International Seismological CentreOnline Event Bibliography
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Search publication for ISC event 615035032
ISC Event Agency Origin time Lat Lon Depth Magnitude Article_total Event code 615035032 ISC 2016-11-13 11:02:59 -42.67 172.92 16.0 Mw(GCMT) = 7.8 272 KAIKOURA2016
Wang, Z., Wang, D., Wan, Z., Tian, D. and Peng, Y., 2026. Decomposing Earthquake Moment Tensors Using P‐Wave First Motion: Insights Into Global Events With Significant Non‐Double‐Couple Components, Geophys. Res. Lett., 53, 7, e2025GL121541, DOI: 10.1029/2025GL121541
Takla, E.M. and Yoshikawa, A., 2026. ULF signals as earthquake precursors in various tectonic regions, Discover Geoscience, 4, 10, DOI: 10.1007/s44288-026-00386-9
Warren-Smith, E. and Chamberlain, C.J., 2026. Rapid Earthquake Source Characterization Using Real-Time-Matched Filters (RT-EQcorrscan): Application to Aotearoa New Zealand Aftershock Sequences, Seismol. Res. Lett., , DOI: 10.1785/0220250341
Zakka, W.Z. and Bray, J.D., 2026. Performance of a shallow-founded building on liquefiable soil at the port of Wellington during the 2013 and 2016 New Zealand earthquakes, Soil Dyn. Earthquake Eng., 206, 110236, DOI: 10.1016/j.soildyn.2026.110236
Little, T.A., Kearse, J., Kaneko, Y. and Van Dissen, R., 2025. Geometry of curved slickenlines as a function of rupture direction, asperity durability and coseismic roughening of fault surfaces, J. Struct. Geol., 190, 105291, DOI: 10.1016/j.jsg.2024.105291
Gnesko, L., Stahl, T., Mountjoy, J.J. and Carey, J.M., 2025. Transient evidence of shallow coseismic submarine landslides shaping canyon head geomorphology: Insights from the 2016 Kaikōura earthquake, New Zealand, Geology, 53, 12, 1029-1034, DOI: 10.1130/g53867.1
Singeisen, C., Wolter, A., Massey, C., Stahl, T. and Bloom, C., 2025. Unravelling coseismic rock slope failures in closely jointed Torlesse greywacke: Insights from numerical modelling, Engng Geol., 355, 108215, DOI: 10.1016/j.enggeo.2025.108215
Michel, S., Jolivet, R., Klein, E. and Maubant, L., 2025. 14 Years of Slip on the Hikurangi Subduction Zone, J. geophys. Res.: Solid Earth, 130, 7, e2024JB030865, DOI: 10.1029/2024JB030865
Zhang, L., Meng, G. and She, Y., 2025. The Spatiotemporal properties of afterslip following the 2016 Kaikoura earthquake in New Zealand from GPS observations: Its complementary and inherited patterns with coseismic slip, Geophys. J. Int., 242, 2, , DOI: 10.1093/gji/ggae293
Stephenson, W.J., Dickson, M.E., Hurst, M.D., Omidiji, J., Horton, S.L., Litchfield, N.J., Norton, K.P., Matsumoto, H., Krier-Mariani, R.L., Acharya-Chowdhury, L. and McLean, A.D., 2025. Are Holocene coseismic marine terrace sequences complete paleoseismic records? Rapid erosion of a new marine terrace created during the 2016 Mw 7.8 Kaikōura earthquake suggests not!, Geology, 53, 10, 809-814, DOI: 10.1130/g53244.1
Fieman, D.M., Howarth, J., Norton, K., Duvall, A., Lukens, C.E., Jones, K., Wilcken, K., Williams, S. and Stone, J., 2025. Tracking landslide sediment: 10Be dilution of detrital quartz in multiple grain sizes following the 2016 Mw 7.8 Kaikōura earthquake, New Zealand, Earth Surf. Processes Landforms, 50, 8, , DOI: 10.1002/esp.70050
Jones, K.E., Howarth, J.D., Massey, C.I., Luković, B., Sirguey, P., Singeisen, C., Gasston, C., Morgenstern, R. and Ries, W., 2025. An alternative to landslide volume-area scaling relationships: an ensemble approach adopting a difference model to estimate the total volume of landsliding triggered by the 2016 Kaikōura earthquake, New Zealand, Landslides, 22, 7, 2219-2236, DOI: 10.1007/s10346-025-02479-x
Whitehead, N.E. and Ulusoy, U., 2025. New Insights into Earthquake Light: Rayleigh Scattering as the Source of Blue Hue and a Novel Co-Seismic Cloud Phenomenon, Atmosphere, 16, 3, 277, DOI: 10.3390/atmos16030277
Lestari, D.S., Cahyadi, M.N., Muslim, B., Muafiry, I.N., Wulansari, M., Kurniawan, A. and Arisa, D., 2025. Analysis of ionospheric disturbances due to earthquakes using 3D tomography models to test the height maximum of CID correlation in various regions, Geodesy and Geodynamics, 16, 4, 387-402, DOI: 10.1016/j.geog.2024.11.004
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
Singeisen, C., Massey, C., Wolter, A., Stahl, T., Kellett, R., Bruce, Z., Bloom, C. and Mason, D., 2024. Evolution of an earthquake-induced landslide complex in the South Island of New Zealand: How fault damage zones and seismicity contribute to slope failures, Geosphere, 20, 1, 267-289, DOI: 10.1130/ges02668.1
Mostafa, M., Hogan, L., Stephens, M.T., Olsen, M.J. and Elwood, K.J., 2024. A detailed damage investigation of an instrumented ductile reinforced concrete building following the M-7.8 Kaikoura earthquake, Earthq. Spectra, 40, 3, 2179-2209, DOI: 10.1177/87552930231218750
Hayward, B.W., Sabaa, A.T., Howarth, J.D., Orpin, A.R. and Strachan, L.J., 2024. Foraminiferal evidence for the provenance and flow history of turbidity currents triggered by the 2016 Kaikōura Earthquake, New Zealand, N.Z. Jl Geol. Geophys., 67, 3, 336-349, DOI: 10.1080/00288306.2022.2103157
Tunnicliffe, J., Howarth, J. and Massey, C., 2024. Controls on fluvial sediment evacuation following an earthquake-triggered landslide: Observations from LiDAR time series, Science Advances, 10, eadi5560, DOI: 10.1126/sciadv.adi5560
Nath, B., Zhao, W., Niu, Z., Wang, L., Xu, S., Acharjee, S. and Mitra, A.K., 2024. Changes observed in land surface and air temperature after the Yushu (China) (6.9 Mw) and Kaikoura (New Zealand) (7.8 Mw) earthquakes using Landsat thermal and geophysical datasets, J. Earth Syst. Sci., 133, , DOI: 10.1007/s12040-024-02441-w
Wang, K., Hu, Y. and Zhang, J., 2024. Rheological Structure and Stress Triggered Megathrust Slip Constrained From the 2016 Mw 7.8 Kaikōura Crustal Earthquake, J. geophys. Res.: Solid Earth, 129, 11, e2024JB029017, DOI: 10.1029/2024JB029017
Inchin, P.A., Kaneko, Y., Gabriel, A., Ulrich, T., Martire, L., Komjathy, A., Aguilar Guerrero, J., Zettergren, M.D. and Snively, J.B., 2024. Three‐Dimensional Numerical Modeling of Coseismic Atmospheric Dynamics and Ionospheric Responses in Slant Total Electron Content Observations, Geophys. Res. Lett., 51, 21, e2023GL108068, DOI: 10.1029/2023GL108068
Stein, R.S. and Bird, P., 2024. Why Do Great Continental Transform Earthquakes Nucleate on Branch Faults?, Seismol. Res. Lett., 95, 6, 3406-3415, DOI: 10.1785/0220240175
Okada, T., Matsuno, M., Matsumoto, S., Kawamura, Y., Iio, Y., Sato, T., Tagami, A., Hirahara, S., Kimura, S., Bannister, S., Ristau, J., Savage, M.K., Thurber, C.H. and Sibson, R.H., 2024. Complexity of the 2016 M 7.8 Kaikōura, New Zealand, earthquake from seismic observation: Inferences of overpressured fluid involvement, Phys. Earth planet. Interiors, 348, 107155, DOI: 10.1016/j.pepi.2024.107155
Maier, K.L., Strachan, L.J., Tickle, S., Orpin, A.R., Nodder, S.D. and Howarth, J., 2024. Testing turbidite conceptual models with the Kaikōura Earthquake co-seismic event bed, Aotearoa New Zealand, J. Sediment. Res., 94, 3, 325-333, DOI: 10.2110/jsr.2023.115
Qiu, H., Su, L., Tang, B., Yang, D., Ullah, M., Zhu, Y. and Kamp, U., 2024. The effect of location and geometric properties of landslides caused by rainstorms and earthquakes, Earth Surf. Processes Landforms, 49, 7, 2067-2079, DOI: 10.1002/esp.5816
Wang, L. and Zou, A., 2024. Retrieving 3D Coseismic Deformation of 2016 Mw 7.8 Kaikoura Earthquake Using SAR and Optical Data, Geomatics Information Sci. Wuhan Univ., 49, 2, 303-312, DOI: 10.13203/j.whugis20210352
Schuler, J., Hreinsdóttir, S., Illsley‐Kemp, F., Holden, C., Townend, J. and Villamor, P., 2024. The Response of Taupō Volcano to the M7.8 Kaikōura Earthquake, J. geophys. Res.: Solid Earth, 129, 5, e2023JB028585, DOI: 10.1029/2023JB028585
Tan, F., Kao, H., Yi, K.M., Nissen, E., Goerzen, C., Hutchinson, J., Gao, D. and Farahbod, A.M., 2024. Next Generation Seismic Source Detection by Computer Vision: Untangling the Complexity of the 2016 Kaikōura Earthquake Sequence, J. geophys. Res.: Solid Earth, 129, 5, e2024JB028735, DOI: 10.1029/2024JB028735
Peters, S., Liu, J., Keppel, G., Wendleder, A. and Xu, P., 2024. Detecting Coseismic Landslides in GEE Using Machine Learning Algorithms on Combined Optical and Radar Imagery, Remote Sensing, 16, 10, 1722, DOI: 10.3390/rs16101722
Mason, D. and Brabhaharan, P., 2024. Lessons from the 2016 Kaikōura earthquake for design of cut and fill slopes in New Zealand, Japanese Geotech. Soc. Spec. Pub., 10, 44, 1641-1646, DOI: 10.3208/jgssp.v10.os-33-02
Scott, C., Kottke, A., Madugo, C., Arrowsmith, J.R., Adam, R. and Zuckerman, M., 2024. Tectonic Landform and Lithologic Age Impact Uncertainties in Fault Displacement Hazard Models, Geophys. Res. Lett., 51, 16, e2024GL109145, DOI: 10.1029/2024GL109145
Wu, H., Xiong, P., Chen, J., Zhang, X. and Yang, X., 2024. Identifying Seismic Anomalies via Wavelet Maxima Analysis of Satellite Microwave Brightness Temperature Observations, Remote Sensing, 16, 2, 303, DOI: 10.3390/rs16020303
Simha, C.P., Natarajan, V., Dumka, R. and Rao, K.M., 2023. Spatial and temporal behaviour of Ionospheric VTEC and Atmospheric parameters before New Zealand earthquake on 13th November 2016 (M 7.8), J. Appl. Geophys., 212, 104989, DOI: 10.1016/j.jappgeo.2023.104989
Wang, J.-M., Liang, Y.-Y., Sun, Q., Zhang, X., Wang, L., Wu, S., Li, X. and Yin, H., 2023. Multi-Point-Source Describing Large Earthquake Based on Rupture Process Inversion and Image Segmentation, J. Earthq. Tsunami, 17, 04, 2350011, DOI: 10.1142/s1793431123500112
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
Chigullapally, P., Wotherspoon, L., Stephens, M.T. and Hogan, L.S., 2023. Recorded and modeled response of the Thorndon Overbridge during multiple earthquakes, Earthq. Spectra, 39, 4, 2019-2041, DOI: 10.1177/87552930231198243
Bloom, C.K., Singeisen, C., Stahl, T., Howell, A., Massey, C. and Mason, D., 2023. Coastal earthquake-induced landslide susceptibility during the 2016 Mw 7.8 Kaikōura earthquake, New Zealand, Nat. Hazards Earth Syst. Sci., 23, 9, 2987-3013, DOI: 10.5194/nhess-23-2987-2023
Towhata, I., 2023. Risk of coseismic and post-seismic slope instabilities in relation with existing or causative faults, Soil Dyn. Earthquake Eng., 173, 108091, DOI: 10.1016/j.soildyn.2023.108091
Anupama, M. and Sunil, P.S., 2023. Pre- and Post-seismic Crustal Stress Heterogeneity Analogous to 14 November 2016, Mw 7.8, Kaikoura Earthquake, New Zealand, Pure appl. Geophys., 180, 7, 2511-2528, DOI: 10.1007/s00024-023-03308-9
Ohara, K., Yagi, Y., Yamashita, S., Okuwaki, R., Hirano, S. and Fukahata, Y., 2023. Complex evolution of the 2016 Kaikoura earthquake revealed by teleseismic body waves, Prog. Earth Planet. Sci., 10, 35, DOI: 10.1186/s40645-023-00565-z
Scott, C., Adam, R., Arrowsmith, R., Madugo, C., Powell, J., Ford, J., Gray, B., Koehler, R., Thompson, S., Sarmiento, A., Dawson, T., Kottke, A., Young, E., Williams, A., Kozaci, O., Oskin, M., Burgette, R., Streig, A., Seitz, G., Page, W., Badin, C., Carnes, L., Giblin, J., McNeil, J., Graham, J., Chupik, D. and Ingersoll, S., 2023. Evaluating how well active fault mapping predicts earthquake surface-rupture locations, Geosphere, 19, 4, 1128-1156, DOI: 10.1130/ges02611.1
Moreno, M., Steger, S., Tanyas, H. and Lombardo, L., 2023. Modeling the area of co-seismic landslides via data-driven models: The Kaikōura example, Engng Geol., 320, 107121, DOI: 10.1016/j.enggeo.2023.107121
Berryman, K., Rattenbury, M., Bannister, S., Ellis, S., Villamor, P., Eberhart-Phillips, D., Upton, P. and Howell, A., 2023. Geological structure informs rupture propagation and surface rupture complexity during the 2016 Kaikōura earthquake, New Zealand: insights for future large earthquake hazard, Turkish J. Earth Sci., 32, 3, 330-350, DOI: 10.55730/1300-0985.1848
Brough, T., Nicol, A., Stahl, T., Pettinga, J.R., Dissen, R.V., Clark, D., Khajavi, N., Pedley, K., Langridge, R. and Wang, N., 2023. Paleoseismicity of the western Humps fault on the Emu Plain, North Canterbury, New Zealand, N.Z. Jl Geol. Geophys., 66, 2, 279-292, DOI: 10.1080/00288306.2021.1986727
Morris, P., Little, T., Van Dissen, R., Hill, M., Hemphill-Haley, M., Kearse, J. and Norton, K., 2023. Evaluating 9 m of near-surface transpressional displacement during the Mw 7.8 2016 Kaikōura earthquake: re-excavation of a pre-earthquake paleoseismic trench, Kekerengu Fault, New Zealand, N.Z. Jl Geol. Geophys., 66, 2, 244-262, DOI: 10.1080/00288306.2021.1954958
MacDonald, K.E., Hart, D.E. and Pitman, S.J., 2023. Geomorphic responses of uplifted mixed sand and gravel beaches: combining short-term observations from Kaikōura, New Zealand with longer-term evidence, N.Z. Jl Geol. Geophys., 66, 2, 228-243, DOI: 10.1080/00288306.2021.1994425
Bloom, C., Stahl, T. and Howell, A., 2023. Distributed displacement on the Papatea fault from the 2016 Mw 7.8 Kaikōura earthquake and implications for hazard planning, N.Z. Jl Geol. Geophys., 66, 2, 217-227, DOI: 10.1080/00288306.2021.1975777
Becker, J.S., Blake, D., Thompson, J., Vinnell, L.J. and Doyle, E.E.H., 2023. Communicating evacuation information to multi-storey apartment dwellers: a case study of the 2016 Kaikōura earthquake in Te Whanganui-a-Tara (Wellington), Aotearoa New Zealand, N.Z. Jl Geol. Geophys., 66, 2, 177-191, DOI: 10.1080/00288306.2022.2135544
Fountain, J. and Cradock-Henry, N.A., 2023. We’re all in this together? Community resilience and recovery in Kaikōura following the 2016 Kaikōura-Hurunui earthquake, N.Z. Jl Geol. Geophys., 66, 2, 162-176, DOI: 10.1080/00288306.2023.2167842
Lane, E.M., Thomas, K.-L., King, D.N., Williams, S., Borrero, J., Power, W. and Gusman, A., 2023. Five years after the 14 November 2016 Kaikōura Tsunami in Aotearoa-New Zealand: insights from recent research, N.Z. Jl Geol. Geophys., 66, 2, 147-161, DOI: 10.1080/00288306.2021.1951307
Nicol, A., Howell, A., Litchfield, N., Wilson, T., Bannister, S. and Massey, C., 2023. Introduction to the Kaikōura earthquake special issue, N.Z. Jl Geol. Geophys., 66, 2, 137-146, DOI: 10.1080/00288306.2023.2197240
McEwan, E., Stahl, T., Howell, A., Langridge, R. and Wilson, M., 2023. Coseismic river avulsion on surface rupturing faults: Assessing earthquake-induced flood hazard, Science Advances, 9, 18, eadd2932, DOI: 10.1126/sciadv.add2932
Chiama, K., Chauvin, B., Plesch, A., Moss, R. and Shaw, J.H., 2023. Geomechanical Modeling of Ground Surface Deformation Associated with Thrust and Reverse-Fault Earthquakes: A Distinct Element Approach, Bull. seism. Soc. Am., 113, 4, 1702-1723, DOI: 10.1785/0120220264
Herman, M.W., Furlong, K.P. and Benz, H.M., 2023. Substantial upper plate faulting above a shallow subduction megathrust earthquake: Mechanics and implications of the surface faulting during the 2016 Kaikoura, New Zealand, earthquake, Tectonics, 42, 5, e2022TC007645, DOI: 10.1029/2022TC007645
Cao, Y., Hamling, I., Massey, C. and Upton, P., 2023. Slow‐Moving Landslides Triggered by the 2016 Mw 7.8 Kaikōura Earthquake, New Zealand: A New InSAR Phase‐Gradient Based Time‐Series Approach, Geophys. Res. Lett., 50, 4, e2022GL102064, DOI: 10.1029/2022GL102064
Gerstenberger, M.C., Rhoades, D.A., Litchfield, N., Abbott, E., Goded, T., Christophersen, A., Van Dissen, R.J., Bannister, S., Barrell, D., Bruce, Z., Fry, B., Hamling, I., Holden, C., Horspool, N., Kaiser, A.E., Kaneko, Y., Langridge, R.M., Little, T.A., Lukovic, B., McBride, S.K., McVerry, G.H., Nicol, A., Perrin, N., Pettinga, J., Stirling, M.W., Houtte, C.V. and Wallace, L., 2023. A time-dependent seismic hazard model following the Kaikōura M7.8 earthquake, N.Z. Jl Geol. Geophys., 66, 2, 192-216, DOI: 10.1080/00288306.2022.2158881
Zhao, H., Jia, Y., Chen, W., Kang, D. and Zhang, C., 2023. Rapid mapping of seismic intensity assessment using ground motion data calculated from early aftershocks selected by GIS spatial analysis, Geomatics Natural Hazards Risk, 14, 1, 1-21, DOI: 10.1080/19475705.2022.2160663
Barrell, D.J.A., Stirling, M.W., Williams, J.N., Sauer, K.M. and van den Berg, E.J., 2023. Hundalee Fault, North Canterbury, New Zealand: late Quaternary activity and regional tectonics, N.Z. Jl Geol. Geophys., 66, 2, 293-316, DOI: 10.1080/00288306.2022.2153877
Trugman, D.T., Chamberlain, C.J., Savvaidis, A. and Lomax, A., 2023. GrowClust3D.jl: A Julia Package for the Relative Relocation of Earthquake Hypocenters Using 3D Velocity Models, Seismol. Res. Lett., 94, 1, 443-456, DOI: 10.1785/0220220193
Langridge, R.M., Clark, K.J., Almond, P., Baize, S., Howell, A., Kearse, J., Morgenstern, R., Deuss, K., Nissen, E., García-Mayordomo, J. and Amos, C., 2023. Late Holocene earthquakes on the Papatea Fault and its role in past earthquake cycles, Marlborough, New Zealand, N.Z. Jl Geol. Geophys., 66, 2, 317-341, DOI: 10.1080/00288306.2022.2117829
Chen, C., Lin, X., Li, W., Cheng, L., Wang, H., Zhang, Q. and Wang, Z., 2023. Adaptive colored noise multi-rate Kalman filter and its application in coseismic deformations, Geophys. J. Int., 234, 2, 1236-1253, DOI: 10.1093/gji/ggad117
Morris, P., Little, T., Van Dissen, R., Hemphill-Haley, M., Kearse, J., Hill, M., Vermeer, J. and Norton, K., 2023. A revised paleoseismological record of late Holocene ruptures on the Kekerengu Fault following the 2016 Kaikōura earthquake, N.Z. Jl Geol. Geophys., 66, 2, 342-363, DOI: 10.1080/00288306.2022.2059766
Nicol, A., Begg, J., Saltogianni, V., Mouslopoulou, V., Oncken, O. and Howell, A., 2023. Uplift and fault slip during the 2016 Kaikōura Earthquake and Late Quaternary, Kaikōura Peninsula, New Zealand, N.Z. Jl Geol. Geophys., 66, 2, 263-278, DOI: 10.1080/00288306.2021.2021955
Reitman, N.G., Mueller, K.J. and Tucker, G.E., 2022. Surface slip variability on strike‐slip faults, Earth Surf. Processes Landforms, 47, 4, 908-935, DOI: 10.1002/esp.5294
Singeisen, C., Massey, C., Wolter, A., Kellett, R., Bloom, C., Stahl, T., Gasston, C. and Jones, K., 2022. Mechanisms of rock slope failures triggered by the 2016 Mw 7.8 Kaikōura earthquake and implications for landslide susceptibility, Geomorphology, 415, 108386, DOI: 10.1016/j.geomorph.2022.108386
Horton, S.L., Dickson, M.E. and Stephenson, W.J., 2022. The consequences of uplift on wave transformation across a shore platform, Kaikōura, New Zealand, Mar. Geol., 451, 106888, DOI: 10.1016/j.margeo.2022.106888
Vinnell, L.J., Inch, P., Johnston, D.M. and Horspool, N., 2022. Behavioral responses to earthquake shaking: Video footage analysis of the 2016 Kaikōura earthquake in Wellington, Aotearoa New Zealand, Earthq. Spectra, 38, 3, 1636-1660, DOI: 10.1177/87552930221086303
Zheng, J., Fang, R., Li, M., Lv, H. and Liu, J., 2022. Line‐Source Model based Rapid Inversion for Deriving Large Earthquake Rupture Characteristics using High‐rate GNSS Observations, Geophys. Res. Lett., 49, 5, e2021GL097460, DOI: 10.1029/2021GL097460
Inchin, P.A., Guerrero, J.A., Snively, J.B. and Kaneko, Y., 2022. Simulation of infrasonic acoustic wave imprints on airglow layers during the 2016 M7.8 Kaikoura earthquake, J. geophys. Res.: Space Phys., 127, 3, e2021JA029529, DOI: 10.1029/2021JA029529
Churchill, R.M., Werner, M.J., Biggs, J. and Fagereng, Å., 2022. Afterslip Moment Scaling and Variability from a Global Compilation of Estimates, J. geophys. Res.: Solid Earth, 127, 4, e2021JB023897, DOI: 10.1029/2021jb023897
Carey, J.M., Mountjoy, J.J., Crutchley, G.J., Petley, D.N., Holden, C.F., Kaneko, Y. and Huhn, K., 2022. Episodic movement of a submarine landslide complex driven by dynamic loading during earthquakes, Geomorphology, 408, 108247, DOI: 10.1016/j.geomorph.2022.108247
Walbert, O.L. and Hetland, E.A., 2022. Bayesian Inference of Seismogenic Stress for the 2016 Mw 7.8 Kaikōura, New Zealand, Earthquake, Bull. seism. Soc. Am., 112, 4, 1894-1907, DOI: 10.1785/0120210173
Liu, J., Zhang, G., Wang, J., Sun, G., Zhang, Y., Wang, Y., Qu, C. and Shan, X., 2022. Three-dimensional coseismic deformation of the 2016 MW 7.8 Kaikuora, New Zealand earthquake obtained by InSAR and offsets measurements, Geodesy and Geodynamics, 13, 5, 415-426, DOI: 10.1016/j.geog.2022.02.004
Matsuno, M., Tagami, A., Okada, T., Matsumoto, S., Kawamura, Y., Iio, Y., Sato, T., Nakayama, T., Hirahara, S., Bannister, S., Ristau, J., Savage, M.K., Thurber, C.H. and Sibson, R.H., 2022. Spatial and temporal stress field changes in the focal area of the 2016 Kaikōura earthquake, New Zealand: A multi-fault process interpretation, Tectonophysics, 835, 229390, DOI: 10.1016/j.tecto.2022.229390
Tanyaş, H., Görüm, T., Fadel, I., Yıldırım, C. and Lombardo, L., 2022. An open dataset for landslides triggered by the 2016 Mw 7.8 Kaikōura earthquake, New Zealand, Landslides, 19, 6, 1405-1420, DOI: 10.1007/s10346-022-01869-9
Horton, S.L., Stephenson, W.J. and Dickson, M.E., 2022. Changes in Shore Platform Wetting and Drying Cycles Following the 2016 Kaikōura Earthquake: Implications for Incipient Marine Terrace Evolution, Earth Surf. Processes Landforms, 47, 12, 2972-2988, DOI: 10.1002/esp.5438
Meade, B.J., 2022. Interseismic Masking of Fault Slip Deficit Rates by Earthquake Cycle Processes and Local Block Rotations, Seismol. Res. Lett., 93, 5, 2770-2775, DOI: 10.1785/0220220027
Abad, L., Hölbling, D., Spiekermann, R., Prasicek, G., Dabiri, Z. and Argentin, A.-L., 2022. Detecting landslide-dammed lakes on Sentinel-2 imagery and monitoring their spatio-temporal evolution following the Kaikōura earthquake in New Zealand, Sci. Total Environ., 820, 153335, DOI: 10.1016/j.scitotenv.2022.153335
Churchill, R.M., Werner, M.J., Biggs, J. and Fagereng, Å., 2022. Relative Afterslip Moment does not correlate with Aftershock Productivity: Implications for the relationship between Afterslip and Aftershocks, Geophys. Res. Lett., 49, 24, e2022GL101165, DOI: 10.1029/2022GL101165
Lin, A., Wotherspoon, L. and Motha, J., 2022. Evaluation of a geospatial liquefaction model using land damage data from the 2016 Kaikōura earthquake, Bull. N.Z. Soc. Earthq. Engng, 55, 4, 199-213, DOI: 10.5459/bnzsee.55.4.199-213
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