastal Engineering Journal, 54(01), 1250001, doi:10.1142/S0578563412500015.
Muñoz, M. (1991) Flores del Norte Chico. Dirección de Bibliotecas, Archivos y Museos. La Serena, Chile: Ilustre Municipalidad de La Serena. 95 pp.
NASA (2015a) August 5: El Niño Conditions Are Growing Stronger. NASA Earth Observatory, Available at http://earthobservatory.nasa.gov (Accessed November 16).
NASA (2015b) October 13: El Niño Strengthening.NASA Earth Observatory, Available at http://earthobservatory.nasa.gov. (Accessed November 16).
Naranjo, J.A., Arenas, M., Clavero, J., and Munoz, O. (2009) Mass movement-induced tsunamis: main effects during the Patagonian Fjordland seismic crisis in Aisén (45 25′ S), Chile, Andean Geology, 36(1), 137–145, doi:10.5027/andgeoV36n1-a11.
Nishenko, S.P. (1985) Seismic potential for large and great interplate earthquakes along the Chilean and southern Peruvian margins of South America: a quantitative reappraisal, Journal of Geophysical Research: Solid Earth (1978–2012), 90(B5), 3589–3615, doi:10.1029/JB090iB05p03589.
Novoa, R. and Villaseca, S. (1989) Mapa agroclimàtico de Chile. Ediciones Instituto de Investigaciones Agropecuarias, Santiago, 221 p.
ONEMI (2013) Informe Tècnico de Evaluación N°2. Simulacro Macrozona de Terremoto y Tsunami, Evacuación del Borde Costero. Regiones de Coquimbo, O’Higgins y Maule. 6 de Junio de 2013. Santiago, Chile: ONEMI 2013. 24 pp. Produced by Walker Rousseau, Jean-Marie.
Paskoff, R. (1970) Geomorfología de Chile semiárido. Trad. por J. Novoa (1993). Facultad de Humanidades, Universidad de La Serena. 321p.
Pawlowicz, R., Beardsley, B., and Lentz, S. (2002) Classical tidal harmonic analysis including error estimates in MATLAB using T_TIDE, Computers & Geosciences, 28(8), 929–937, doi:10.1016/S0098-3004(02)00013-4.
Sepúlveda, S.A., and Serey, A. (2009) Tsunamigenic, earthquaketriggered rock slope failures during the April 21, 2007 Aisénearthquake, southern Chile (45.5 S), Andean Geology, 36(1), 131–136, doi:10.5027/andgeoV36n1-a10.
SHOA (2010). Información de Mareógrafos. www.shoa.cl/mareas/metadatos.html. (Accessed November 16, 2015).
Soto, M. and ArriagadA, J. (2007) Características dinámicas de ensenadas estructurales de Chile central. Maitencillo-Cachagua y Papudo, Regiòn de Valparaíso, Revista Geográfica Norte Grande, 38: 99–112, doi:10.4067/S0718-34022007000200006.
SUBPESCA (2015) Informe preliminar estado de situaciòn caletas pesqueras por efecto de terremoto del 16 de septiembre de 2015. www.subpesca.cl/prensa/601/articles-89749_recurso_2.pdf. (Accessed 22 November 2015).
Suppasri, A., Koshimura, S., Imai, K., Mas, E., Gokon, H., Muhari, A. and Imamura, F. (2012) Damage characteristic and field survey of the 2011 great east Japan tsunami in Miyagi prefecture, Coast Eng J 54(1):1250005-1–1250005-30. doi:10.1142/S0578563412500052.
Tanaka, N. (2012) Effectiveness and limitations of coastal forest in large tsunami: Conditions of Japanese pine trees on coastal sand dunes in tsunami caused by Great East Japan Earthquake, Journal of Japan Society of Civil Engineers, Ser. B1 (Hydraulic Engineering), 68 (4), II_7–II_15, doi:10.2208/jscejhe.68.II_7.
Tanaka, N., Yagisawa, J. and YASUDA, S. (2013) Breaking pattern and critical breaking condition of Japanese pine trees on coastal sand dunes in huge tsunami caused by Great East Japan Earthquake, Natural hazards, 65(1), 423–442, doi:10.1007/s11069-012-0373-4.
Tercera (2015, September 23). Terremoto: identifican cuerpo de mujer y aumentan a 14 las víctimas fatales. www.latercera.com/noticia/nacional/2015/09/680-648455-9-terremoto-encuentrancuerpo-de-mujer-en-coquimbo.shtml. (Accessed 23 November2015).
Tercera (2015, September 22). Tsunami hizo desaparecer popular playa Socos de Tongoy. http://www.latercera.com/noticia/nacional/2015/09/680-648370-9-tsunami-hizo-desaparecer-lapopular-playa-socos-de-tongoy.shtml.
USGS (2015) Earthquake Hazard Program. M 8.3—48 km W ofIllapel, Chile http://earthquake.usgs.gov/earthquakes/eventpage/us20003k7a#general_summary. (Accessed 07 October 2015).
Vidiella, P. E., Armesto, J. J., and Gutiérrez, J. R. (1999) Vegetation changes and sequential flowering after rain in the southern Atacama Desert, Journal of Arid Environments, 43(4), 449–458, doi:10.1006/jare.1999.0565.
VilinA, Y. A. (1994) Apuntes para la conservaciòn del humedal‘‘El Yali’’, Boletín Chileno de Ornitología, 1, 15–20.
Villagrán, C. (2007) Dinámica costera en el sistema de bahías comprendidas entre Ensenada Los Choros y Bahía Tongoy, Región de Coquimbo. Tesis de Título en Geografía, Universidad de Chile, 120 p.
Winckler, P., Contreras, M., Beyá , J. and Molina, M. (2015) El Temporal del 8 de Agosto de 2015 en La Bahía De Valparaíso, XXII Congreso Chileno de Ingeniería Hidráulica, SOCHID. Santiago, 22 y 23 de Octubre.
Ye, L., Lay, T., Kanamori, H., and Koper, K.D. (2015) Rapidly Estimated Seismic Source Parameters for the 16 September 2015 Illapel, Chile M w 8.3 Earthquake, Pure and Applied Geophysics, 1–12, doi:10.1007/s00024-015-1202-y.
Acknowledgments
The field survey was sponsored by Fondo Desarrollo Disciplinario, Facultad de Ingenierı´a, Universidad de Playa Ancha. Ministerio del Medio Ambiente de Chile. The authors would like to thank S. Abadie for collaborating with interviews in Los Vilos; F. Sepu´lveda for his support during the survey in La Serena area and to M. Molina, R. Castillo, M. A ´ lvarez, J. Herrera, R. Campos, A. Lobos, D. Manosalva, D. Becerra, P. Figueroa, J. Go´mez and K. Sepu´lveda for collecting data. Rangers from CONAF provided valuable data on protected areas. The authors appreciate valuable suggestions given by the editor D.Sc. Alexander Rabinovic and two anonymous reviewers.
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Contreras-López, M. et al. (2017). Field Survey of the 2015 Chile Tsunami with Emphasis on Coastal Wetland and Conservation Areas. In: Braitenberg, C., Rabinovich, A. (eds) The Chile-2015 (Illapel) Earthquake and Tsunami. Pageoph Topical Volumes. Birkhäuser, Cham. https://doi.org/10.1007/978-3-319-57822-4_17
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