International Seismological CentreOnline Event Bibliography
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Search publication for ISC event 15155483
ISC Event Agency Origin time Lat Lon Depth Magnitude Article_total Event code 15155483 ISC 2010-09-03 16:35:45 -43.38 171.88 2.1 Mw(GCMT) = 7.0 260 DARFIELD2010
Walbert, O.L. and Hetland, E.A., 2025. Constraints on the Seismogenic Stress Tensor in Northeastern South Island, New Zealand, J. geophys. Res.: Solid Earth, 130, 1, e2024JB028877, DOI: 10.1029/2024JB028877
Mijic, Z. and Bray, J.D., 2024. Insights from liquefaction ejecta case histories for the 2010–2011 Canterbury earthquakes, Soil Dyn. Earthquake Eng., 176, 108267, DOI: 10.1016/j.soildyn.2023.108267
Khosravi, M. and Zaregarizi, S., 2024. Liquefaction Potential and Sediment Ejecta Manifestation of Thinly Interbedded Sands and Fine-Grained Soils: Palinurus Road Site in Christchurch Subjected to 2010–2011 Canterbury Earthquake Sequence, J. Geotech. Geoenviron. Eng., 150, 5, 04024026, DOI: 10.1061/jggefk.gteng-11616
Lu, Y., Xie, W., Liang, H., Zhang, Z., Guo, T., Chen, X. and Yuan, J., 2024. Experimental and numerical study on dynamic response of offshore wind turbine subjected to earthquake loads, Ocean Eng., 301, 117353, DOI: 10.1016/j.oceaneng.2024.117353
Rodriguez Padilla, A.M., Oskin, M.E., Brodsky, E.E., Dascher‐Cousineau, K., Herrera, V. and White, S., 2024. The Influence of Fault Geometrical Complexity on Surface Rupture Length, Geophys. Res. Lett., 51, 20, e2024GL109957, DOI: 10.1029/2024GL109957
Novikov, V.A. and Sorokin, V.M., 2024. Electromagnetic Trigger Effects in the Ionosphere–Atmosphere–Lithosphere System and Their Possible Use for Short-Term Earthquake Forecasting, Izv. Phys. Solid Earth, 60, 5, 879-890, DOI: 10.1134/s1069351324700800
Wilson, M.P., Foulger, G.R., Wilkinson, M.W., Gluyas, J.G., Mhana, N. and Tezel, T., 2023. Artificial Intelligence and Human-Induced Seismicity: Initial Observations of ChatGPT, Seismol. Res. Lett., 94, 5, 2111-2118, DOI: 10.1785/0220230112
Poulos, A. and Miranda, E., 2023. Effect of Style of Faulting on the Orientation of Maximum Horizontal Earthquake Response Spectra, Bull. seism. Soc. Am., 113, 5, 2092-2105, DOI: 10.1785/0120230001
Guo, H., Lay, T. and Brodsky, E.E., 2023. Seismological Indicators of Geologically Inferred Fault Maturity, J. geophys. Res.: Solid Earth, 128, 10, e2023JB027096, DOI: 10.1029/2023JB027096
Alberto, Y., la Llera, J.C.D., Aguirre, P., Monsalve, M. and Molinos, M., 2022. Comparative Qualitative and Quantitative Analyses of the Seismic Performance of Water Networks during the Maule 2010, Christchurch 2010-2011, and Tohoku 2011 Earthquakes, J. Water Res. Plan. Man., 148, 4, 04022004, DOI: 10.1061/(asce)wr.1943-5452.0001520
Massey, C.I., Olsen, M.J., Wartman, J., Senogles, A., Lukovic, B., Leshchinsky, B.A., Archibald, G., Litchfield, N., Dissen, R., Vilder, S. and Holden, C., 2022. Rockfall activity rates before, during and after the 2010/11 Canterbury Earthquake Sequence, J. geophys. Res.: Earth Surf., 127, 3, e2021JF006400, DOI: 10.1029/2021jf006400
Lu, S., 2022. Bayesian multiple changepoint detection with missing data and its application to the magnitude‐frequency distributions, Environmetrics, 34, 4, e2775, DOI: 10.1002/env.2775
Posadas, A., Morales, J., Ibañez, J.M. and Posadas-Garzon, A., 2021. Shaking earth: Non-linear seismic processes and the second law of thermodynamics: A case study from Canterbury (New Zealand) earthquakes, Chaos Solitons Fract., 151, 111243, DOI: 10.1016/j.chaos.2021.111243
Barrios, G., Larkin, T. and Chouw, N., 2021. Experimental study of the seismic response of a structure set amongst closely adjacent structures, Earthq. Engng struct. Dyn., 50, 14, 3771-3791, DOI: 10.1002/eqe.3532
Manzanal, D., Bertelli, S., Lopez-Querol, S., Rossetto, T. and Mira, P., 2021. Influence of fines content on liquefaction from a critical state framework: the Christchurch earthquake case study, Bull. Eng. Geol. Environ., 80, 6, 4871-4889, DOI: 10.1007/s10064-021-02217-2
Lin, A., Wotherspoon, L., Bradley, B. and Motha, J., 2021. Evaluation and modification of geospatial liquefaction models using land damage observational data from the 2010–2011 Canterbury Earthquake Sequence, Engng Geol., 287, 106099, DOI: 10.1016/j.enggeo.2021.106099
Ntritsos, N. and Cubrinovski, M., 2021. Scrutiny of input motions for effective stress analysis of case-history sites from the 2010–2011 Canterbury earthquakes, Soil Dyn. Earthquake Eng., 144, 106670, DOI: 10.1016/j.soildyn.2021.106670
Geyin, M., Maurer, B.W., Bradley, B.A., Green, R.A. and van Ballegooy, S., 2021. CPT-based liquefaction case histories compiled from three earthquakes in Canterbury, New Zealand, Earthq. Spectra, 37, 4, 2920-2945, DOI: 10.1177/8755293021996367
Yin, Y., Wiemer, S., Kissling, E., Lanza, F., Rinaldi, A.P., Gerstenberger, M. and Fry, B., 2021. Seismicity rate change as a tool to investigate delayed and remote triggering of the 2010–2011 Canterbury earthquake sequence, New Zealand, Bull. seism. Soc. Am., 111, 4, 2248-2269, DOI: 10.1785/0120210006
Cox, S.C., Van Ballegooy, S., Rutter, H.K., Harte, D.S., Holden, C., Gulley, A.K., Lacrosse, V. and Manga, M., 2021. Can artesian groundwater and earthquake-induced aquifer leakage exacerbate the manifestation of liquefaction?, Engng Geol., 281, 105982, DOI: 10.1016/j.enggeo.2020.105982
Liao, X., Wang, G. and Shi, Z., 2021. Sustained changes in well water levels following a large earthquake: possible evidence of permeability decreases in a shallow groundwater system, Geophys. Res. Lett., 48, 1, e2020GL090232, DOI: 10.1029/2020GL090232
Moratalla, J.M., Goded, T., Rhoades, D.A., Canessa, S. and Gerstenberger, M.C., 2021. New ground motion to intensity conversion equations (GMICEs) for New Zealand, Seismol. Res. Lett., 92, 1, 448-459, DOI: 10.1785/0220200156
Mahmood, I., Iqbal, M.F., Shahzad, M.I. and Waqas, A., 2020. Investigation of earthquake thermal precursors in active tectonic regions of the world, J. Geodyn., 141-142, 101785, DOI: 10.1016/j.jog.2020.101785
Irikura, K., Kurahashi, S. and Matsumoto, Y., 2020. Extension of characterized source model for long-period ground motions in near-fault area, Pure appl. Geophys., 177, 5, 2021-2047, DOI: 10.1007/s00024-019-02283-4
Dalguer, L.A., Wu, H., Matsumoto, Y., Irikura, K., Takahama, T. and Tonagi, M., 2020. Development of dynamic asperity models to predict surface fault displacement caused by earthquakes, Pure appl. Geophys., 177, 5, 1983-2006, DOI: 10.1007/s00024-019-02255-8
Rahimi, S., Wood, C.M., Wotherspoon, L.M. and Green, R.A., 2020. Efficacy of aging correction for liquefaction assessment of case histories recorded during the 2010 Darfield and 2011 Christchurch earthquakes in New Zealand, J. Geotech. Geoenviron. Eng., 146, 8, 04020059, DOI: 10.1061/(ASCE)GT.1943-5606.0002294
de la Torre, C.A., Bradley, B.A. and Lee, R.L., 2020. Modeling nonlinear site effects in physics-based ground motion simulations of the 2010–2011 Canterbury earthquake sequence, Earthq. Spectra, 36, 2, 856-879, DOI: 10.1177/8755293019891729
Luque, R. and Bray, J.D., 2020. Dynamic soil-structure interaction analyses of two important structures affected by liquefaction during the Canterbury earthquake sequence, Soil Dyn. Earthquake Eng., 133, 106026, DOI: 10.1016/j.soildyn.2019.106026
Yue, H. and Lay, T., 2020. Resolving complicated faulting process using Multi-Point-Source (MPS) representation: Iterative inversion algorithm improvement and application to recent complex earthquakes, J. geophys. Res.: Solid Earth, 125, 2, e2019JB018601, DOI: 10.1029/2019JB018601
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
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
Fikri, R., Dizhur, D., Walsh, K. and Ingham, J., 2019. Seismic performance of Reinforced Concrete Frame with Masonry Infill buildings in the 2010/2011 Canterbury, New Zealand earthquakes, Bull. Earthquake Eng., 17, 2, 737-757, DOI: 10.1007/s10518-018-0476-8
Yates, A.S., Savage, M.K., Jolly, A.D., Caudron, C. and Hamling, I.J., 2019. Volcanic, Coseismic, and Seasonal Changes Detected at White Island (Whakaari) Volcano, New Zealand, Using Seismic Ambient Noise, Geophys. Res. Lett., 46, 1, 99-108, DOI: 10.1029/2018GL080580
Li, C., Lv, L., Wang, X. and Li, X., 2019. Late quaternary slip behavior of the Yushu fault and the 2010 Ms 7.1 Yushu earthquake, eastern Tibetan Plateau, J. Struct. Geol., 118, 284-298, DOI: 10.1016/j.jsg.2018.11.004
Rhoades, D.A. and Christophersen, A., 2019. Time-varying probabilities of earthquake occurrence in central New Zealand based on the EEPAS model compensated for time-lag, Geophys. J. Int., 219, 1, 417-429, DOI: 10.1093/gji/ggz301
Van Houtte, C. and Abbott, E., 2019. OpenQuake implementation of the Canterbury seismic hazard model, Seismol. Res. Lett., 90, 6, 2227-2235, DOI: 10.1785/0220190100
Bradley, B.A., 2019. On-going challenges in physics-based ground motion prediction and insights from the 2010–2011 Canterbury and 2016 Kaikoura, New Zealand earthquakes, Soil Dyn. Earthquake Eng., 124, 354-364, DOI: 10.1016/j.soildyn.2018.04.042
Weaver, K.C., Cox, S.C., Townend, J., Rutter, H., Hamling, I.J. and Holden, C., 2019. Seismological and hydrogeological controls on New Zealand - Wide groundwater level changes induced by the 2016 Mw 7.8 Kaikōura earthquake, Geofluids, 2019, 1-18, DOI: 10.1155/2019/9809458
Wu, S., 2019. Investigation on the connection forces of shear keys in skewed bridges during earthquakes, Engng Struct., 194, 334-343, DOI: 10.1016/j.engstruct.2019.05.020
Quigley, M.C., Jiménez, A., Duffy, B. and King, T.R., 2019. Physical and statistical behaviour of multi-fault earthquakes: Darfield earthquake case study, New Zealand, J. geophys. Res.: Solid Earth, 124, 5, 4788-4810, DOI: 10.1029/2019JB017508
Becker, J.S., Potter, S.H., McBride, S.K., Wein, A., Doyle, E.E.H. and Paton, D., 2019. When the earth doesn’t stop shaking: How experiences over time influenced information needs, communication, and interpretation of aftershock information during the Canterbury Earthquake Sequence, New Zealand, Int. J. Disaster Risk Reduction, 34, 397-411, DOI: 10.1016/j.ijdrr.2018.12.009
Ren, Y., Zhou, Y., Wang, H. and Wen, R., 2018. Source characteristics, Site effects and path attenuation from spectral analysis of strong‐motion recordings in the 2016 Kaikōura earthquake sequence, Bull. seism. Soc. Am., 108, 3B, 1757-1773, DOI: 10.1785/0120170290
Goded, T., Horspool, N., Canessa, S., Lewis, A., Geraghty, K., Jeffrey, A. and Gerstenberger, M., 2018. New Macroseismic Intensity Assessment Method for New Zealand Web Questionnaires, Seismol. Res. Lett., 89, 2A, 640-652, DOI: 10.1785/0220170163
Loporcaro, G., Cuevas, A., Pampanin, S. and Kral, M.V., 2018. Monotonic and low-cycle fatigue properties of earthquake-damaged New Zealand steel reinforcing bars. The experience after the Christchurch 2010/2011 earthquakes, Procedia Struct. Integr., 11, 194-201, DOI: 10.1016/j.prostr.2018.11.026
Ristau, J., 2018. Overview of Moment Tensor Analysis in New Zealand, In: D'Amico, S. (eds), Moment Tensor Solutions, Springer Natural Hazards. Springer, Cham, 281-305, DOI: 10.1007/978-3-319-77359-9_13
Pavlidou, E., Van der Meijde, M., Van der Werff, H. and Hecker, C., 2018. Time series analysis of land surface temperatures in 20 earthquake cases worldwide, Remote Sensing, 11, 61, 61, DOI: 10.3390/rs11010061
Bakema, M.M., Parra, C. and McCann, P., 2018. Learning from the rubble: the case of Christchurch, New Zealand, after the 2010 and 2011 earthquakes, Disasters, 43, 2, 431-455, DOI: 10.1111/disa.12322
Hejazi, F.S.A. and Mohammadi, M.K., 2018. Investigation on sloshing response of water rectangular tanks under horizontal and vertical near fault seismic excitations, Soil Dyn. Earthquake Eng., 116, 637-653, DOI: 10.1016/j.soildyn.2018.10.015
Yang, D., Guo, G., Liu, Y. and Zhang, J., 2018. Dimensional response analysis of bilinear SDOF systems under near-fault ground motions with intrinsic length scale, Soil Dyn. Earthquake Eng., 116, 397-408, DOI: 10.1016/j.soildyn.2018.10.034
Shapira, S., Aharonson-Daniel, L. and Bar-Dayan, Y., 2018. Anticipated behavioral response patterns to an earthquake: The role of personal and household characteristics, risk perception, previous experience and preparedness, Int. J. Disaster Risk Reduction, 31, 1-8, DOI: 10.1016/j.ijdrr.2018.04.001
Orchiston, C., Mitchell, J., Wilson, T., Langridge, R., Davies, T., Bradley, B., Johnston, D., Davies, A., Becker, J. and McKay, A., 2018. Project AF8: developing a coordinated, multi-agency response plan for a future great Alpine Fault earthquake, N.Z. Jl Geol. Geophys., 61, 3, 389-402, DOI: 10.1080/00288306.2018.1455716
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
Goded, T., Lewis, A. and Stirling, M., 2018. Seismic vulnerability scenarios of unreinforced masonry churches in New Zealand, Bull. Earthquake Eng., 16, 9, 3957-3999, DOI: 10.1007/s10518-018-0351-7
Sibson, R.H. and Ghisetti, F.C., 2018. Factors affecting the assessment of earthquake hazard from compressional inversion structure, Bull. seism. Soc. Am., 108, 4, 1819-1836, DOI: 10.1785/0120170375
Michael, A.J. and Werner, M.J., 2018. Preface to the focus section on the collaboratory for the study of earthquake predictability (CSEP): New results and future directions, Seismol. Res. Lett., 89, 4, 1226-1228, DOI: 10.1785/0220180161
Schorlemmer, D., Werner, M.J., Marzocchi, W., Jordan, T.H., Ogata, Y., Jackson, D.D., Mak, S., Rhoades, D.A., Gerstenberger, M.C., Hirata, N., Liukis, M., Maechling, P.J., Strader, A., Taroni, M., Wiemer, S., Zechar, J.D. and Zhuang, J., 2018. The collaboratory for the study of earthquake predictability: Achievements and priorities, Seismol. Res. Lett., 89, 4, 1305-1313, DOI: 10.1785/0220180053
Cattania, C., Werner, M.J., Marzocchi, W., Hainzl, S., Rhoades, D., Gerstenberger, M., Liukis, M., Savran, W., Christophersen, A., Helmstetter, A., Jimenez, A., Steacy, S. and Jordan, T.H., 2018. The forecasting skill of physics‐based seismicity models during the 2010–2012 Canterbury, New Zealand, earthquake sequence, Seismol. Res. Lett., 89, 4, 1238-1250, DOI: 10.1785/0220180033
Rhoades, D.A., Christophersen, A., Gerstenberger, M.C., Liukis, M., Silva, F., Marzocchi, W., Werner, M.J. and Jordan, T.H., 2018. Highlights from the first ten years of the New Zealand earthquake Forecast Testing Center, Seismol. Res. Lett., 89, 4, 1229-1237, DOI: 10.1785/0220180032
Razafindrakoto, H.N.T., Bradley, B.A. and Graves, R.W., 2018. Broadband ground‐motion simulation of the 2011 Mw 6.2 Christchurch, New Zealand, Earthquake, Bull. seism. Soc. Am., 20, 4, 2130-2147, DOI: 10.1785/0120170388
Berryman, K.R., Hamling, I., Kaiser, A. and Stahl, T., 2018. Introduction to the special issue on the 2016 Kaikōura earthquake, Bull. seism. Soc. Am., 108, 3B, 1491-1495, DOI: 10.1785/0120180131
Stirling, M.W. and Anderson, J.G., 2018. Magnitude as a function of rupture length and slip rate for recent large New Zealand earthquakes, Bull. seism. Soc. Am., 108, 3B, 1623-1629, DOI: 10.1785/0120170284
Heckels, R.E.G., Savage, M.K. and Townend, J., 2018. Post-seismic velocity changes following the 2010 Mw 7.1 Darfield earthquake, New Zealand, revealed by ambient seismic field analysis, Geophys. J. Int., 213, 2, 931-939, DOI: 10.1093/gji/ggy021
Giona Bucci, M., Villamor, P., Almond, P., Tuttle, M., Stringer, M., Ries, W., Smith, C., Hodge, M. and Watson, M., 2018. Associations between sediment architecture and liquefaction susceptibility in fluvial settings: The 2010–2011 Canterbury Earthquake Sequence, New Zealand, Engng Geol., 237, 181-197, DOI: 10.1016/j.enggeo.2018.01.013
Lin, S.-L., Uma, S.R. and King, A., 2018. Empirical fragility curves for non-residential buildings from the 2010–2011 Canterbury earthquake sequence, J. Earthq. Eng., 22, 5, 749-777, DOI: 10.1080/13632469.2016.1264322
Stahl, T., Clark, M.K., Zekkos, D., Athanasopoulos-Zekkos, A., Willis, M., Medwedeff, W., Knoper, L., Townsend, K. and Jin, J., 2017. Earthquake science in resilient societies, Tectonics, 36, 4, 749-753, DOI: 10.1002/2017TC004604
Marquis, F., Kim, J.J., Elwood, K.J. and Chang, S.E., 2017. Understanding post-earthquake decisions on multi-storey concrete buildings in Christchurch, New Zealand, Bull. Earthquake Eng., 15, 2, 731-758, DOI: 10.1007/s10518-015-9772-8
Kongar, I., Esposito, S. and Giovinazzi, S., 2017. Post-earthquake assessment and management for infrastructure systems: learning from the Canterbury (New Zealand) and L'Aquila (Italy) earthquakes, Bull. Earthquake Eng., 15, 2, 589-620, DOI: 10.1007/s10518-015-9761-y
Stirling, M.W. and Zuniga, F.R., 2017. Shape of the magnitude-frequency distribution for the Canterbury earthquake sequence from integration of seismological and geological data, Bull. seism. Soc. Am., 107, 1, 495-500, DOI: 10.1785/0120160246
He, L. and Heki, K., 2017. Ionospheric anomalies immediately before Mw 7.0–8.0 earthquakes, J. geophys. Res.: Space Phys., 122, 8, 8659-8678, DOI: 10.1002/2017ja024012
Tuttle, M.P., Villamor, P., Almond, P., Bastin, S., Giona Bucci, M., Langdridge, R., Clark, K. and Hardwick, C.M., 2017. Liquefaction induced during the 2010-2011 Canterbury, New Zealand, earthquake sequence and lessons learned for the study of paleoliquefaction features, Seismol. Res. Lett., 88, 5, 1403-1414, DOI: 10.1785/0220170073
Quigley, M.C. and Forte, A.M., 2017. Science website traffic in earthquakes, Seismol. Res. Lett., 88, 3, 867-874, DOI: 10.1785/0220160172
Jeong, S. and Bradley, B.A., 2017. Amplification of strong ground motions at Heathcote Valley during the 2010–2011 Canterbury earthquakes: Observation and 1D site response analysis, Soil Dyn. Earthquake Eng., 100, 345-356, DOI: 10.1016/j.soildyn.2017.06.004
Bourke, J.A., Hay-Smith, E.J.C., Snell, D.L. and Schluter, P.J., 2017. Community inclusion of wheelchair users during the long-term recovery phase following the 2010/2011 Canterbury earthquakes, Int. J. Disaster Risk Reduction, 23, 169-177, DOI: 10.1016/j.ijdrr.2017.05.004
Zhu, J., Baise, L.G. and Thompson, E.M., 2017. An updated geospatial liquefaction model for global application, Bull. seism. Soc. Am., 107, 3, 1365-1385, DOI: 10.1785/0120160198
Neighbors, C., Cochran, E.S., Ryan, K.J. and Kaiser, A.E., 2017. Solving for source parameters using nested array data: A case study from the Canterbury, New Zealand earthquake sequence, Pure appl. Geophys., 174, 3, 875-893, DOI: 10.1007/s00024-016-1445-2
Sanchez, J.J. and Maldonado, R.F., 2016. Application of the ESI 2007 Scale to two large earthquakes: South Island, New Zealand (2010 Mw~7.1), and Tohoku, Japan (2011 Mw~9.0), Bull. seism. Soc. Am., 106, 3, 1151-1161, DOI: 10.1785/0120150188
Holden, C. and Kaiser, A., 2016. Stochastic ground motion modelling of the largest Mw 5.9 + aftershocks of the Canterbury 2010–2011 earthquake sequence, N.Z. Jl Geol. Geophys., 59, 1, 187-201, DOI: 10.1080/00288306.2015.1133664
Quigley, M.C., Hughes, M.W., Bradley, B.A., van Ballegooy, S., Reid, C., Morgenroth, J., Horton, T., Duffy, B. and Pettinga, J.R., 2016. The 2010–2011 Canterbury earthquake sequence: environmental effects, seismic triggering thresholds and geologic legacy, Tectonophysics, 672–673, 228-274, DOI: 10.1016/j.tecto.2016.01.044
Markham, C.S., Bray, J.D., Macedo, J. and Luque, R., 2016. Evaluating nonlinear effective stress site response analyses using records from the Canterbury earthquake sequence, Soil Dyn. Earthquake Eng., 82, 84-98, DOI: 10.1016/j.soildyn.2015.12.007
Barnes, P.M., Ghisetti, F.C. and Gorman, A.R., 2016. New insights into the tectonic inversion of North Canterbury and the regional structural context of the 2010–2011 Canterbury earthquake sequence, New Zealand, Geochem. Geophys. Geosyst., 17, 2, 324-345, DOI: 10.1002/2015GC006069
Cubrinovski, M. and Robinson, K., 2016. Lateral spreading: Evidence and interpretation from the 2010–2011 Christchurch earthquakes, Soil Dyn. Earthquake Eng., 91, 187-201, DOI: 10.1016/j.soildyn.2016.09.045
Carter, W.L., Green, R.A., Bradley, B.A., Wotherspoon, L.M. and Cubrinovski, M., 2016. Spatial variation of magnitude scaling factors during the 2010 Darfield and 2011 Christchurch, New Zealand, earthquakes, Soil Dyn. Earthquake Eng., 91, 175-186, DOI: 10.1016/j.soildyn.2016.09.044
Villamor, P., Almond, P., Tuttle, M.P., Giona-Bucci, M., Langridge, R.M., Clark, K., Ries, W., Bastin, S.H., Eger, A., Vandergoes, M., Quigley, M.C., Barker, P., Martin, F. and Howarth, J., 2016. Liquefaction Features Produced by the 2010-2011 Canterbury Earthquake Sequence in Southwest Christchurch, New Zealand, and Preliminary Assessment of Paleoliquefaction Features, Bull. seism. Soc. Am., 106, 4, 1747-1771, DOI: 10.1785/0120150223
Bastin, S.H., Bassett, K., Quigley, M.C., Maurer, B., Green, R.A., Bradley, B. and Jacobson, D., 2016. Late holocene liquefaction at sites of contemporary liquefaction during the 2010-2011 Canterbury earthquake sequence, New Zealand, Bull. seism. Soc. Am., 106, 3, 881-903, DOI: 10.1785/0120150166
Ellis, S., Williams, C., Ristau, J., Reyners, M., Eberhart-Phillips, D. and Wallace, L.M., 2016. Calculating regional stresses for northern Canterbury: the effect of the 2010 Darfield earthquake, N.Z. Jl Geol. Geophys., 59, 1, 202-212, DOI: 10.1080/00288306.2015.1123740
Saunders, W.S.A. and Becker, J.S., 2015. A discussion of resilience and sustainability: Land use planning recovery from the Canterbury earthquake sequence, New Zealand, Int. J. Disaster Risk Reduction, 14, 1, 73-81, DOI: 10.1016/j.ijdrr.2015.01.013
Brown, C., Stevenson, J., Giovinazzi, S., Seville, E. and Vargo, J., 2015. Factors influencing impacts on and recovery trends of organisations: evidence from the 2010/2011 Canterbury earthquakes, Int. J. Disaster Risk Reduction, 14, 1, 56-72, DOI: 10.1016/j.ijdrr.2014.11.009
Potter, S.H., Becker, J.S., Johnston, D.M. and Rossiter, K.P., 2015. An overview of the impacts of the 2010-2011 Canterbury earthquakes, Int. J. Disaster Risk Reduction, 14, 1, 6-14, DOI: 10.1016/j.ijdrr.2015.01.014
Cox, S.C., Menzies, C.D., Sutherland, R., Denys, P.H., Chamberlain, C. and Teagle, D.A.H., 2015. Changes in hot spring temperature and hydrogeology of the Alpine Fault hanging wall, New Zealand, induced by distal South Island earthquakes, Geofluids, 15, 1-2, 216-239, DOI: 10.1111/gfl.12093
Bradley, B.A. and Baker, J.W., 2015. Ground motion directionality in the 2010–2011 Canterbury earthquakes, Earthq. Engng struct. Dyn., 44, 3, 371-384, DOI: 10.1002/eqe.2474
McClure, J., Doyle, E.E.H. and Velluppillai, J.M., 2015. A tale of two cities: Judgments about earthquake and aftershock probabilities across time windows, Int. J. Disaster Risk Reduction, 14, 1, 15-26, DOI: 10.1016/j.ijdrr.2014.11.010
van Ballegooy, S., Green, R.A., Lees, J., Wentz, F. and Maurer, B.W., 2015. Assessment of various CPT based liquefaction severity index frameworks relative to the Ishihara (1985) H1–H2 boundary curves, Soil Dyn. Earthquake Eng., 79, Part B, 347-364, DOI: 10.1016/j.soildyn.2015.08.015
Wotherspoon, L.M., Orense, R.P., Green, R.A., Bradley, B.A., Cox, B.R. and Wood, C.M., 2015. Assessment of liquefaction evaluation procedures and severity index frameworks at Christchurch strong motion stations, Soil Dyn. Earthquake Eng., 79, Part B, 335-346, DOI: 10.1016/j.soildyn.2015.03.022
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