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Search publication for ISC event 14340585

 ISC Event Agency     Origin time         Lat     Lon Depth       Magnitude   Article_total      Event code
  14340585    ISC 2010-02-27 06:34:13  -36.15  -72.93  28.1  Mw(GCMT) = 8.8             392       MAULE2010

Zhou, J., Sun, H., Xu, J., Chen, X. and Cui, X., 2019. Co-seismic change in ocean bottom topography: Implication to absolute global mean sea level change, Geodesy and Geodynamics, 10, 3, 179-186, DOI: 10.1016/j.geog.2019.04.001

Cordell, D., Unsworth, M.J., Diaz, D., Reyes-Wagner, V., Currie, C.A. and Hicks, S.P., 2019. Fluid and melt pathways in the central Chilean subduction zone near the 2010 Maule earthquake (35–36°S) as inferred from magnetotelluric data, Geochem. Geophys. Geosyst., 20, 4, 1818-1835, DOI: 10.1029/2018GC008167

Clark, K., Howarth, J., Litchfield, N., Cochran, U., Turnbull, J., Dowling, L., Howell, A., Berryman, K. and Wolfe, F., 2019. Geological evidence for past large earthquakes and tsunamis along the Hikurangi subduction margin, New Zealand, Mar. Geol., 412, 139-172, DOI: 10.1016/j.margeo.2019.03.004

Bray, J.D., Frost, J.D., Rathje, E.M. and Garcia, F.E., 2019. Recent advances in geotechnical post-earthquake reconnaissance, Front. Built Environ., 5:5, 1-12, DOI: 10.3389/fbuil.2019.00005

Sadeghi, Z. and Mashhadi-Hossainali, M., 2019. Application of the T2-Hotelling test for investigating ionospheric anomalies before large earthquakes, J. Atmos. Sol. Terr. Phys., 185, 7-21, DOI: 10.1016/j.jastp.2019.01.010

Xu, C.Y. and Chao, B.F., 2019. Seismic effects on the secular drift of the earth's rotational pole, J. geophys. Res., , DOI: 10.1029/2018JB017164

Rundle, J.B., Giguere, A., Turcotte, D.L., Crutchfield, J.P. and Donnellan, A., 2019. Global seismic nowcasting with Shannon information entropy, Earth and Space Science, 6, 1, 191-197, DOI: 10.1029/2018EA000464

Ruhl, C.J., Melgar, D., Chung, A.I., Grapenthin, R. and Allen, R.M., 2019. Quantifying the value of real-time geodetic constraints for Earthquake Early Warning using a Global Seismic and Geodetic Dataset, J. geophys. Res., 124, 4, 3819-3837, DOI: 10.1029/2018JB016935

Serey, A., Piñero-Feliciangeli, L., Sepúlveda, S.A., Poblete, F., Petley, D.N. and Murphy, W., 2019. Landslides induced by the 2010 Chile megathrust earthquake: a comprehensive inventory and correlations with geological and seismic factors, Landslides, 16, 6, 1153-1165, DOI: 10.1007/s10346-019-01150-6

Kanamori, H., Rivera, L. and Lambotte, S., 2019. Evidence for a large strike-slip component during the 1960 Chilean earthquake, Geophys. J. Int., 218, 1, 1-32, DOI: 10.1093/gji/ggz113

Shrivastava, M.N., González, G., Moreno, M., Soto, H., Schurr, B., Salazar, P. and Báez, J.C., 2019. Earthquake segmentation in northern Chile correlates with curved plate geometry, Sci. Rep., 9, 1, , DOI: 10.1038/s41598-019-40282-6

Tolorza, V., Mohr, C.H., Carretier, S., Serey, A., Sepúlveda, S.A., Tapia, J. and Pinto, L., 2019. Suspended sediments in Chilean rivers reveal low post-seismic erosion after the Maule earthquake (Mw 8.8) during a severe drought, J. geophys. Res. Earth Surf., , DOI: 10.1029/2018JF004766

Aguirre, L., Bataille, K., Novoa, C., Peña, C. and Vera, F., 2019. Kinematics of subduction processes during the earthquake cycle in central Chile, Seismol. Res. Lett., , DOI: 10.1785/0220180391

Vallee, M. and Juhel, K., 2019. Multiple observations of the prompt elastogravity signals heralding direct seismic waves, J. geophys. Res., 124, 3, 2970-2989, DOI: 10.1029/2018JB017130

Báez, J.C., Leyton, F., Troncoso, C., Del Campo, F., Bevis, M., Vigny, C., Moreno, M., Simons, M., Kendrick, E., Parra, H. and Blume, F., 2018. The Chilean GNSS Network: Current Status and Progress toward Early Warning Applications, Seismol. Res. Lett., 89, 4, 1546-1554, DOI: 10.1785/0220180011

Ruiz, S. and Madariaga, R., 2018. Historical and recent large megathrust earthquakes in Chile, Tectonophysics, 733, 37-56, DOI: 10.1016/j.tecto.2018.01.015

Luginbuhl, M., Rundle, J.B. and Turcotte, D.L., 2018. Natural time and nowcasting earthquakes: Are large global earthquakes temporally clustered?, Part of the series Pageoph Topical Volumes, 137-146, DOI: 10.1007/978-3-319-92297-3_11

Yin, L., Andrews, J. and Heaton, T., 2018. Rapid earthquake discrimination for earthquake early warning: A bayesian probabilistic approach using three‐component single‐station waveforms and seismicity forecast, Bull. seism. Soc. Am., 108, 4, 2054-2067, DOI: 10.1785/0120170138

Cienfuegos, R., Catalán, P.A., Urrutia, A., Benavente, R., Aránguiz, R. and González, G., 2018. What can we do to forecast tsunami hazards in the near field given large epistemic uncertainty in rapid seismic source inversions?, Geophys. Res. Lett., 45, 10, 4944-4955, DOI: 10.1029/2018GL076998

Klos, A., Bogusz, J. and Moreaux, G., 2018. Stochastic models in the DORIS position time series: estimates for IDS contribution to ITRF2014, J. Geod., 92, 7, 743-763, DOI: 10.1007/s00190-017-1092-0

Goldberg, D.E., Melgar, D., Bock, Y. and Allen, R.M., 2018. Geodetic observations of weak determinism in rupture evolution of large earthquakes, J. geophys. Res., 123, 11, 9950-9962, DOI: 10.1029/2018JB015962

Inzunza, D.A., Montalva, G.A., Leyton, F., Prieto, G. and Ruiz, S., 2018. Shallow ambient‐noise 3D tomography in the Concepción Basin, Chile: Implications for low‐frequency ground motions, Bull. seism. Soc. Am., 109, 1, 75-86, DOI: 10.1785/0120180061

Poulos, A., Monsalve, M., Zamora, N. and de la Llera, J.C., 2018. An updated recurrence model for Chilean subduction seismicity and statistical validation of its poisson nature, Bull. seism. Soc. Am., 109, 1, 66-74, DOI: 10.1785/0120170160

Garrett, E., Brader, M., Melnick, D., Bedford, J. and Aedo, D., 2018. First field evidence of coseismic land‐level change associated with the 25 December 2016 Mw 7.6 Chiloé, Chile, Earthquake, Bull. seism. Soc. Am., 109, 1, 87-98, DOI: 10.1785/0120180173

Ruhl, C.J., Melgar, D., Geng, J., Goldberg, D.E., Crowell, B.W., Allen, R.M., Bock, Y., Barrientos, S., Riquelme, S., Baez, J.C., Cabral‐Cano, E., Pérez‐Campos, X., Hill, E.M., Protti, M., Ganas, A., Ruiz, M., Mothes, P., Jarrín, P., Nocquet, J., Avouac, J. and D'Anastasio, E., 2018. A global database of strong‐motion displacement GNSS recordings and an example application to PGD scaling, Seismol. Res. Lett., 90, 1, 271-279, DOI: 10.1785/0220180177

Murray, J.R., Crowell, B.W., Grapenthin, R., Hodgkinson, K., Langbein, J.O., Melbourne, T., Melgar, D., Minson, S.E. and Schmidt, D.A., 2018. Development of a geodetic component for the U.S. West Coast Earthquake Early Warning System, Seismol. Res. Lett., 89, 6, 2322-2336, DOI: 10.1785/0220180162

Casas, J.A., Mikesell, T.D., Draganov, D., Lepore, S., Badi, G.A., Franco, L. and Gómez, M., 2018. Shallow S‐wave velocity structure from ambient seismic noise at Planchón‐Peteroa volcanic complex, Argentina‐Chile, Bull. seism. Soc. Am., , DOI: 10.1785/0120170281

Stevens, V.L., Shrestha, S.N. and Maharjan, D.K., 2018. Probabilistic seismic hazard assessment of Nepal, Bull. seism. Soc. Am., 108, 6, 3488-3510, DOI: 10.1785/0120180022

Spagnotto, S., Alvarez, O. and Folguera, A., 2018. Static stress increase in the Outer Forearc produced by MW 8.2 September 8, 2017 Mexico earthquake and its relation to the gravity signal, Pure appl. Geophys., 175, 8, 2575-2593, DOI: 10.1007/s00024-018-1962-2

Riquelme, S., Medina, M., Bravo, F., Barrientos, S., Campos, J. and Cisternas, A., 2018. W‐Phase real‐time implementation and network expansion from 2012 to 2017: The experience in Chile, Seismol. Res. Lett., , DOI: 10.1785/0220180146

Chao, K. and Yu, C., 2018. A MATLAB GUI for examining triggered tremor: A case study in New Zealand, Seismol. Res. Lett., , DOI: 10.1785/0220180057

Melnick, D., Li, S., Moreno, M., Cisternas, M., Jara-Muñoz, J., Wesson, R., Nelson, A., Báez, J.C. and Deng, Z., 2018. Back to full interseismic plate locking decades after the giant 1960 Chile earthquake, Nature Communications, 9, 1, , DOI: 10.1038/s41467-018-05989-6

Xu, X., Sandwell, D.T. and Bassett, D., 2018. A spectral expansion approach for geodetic slip inversion: implications for the downdip rupture limits of oceanic and continental megathrust earthquakes, Geophys. J. Int., 212, 1, 400-411, DOI: 10.1093/gji/ggx408

Saez, M., Pasten, C., Ruiz, S. and Salomon, J., 2018. The impact of a buried high‐velocity layer in the seismic site amplification of the City of Llolleo, Chile, Bull. seism. Soc. Am., 108, 4, 2199-2208, DOI: 10.1785/0120170274

Sun, T., Wang, K. and He, J., 2018. Crustal deformation following great subduction earthquakes controlled by earthquake size and mantle rheology, J. geophys. Res., 123, 6, 5323-5345, DOI: 10.1029/2017JB015242

Poupardin, A., Heinrich, P., Hebert, H., Schindele, F., Jamelot, A., Reymond, D. and Sugioka, H., 2018. Traveltime delay relative to the maximum energy of the wave train for dispersive tsunamis propagating across the Pacific Ocean: the case of 2010 and 2015 Chilean Tsunamis, Geophys. J. Int., 214, 3, 1538-1555, DOI: 10.1093/gji/ggy200

O’Malley, R.T., Mondal, D., Goldfinger, C. and Behrenfeld, M.J., 2018. Evidence of systematic triggering at teleseismic distances following large earthquakes, Sci. Rep., 8, , DOI: 10.1038/s41598-018-30019-2

Inazu, D., Ikeya, T., Waseda, T., Hibiya, T. and Shigihara, Y., 2018. Measuring offshore tsunami currents using ship navigation records, Prog. Earth Planet. Sci., 5, 1, 38, DOI: 10.1186/s40645-018-0194-5

Wirth, E.A., Frankel, A.D., Marafi, N., Vidale, J.E. and Stephenson, W.J., 2018. Broadband synthetic seismograms for magnitude 9 earthquakes on the cascadia megathrust based on 3D simulations and stochastic synthetics, Part 2: Rupture parameters and variability, Bull. seism. Soc. Am., 108, 5A, 2370-2388, DOI: 10.1785/0120180029

Frankel, A., Wirth, E., Marafi, N., Vidale, J. and Stephenson, W.J., 2018. Broadband synthetic seismograms for magnitude 9 earthquakes on the Cascadia megathrust based on 3D simulations and stochastic synthetics, Part 1: Methodology and overall results methodology and overall results, Bull. seism. Soc. Am., 108, 5A, 2347-2369, DOI: 10.1785/0120180034

Mohr, C.H., Manga, M. and Wald, D., 2018. Stronger peak ground motion, beyond the threshold to initiate a response, does not lead to larger stream discharge responses to earthquakes, Geophys. Res. Lett., 45, 13, 6523-6531, DOI: 10.1029/2018GL078621

Santibáñez, I., Cembrano, J., García-Pérez, T., Costa, C., Yáñez, G., Marquardt, C., Arancibia, G. and González, G., 2018. Crustal faults in the Chilean Andes: geological constraints and seismic potential, Andean Geology, 46, 1, 32, DOI: 10.5027/andgeov46n1-3067

Zakharova, O., Hainzl, S., Lange, D. and Enescu, B., 2017. Spatial variations of aftershock parameters and their relation to geodetic slip models for the 2010 Mw 8.8 Maule and the 2011 Mw 9.0 Tohoku-oki earthquakes, Pure appl. Geophys., 174, 1, 77-102, DOI: 10.1007/s00024-016-1408-7

De la Maza, G., Williams, N., Sáez, E., Rollins, K. and Ledezma, C., 2017. Liquefaction-induced lateral spread in Lo Rojas, Coronel, Chile: Field study and numerical modeling, Earthq. Spectra, 33, 1, 219-240, DOI: 10.1193/012015EQS012M

Li, S., Moreno, M., Bedford, J., Rosenau, M., Heidbach, O., Melnick, D. and Oncken, O., 2017. Postseismic uplift of the Andes following the 2010 Maule earthquake: Implications for mantle rheology, Geophys. Res. Lett., , DOI: 10.1002/2016GL071995

Montalva, G.A., Bastías, N. and Rodriguez-Marek, A., 2017. Ground-Motion Prediction Equation for the Chilean Subduction Zone, Bull. seism. Soc. Am., 107, 2, 901-911, DOI: 10.1785/0120160221

Loveless, P.J., 2017. Super-interseismic periods: Redefining earthquake recurrence, Geophys. Res. Lett., 44, 3, 1329-1332, DOI: 10.1002/2017GL072525

Montecino, H.D., de Freitas, S.R.C., Báez, J.C. and Ferreira, V.G., 2017. Effects on Chilean vertical reference frame due to the Maule earthquake co-seismic and post-seismic effects, J. Geodyn., 112, 22-30, DOI: 10.1016/j.jog.2017.07.006

Lobkovsky, L.I., Vladimirova, I.S., Gabsatarov, Y.V., Baranov, B.V., Garagash, I.A. and Steblov, G.M., 2017. Seismotectonic deformations related to the 2010 Maule earthquake at different stages of the seismic cycle from satellite geodetic observations, Dokl. Earth Sci., 477, 2, 1498-1503, DOI: 10.1134/S1028334X17120261

Mohr, C.H., Manga, M., Wang, C.-Y. and Korup, O., 2017. Regional changes in streamflow after a megathrust earthquake, Earth planet. Sci. Lett., 458, 418-428, DOI: 10.1016/j.epsl.2016.11.013

de la Llera, J.C., Rivera, F., Mitrani-Reiser, J., Jünemann, R., Fortuño, C., Ríos, M., Hube, M., Santa María, H. and Cienfuegos, R., 2017. Data collection after the 2010 Maule earthquake in Chile, Bull. Earthquake Eng., 15, 2, 555-588, DOI: 10.1007/s10518-016-9918-3

Melnick, D., Moreno, M., Quinteros, J., Baez, J.C., Deng, Z., Li, S. and Oncken, O., 2017. The super-interseismic phase of the megathrust earthquake cycle in Chile, Geophys. Res. Lett., 44, 2, 784-791, DOI: 10.1002/2016GL071845

Frankel, A., 2017. Modeling strong‐motion recordings of the 2010 Mw 8.8 Maule, Chile, Earthquake with high stress‐drop subevents and background slip, Bull. seism. Soc. Am., 107, 1, 372-386, DOI: 10.1785/0120160127

Castro, R.R., Clayton, R., Hauksson, E. and Stock, J., 2017. Observations of remotely triggered seismicity in Salton Sea and Coso geothermal regions, Southern California, USA, after big (MW>7.8) teleseismic earthquakes, Geofis. int., 56, 3, 269-286.

Espinosa, F.R., Toulkeridis, T., Martínez, R.S., Girón, J.C., Quispe, A.T., Quiñonez, L.V., Almeida, O.P., Mato, F., D’Howitt, M.C., Parra, H., Sandova, W. and Rentería, W., 2017. Economic evaluation of recovering natural protection with concurrent relocation of the population threatened by tsunami hazards in central costal Ecuador, Science of Tsunami Hazards, 36, 4, 293-306.

Giraldi, L., Le Maître, O.P., Mandli, K.T., Dawson, C.N., Hoteit, I. and Knio, O.M., 2017. Bayesian inference of earthquake parameters from buoy data using a polynomial chaos-based surrogate, Computational Geosci., 21, 4, 683-699, DOI: 10.1007/s10596-017-9646-z

Fatolazadeh, F., Naeeni, M.R., Voosoghi, B. and Rahimi, A., 2017. Estimation of fault parameters using GRACE observations and analytical model: Case study: The 2010 Chile earthquake, J. Geodyn., 108, 26-39, DOI: 10.1016/j.jog.2017.05.004

Li, Y., Astroza, R., Conte, J.P. and Soto, P., 2017. Nonlinear FE model updating and reconstruction of the response of an instrumented seismic isolated bridge to the 2010 Maule Chile earthquake, Earthq. Engng struct. Dyn., 46, 10, , DOI: 10.1002/eqe.2925

Hardebeck, J.L., 2017. The spatial distribution of earthquake stress rotations following large subduction zone earthquakes, Earth Planets Space, 69:69, , DOI: 10.1186/s40623-017-0654-y

Idini, B., Rojas, F., Ruiz, S. and Pasten, C., 2017. Ground motion prediction equations for the Chilean subduction zone, Bull. Earthquake Eng., 15, 5, 1853-1880, DOI: 10.1007/s10518-016-0050-1

Sobolev, G.A., Zakrzhevskaya, N.A., Migunov, I.N. and Sobolev, D.G., 2017. Migration of pulsations after earthquakes, Izv. Phys. Solid Earth, 53, 4, 493-517, DOI: 10.1134/S1069351317040103

Maksymowicz, A., Chadwell, C.D., Ruiz, J., Tréhu, A.M., Contreras-Reyes, E., Weinrebe, W., Díaz-Naveas, J., Gibson, J.C., Lonsdale, P. and Tryon, M.D., 2017. Coseismic seafloor deformation in the trench region during the Mw8.8 Maule megathrust earthquake, Sci. Rep., 7, 45918, , DOI: 10.1038/srep45918

Tanaka, Y. and Heki, K., 2017. GRACE seismology: Review and perspective of satellite gravimetry for earthquake sciences, Zisin, 69, 69-85, DOI: 10.4294/zisin.69.69

Fu, Y., Song, Y.T. and Gross, R.S., 2017. Linking Oceanic Tsunamis and Geodetic Gravity Changes of Large Earthquakes, Pure appl. Geophys., 174, 8, 3029-3041, DOI: 10.1007/s00024-017-1510-5

Contreras-Reyes, E., Maksymowicz, A., Lange, D., Grevemeyer, I., Muñoz-Linford, P. and Moscoso, E., 2017. On the relationship between structure, morphology and large coseismic slip: A case study of the Mw 8.8 Maule, Chile 2010 earthquake, Earth planet. Sci. Lett., 478, 27-39, DOI: 10.1016/j.epsl.2017.08.028

Bukchin, B.G., 2017. Second-moment approximation of the earthquake source and fault plane identification, Izv. Phys. Solid Earth, 53, 2, 243-249, DOI: 10.1134/S1069351317020045

Huang, Y.-L., Hwang, R.-D., Jhuang, Y.-S. and Lin, C.-Y., 2017. Rupture features of the 2010 Mw 8.8 Chile earthquake extracted from surface waves, Earth Planets Space, 69:41, , DOI: 10.1186/s40623-017-0624-4

Cuellar, A., Suarez, G. and Espinosa-Aranda, J.M., 2017. Performance evaluation of the earthquake detection and classification algorithm 2(tS-tP) of the Seismic Alert System of Mexico (SASMEX), Bull. seism. Soc. Am., 107, 3, 1451-1463, DOI: 10.1785/0120150330

Omira, R., Baptista, M.A. and Lisboa, F., 2016. Tsunami characteristics along the Peru--Chile trench: analysis of the 2015 Mw8.3 Illapel, the 2014 Mw8.2 Iquique and the 2010 Mw8.8 Maule tsunamis in the near-field, Pure appl. Geophys., 173, 4, 1063-1077, DOI: 10.1007/s00024-016-1277-0

He, L. and Heki, K., 2016. Three-dimensional distribution of ionospheric anomalies prior to three large earthquakes in Chile, Geophys. Res. Lett., 43, 14, 7287-7293, DOI: 10.1002/2016GL069863

Maruyama, T., Yusupov, K. and Akchurin, A., 2016. Interpretation of deformed ionograms induced by vertical ground motion of seismic Rayleigh waves and infrasound in the thermosphere, Ann. Geophys., 34, 2, 271-278, DOI: 10.5194/angeo-34-271-2016

Papadopoulos, G.A. and Minadakis, G., 2016. Foreshock patterns preceding great earthquakes in the subduction zone of Chile, Pure appl. Geophys., 173, 10-11, 3247-3271, DOI: 10.1007/s00024-016-1337-5

Klein, E., Fleitout, L., Vigny, C. and Garaud, J.D., 2016. Afterslip and viscoelastic relaxation model inferred from the large-scale post-seismic deformation following the 2010 Mw 8.8 Maule earthquake (Chile), Geophys. J. Int., 205, 3, 1455-1472, DOI: 10.1093/gji/ggw086

Métois, M., Vigny, C. and Socquet, A., 2016. Interseismic coupling, megathrust earthquakes and seismic swarms along the Chilean subduction zone (38°-18°S), Pure appl. Geophys., 173, 5, 1431-1449, DOI: 10.1007/s00024-016-1280-5

Akhoondzadeh, M., 2016. Decision tree, bagging and random forest methods detect TEC seismo-ionospheric anomalies around the time of the Chile, (Mw = 8.8) earthquake of 27 February 2010, Adv. Space Res., 57, 12, 2464-2469, DOI: 10.1016/j.asr.2016.03.035

Bouchon, M., Marsan, D., Durand, V., Campillo, M., Perfettini, H., Madariaga, R. and Gardonio, B., 2016. Potential slab deformation and plunge prior to the Tohoku, Iquique and Maule earthquakes, Nat. Geosci., 9, 5, 380-383, DOI: 10.1038/ngeo2701

Lario, J., Zazo, C. and Goy, J.L., 2016. Tectonic and morphosedimentary features of the 2010 Chile earthquake and tsunami in the Arauco Gulf and Mataquito River (Central Chile), Geomorphology, 267, 16-24, DOI: 10.1016/j.geomorph.2016.05.019

Dai, C., Shum, C.K., Guo, J., Shang, K., Tapley, B. and Wang, R., 2016. Improved source parameter constraints for five undersea earthquakes from north component of GRACE gravity and gravity gradient change measurements, Earth planet. Sci. Lett., 443, 118-128, DOI: 10.1016/j.epsl.2016.03.025

Xu, S., Fukuyama, E., Yue, H. and Ampuero, J.-P., 2016. Simple crack models explain deformation induced by subduction zone megathrust earthquakes, Bull. seism. Soc. Am., 106, 5, 2275-2289, DOI: 10.1785/0120160079

Yoshimoto, M., Watada, S., Fujii, Y. and Satake, K., 2016. Source estimate and tsunami forecast from far-field deep-ocean tsunami waveforms – the 27 February 2010 Mw 8.8 Maule earthquake, Geophys. Res. Lett., 43, 2, 659-665, DOI: 10.1002/2015GL067181

Kurkin, A., Belyakov, V., Makarov, V., Zeziulin, D. and Pelinovsky, E., 2016. Methods of tsunami detection and of post-tsunami surveys, Science of Tsunami Hazards, 35, 2, 68-83.

Sobisevich, L.E., Starostenko, V.I., Rogozhyn, E.A., Lutikov, A.I., Sobisevich, A.L., Kanonidi, K.H., Kendzera, A.V. and Orlyuk, M.I., 2016. Abnormal geophysical and seismotectonic processes observed during the period of preparation and development of the earthquake with a magnetude of 8.8 in Maule 2010 (Chile), Geophys. J., 38, 6, .

Zaytsev, O., Rabinovich, A.B. and Thomson, R.E., 2016. A comparative analysis of coastal and open-ocean records of the great Chilean tsunamis of 2010, 2014 and 2015 off the coast of Mexico, Pure appl. Geophys., 173, 12, 4139-4178, DOI: 10.1007/s00024-016-1407-8

Schnepf, N.R., Manoj, C., An, C., Sugioka, H. and Toh, H., 2016. Time-frequency characteristics of tsunami magnetic signals from four Pacific Ocean events, Pure appl. Geophys., 173, 12, 3935-3953, DOI: 10.1007/s00024-016-1345-5

Sánchez, L. and Drewes, H., 2016. Crustal deformation and surface kinematics after the 2010 earthquakes in Latin America, J. Geodyn., 102, 1-23, DOI: 10.1016/j.jog.2016.06.005

Jünemann, R., de la Llera, J.C., Hube, M.A., Vásquez, J.A. and Chacón, M.F., 2016. Study of the damage of reinforced concrete shear walls during the 2010 Chile earthquake, Earthq. Engng struct. Dyn., 45, 10, 1621-1641, DOI: 10.1002/eqe.2750

Bedford, J., Moreno, M., Li, S., Oncken, O., Baez, J.C., Bevis, M., Heidbach, O. and Lange, D., 2016. Separating simultaneous postseismic processes: An application of the postseismic straightening method to the Maule 2010 cGPSv, J. geophys. Res., 121, 10, 7618-7638, DOI: 10.1002/2016JB013093

Geersen, J., Scholz, F., Linke, P., Schmidt, M., Lange, D., Behrmann, J.H., Völker, D. and Hensen, C., 2016. Fault zone controlled seafloor methane seepage in the rupture area of the 2010 Maule earthquake, Central Chile, Geochem. Geophys. Geosyst., 17, 11, 4802-4813, DOI: 10.1002/2016GC006498

Montalva, G.A., Chávez-Garcia, F.J., Tassara, A. and Weisser, D.M.J., 2016. Site effects and building damage characterization in Concepción after the Mw 8.8 Maule earthquake, Earthq. Spectra, 32, 3, 1469-1488, DOI: 10.1193/101514EQS158M

Maruyama, T., Yusupov, K. and Akchurin, A., 2016. Ionosonde tracking of infrasound wavefronts in the thermosphere launched by seismic waves after the 2010 M8.8 Chile earthquake, J. geophys. Res. A: Space Phys., 121, 3, 2683-2692, DOI: 10.1002/2015JA022260

Wang, D., 2015. An ocean depth-correlation method for reducing model errors in tsunami travel time: application to the 2010 Chile and 2011 Tohoku tsunamis, Science of Tsunami Hazards, 34, 1, 1-22.

Verdugo, R. and González, J., 2015. Liquefaction-induced ground damages during the 2010 Chile earthquake, Soil Dyn. Earthquake Eng., 79, Part B, 280-295, DOI: 10.1016/j.soildyn.2015.04.016

Álvarez, O., Nacif, S., Spagnotto, S., Folguera, A., Gimenez, M., Chlieh, M. and Braitenberg, C., 2015. Gradients from GOCE reveal gravity changes before Pisagua Mw = 8.2 and Iquique Mw = 7.7 large megathrust earthquakes, J. South Amer. Earth Sci., 64, 2, 273-287, DOI: 10.1016/j.jsames.2015.09.014

Moscoso, E. and Grevemyer, I., 2015. Bending-related faulting of the incoming oceanic plate and its effect on lithospheric hydration and seismicity: A passive and active seismological study offshore Maule, Chile, J. Geodyn., 90, 58-70, DOI: 10.1016/j.jog.2015.06.007

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Heki, K. and Matsuo, K., 2010. Coseismic gravity changes of the 2010 earthquake in central Chile from satellite gravimetry, Geophys. Res. Lett., 37, 24, L24306, DOI: 10.1029/2010GL045335

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de la Fuente, A., Meruane, C., Contreras, M., Ulloa, H. and Niño, Y., 2010. Strong vertical mixing of deep water of a stratified reservoir during the Maule earthquake, central Chile (Mw 8.8), Geophys. Res. Lett., 37, 24, L24608, DOI: 10.1029/2010GL045798

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EERI-team, GEER-team and TCLEE-team, 2010. The Mw 8.8 Chile Earthquake of February 27, 2010, EERI Special Earthquake Report, 1-20.

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