GEOMAR  Wallace, Laura M.

Prof. Dr. Laura M. Wallace

Laura Wallace

Helmholtz Distinguished Professur für Geodynamik
Topic 3
FB 4: Dynamik des Ozeanbodens
FE: Marine Geodynamik

Büro:
Raum: 8D-219
Tel.: +49 431 600 2241
E-Mail: lwallace(at)geomar.de

Adresse:
Wischhofstraße 1-3
24148 Kiel

 

 

Assistenz:
Ines Staben
Tel.: +49 431 600 2243
E-Mail: istaben(at)geomar.de

Forschungsschwerpunkte

Laura Wallace verwendet geodätische Methoden, um die Deformation der Erdkruste an tektonischen Plattengrenzen zu untersuchen. Sie forscht an verschiedenen Orten, unter anderem in Neuseeland, Papua-Neuguinea, auf den Salomonen und in Japan. Ihr besonderer Schwerpunkt liegt auf dem Verständnis des Spektrums von Deformationsprozessen, die während des Erdbebenzyklus an Plattengrenzen von Subduktionszonen auftreten. Sie verwendet sowohl landgestützte GNSS-Methoden als auch geodätische Methoden am Meeresboden (Meeresbodendruck, GNSS-Akustik, IODP-Bohrlochobservatorien), um eine Reihe von Deformationsprozessen in der Kruste zu untersuchen.

Sie hat auch ein großes Interesse daran, multidisziplinäre Beobachtungen zu nutzen, um neue Erkenntnisse über die physikalischen Prozesse zu gewinnen, die für die geodätisch beobachtete aktive Deformation verantwortlich sind, und hat mehrere große, multidisziplinäre Experimente geleitet. Im Jahr 2018 war Laura Walalce Co-Leiterin der IODP-Expedition 375 an Bord des wissenschaftlichen Bohrschiffs JOIDES Resolution. Die Expedition untersuchte die Ursachen der Langsamgleit-Ereignisse von Hikurangi und sammelte Kernproben und geophysikalische Protokolle von Gesteinen, die an der Entstehung von Langsamgleit-Ereignissen in der neuseeländischen Hikurangi-Subduktionszone beteiligt sind, und installierte Observatorien unter dem Meeresboden, um Veränderungen in der Kruste während des Langsamgleit-Zyklus zu überwachen. Außerdem leitete sie 2014 das HOBITSS-Projekt (Hikurangi Ocean Bottom Investigation of Tremor and Slow Slip), das erste Experiment, bei dem Drucksensoren am Meeresboden erfolgreich eingesetzt wurden, um langsame Gleitvorgänge an einer Offshore-Subduktionszone zu untersuchen.

Seit 2023 hat Laura eine Helmholtz-Distinguished-Professur (HDP) für Geodynamik inne, die Teil der Forschungseinheit Marine Geodynamik ist. Sie arbeitet mit dem Institut für Geophysik der University of Texas zusammen.

Topics

Tektonik, Krustenverformung, Erdbebenzyklus, Subduktionszonen sowie seismische und Tsunami-Gefahr

 

Projekte

  • 2025-2030: SAFATOR (SMART Cables And Fiber-optic Sensing Amphibious Demonstrator)

  • 2022-2026: GONDOR (Geophysical Observations of Near-Trench Deformation and Oceanographic References (International funding: New Zealand, Germany, Japan, United States)

  • 2021-2026: SMART Subsea Cables

  • 2021-2026: Unraveling the habitat and dynamics of slow slip events through integrated borehole observations in the northern Hikurangi subduction margin (U.S. NSF Funded)

  • 2020-2026: MTMOD (Megathrust Modeling Framework) (U.S. NSF Funded)

  • 2020-2025: PULSE (Physical Process UnderLying Slow Earthquakes) (New Zealand Marsden Fund)

Vita

Forschung

seit 2023:
Helmholtz Distinguished Professur (HDP) für Geodynamik am GEOMAR Helmholtz-Zentrum für Ozeanforschung Kiel
seit 2016-2023:
Leitende Wissenschaftlerin bei GNS Science, Neuseeland
seit 2012:
Wissenschaftliche Mitarbeiterin an der Universität von Texas, Institut für Geophysik, Austin, USA
2007-2012:
Leitendende Forschungsgeophysikerin (bei ihrem Ausscheiden im Jahr 2012 auf der Stufe Senior Scientist II), GNS Science, Lower Hutt, Neuseeland  
2002-2012:
Wissenschaftlerin (leitende Wissenschaftlerin von 2007-2012), GNS Science, Lower Hutt, Neuseeland

Ausbildung

2002:
PhD., Geowissenschaften, Universität von Kalifornien, Santa Cruz (Betreuer: Eli Silver)
Dissertation: Tektonik und 'arc-continent'-Kollision in Papua-Neuguinea: Neue Erkenntnisse aus geodätischen, geophysikalischen und seismologischen Daten
1995:
B.S. (mit Auszeichnung), Geologie, Universität von North Carolina-Chapel Hill

Publikationen (OceanRep)

Jump to: Articles in a Scientific Journal - peer-reviewed | Articles in a Scientific Journal - without review | Book chapters | Conference papers | Reports - Cruise Reports | Award | Committee
Number of items: 157.

Articles in a Scientific Journal - peer-reviewed

[thumbnail of JGR Solid Earth - 2024 - Aden‐Antoniów - Low‐Frequency Earthquakes Downdip of Deep Slow Slip Beneath the North Island of.pdf] [thumbnail of 2023jb027971-sup-0001-supporting information si-s01.pdf]

Aden‐Antoniów, F., Frank, W. B., Chamberlain, C. J., Townend, J., Wallace, L. M. and Bannister, S. (2024) Low‐Frequency Earthquakes Downdip of Deep Slow Slip Beneath the North Island of New Zealand. Open Access Journal of Geophysical Research: Solid Earth, 129 (5). e2023JB027971. DOI 10.1029/2023JB027971.

[thumbnail of science.aan3120.pdf]

Araki, E., Saffer, D. M., Kopf, A. J., Wallace, L. M. , Kimura, T., Machida, Y., Ide, S. and Davis, E. (2017) Recurring and triggered slow-slip events near the trench at the Nankai Trough subduction megathrust. Science, 356 (6343). pp. 1157-1160. DOI 10.1126/science.aan3120.

[thumbnail of Arnulf.pdf] [thumbnail of Supplementary information]

Arnulf, A. F., Biemiller, J., Lavier, L., Wallace, L. M. , Bassett, D., Henrys, S., Pecher, I., Crutchley, G. and Plaza Faverola, A. (2021) Physical conditions and frictional properties in the source region of a slow-slip event. Nature Geoscience, 14 (5). pp. 334-340. DOI 10.1038/s41561-021-00741-0.

[thumbnail of Geophysical Research Letters - 2018 - Barker - Geophysical Constraints on the Relationship Between Seamount Subduction .pdf]

Barker, D. H. N., Henrys, S., Caratori Tontini, F., Barnes, P. M., Bassett, D., Todd, E. and Wallace, L. M. (2018) Geophysical Constraints on the Relationship Between Seamount Subduction, Slow Slip, and Tremor at the North Hikurangi Subduction Zone, New Zealand. Open Access Geophysical Research Letters, 45 (23). 12,804-12,813. DOI 10.1029/2018GL080259.

[thumbnail of 642.pdf]

Barnes, J. D., Cullen, J., Barker, S., Agostini, S., Penniston-Dorland, S., Lassiter, J. C., Klügel, A. and Wallace, L. M. (2019) The role of the upper plate in controlling fluid-mobile element (Cl, Li, B) cycling through subduction zones: Hikurangi forearc, New Zealand. Open Access Geosphere, 15 (3). pp. 642-658. DOI 10.1130/GES02057.1.

[thumbnail of eaay3314.full.pdf]

Barnes, P. M., Wallace, L. M. , Saffer, D. M., Bell, R. E., Underwood, M. B., Fagereng, A., Meneghini, F., Savage, H. M., Rabinowitz, H. S., Morgan, J. K., Kitajima, H., Kutterolf, S. , Hashimoto, Y., Engelmann de Oliveira, C. H., Noda, A., Crundwell, M. P., Shepherd, C. L., Woodhouse, A. D., Harris, R. N., Wang, M., Henrys, S., Barker, D. H. N., Petronotis, K. E., Bourlange, S. M., Clennell, M. B., Cook, A. E., Dugan, B. E., Elger, J. , Fulton, P. M., Gamboa, D., Greve, A., Han, S., Hüpers, A., Ikari, M. J., Ito, Y., Kim, G. Y., Koge, H., Lee, H., Li, X., Luo, M., Malie, P. R., Moore, G. F., Mountjoy, J. J., McNamara, D. D., Paganoni, M., Screaton, E. J., Shankar, U., Shreedharan, S., Solomon, E. A., Wang, X., Wu, H. Y., Pecher, I. A. and LeVay, L. J. (2020) Slow slip source characterized by lithological and geometric heterogeneity. Open Access Science Advances, 6 (13). eaay3314. DOI 10.1126/sciadv.aay3314.

[thumbnail of JGR Solid Earth - 2014 - Bartlow - Time‐dependent modeling of slow slip events and associated seismicity and tremor at the.pdf]

Bartlow, N. M., Wallace, L. M. , Beavan, R. J., Bannister, S. and Segall, P. (2014) Time-dependent modeling of slow slip events and associated seismicity and tremor at the Hikurangi subduction zone, New Zealand. Journal of Geophysical Research: Solid Earth, 119 (1). pp. 734-753. DOI 10.1002/2013JB010609.

[thumbnail of Geophysical Research Letters - 2022 - Bassett - Crustal Structure of the Hikurangi Margin From SHIRE Seismic Data and the.pdf]

Bassett, D., Arnulf, A., Henrys, S., Barker, D., van Avendonk, H., Bangs, N., Kodaira, S., Seebeck, H., Wallace, L. M. , Gase, A., Luckie, T., Jacobs, K., Tozer, B., Arai, R., Okaya, D., Mochizuki, K., Fujie, G. and Yamamoto, Y. (2022) Crustal Structure of the Hikurangi Margin From SHIRE Seismic Data and the Relationship Between Forearc Structure and Shallow Megathrust Slip Behavior. Open Access Geophysical Research Letters, 49 (2). Art.Nr.: e2021GL096960. DOI 10.1029/2021GL096960.

[thumbnail of s41561-024-01617-9.pdf]

Bassett, D., Shillington, D. J., Wallace, L. M. and Elliott, J. L. (2025) Variation in slip behaviour along megathrusts controlled by multiple physical properties. Nature Geoscience, 18 (1). pp. 20-31. DOI 10.1038/s41561-024-01617-9.

[thumbnail of _43(4)0228.pdf]

Beavan, J., Samsonov, S., Motagh, M., Wallace, L. M. , Ellis, S. and Palmer, N. (2010) The darfield (canterbury) earthquake: Geodetic observations and preliminary source model. Open Access Bulletin of the New Zealand Society for Earthquake Engineering, 43 (4). pp. 228-235. DOI 10.5459/bnzsee.43.4.228-235.

[thumbnail of New Zealand GPS velocity field 1995 2013.pdf]

Beavan, J., Wallace, L. M. , Palmer, N., Denys, P., Ellis, S., Fournier, N., Hreinsdottir, S., Pearson, C. and Denham, M. (2016) New Zealand GPS velocity field: 1995-2013. New Zealand Journal of Geology and Geophysics, 59 (1). pp. 5-14. DOI 10.1080/00288306.2015.1112817.

[thumbnail of GSATG354A.pdf]

Bebout, G. E., Scholl, D. W., Stern, R. J., Wallace, L. M. and Agard, P. (2018) Twenty years of subduction zone science: Subduction top to bottom 2 (ST2B-2). Open Access GSA Today, 28 (2). pp. 4-10. DOI 10.1130/GSATG354A.1.

[thumbnail of JGR Solid Earth - 2022 - Behboudi - Spatial Variation of Shallow Stress Orientation Along the Hikurangi Subduction Margin .pdf]

Behboudi, E., McNamara, D. D., Lokmer, I., Wallace, L. M. and Saffer, D. M. (2022) Spatial Variation of Shallow Stress Orientation Along the Hikurangi Subduction Margin: Insights From In-Situ Borehole Image Logging. Open Access Journal of Geophysical Research: Solid Earth, 127 (5). Art.Nr.:e2021JB023641. DOI doi: 10.1029/2021JB023641.

[thumbnail of 180-1-34.pdf]

Bell, R., Sutherland, R., Barker, D. H. N., Henrys, S., Bannister, S., Wallace, L. M. and Beavan, J. (2010) Seismic reflection character of the Hikurangi subduction interface, New Zealand, in the region of repeated Gisborne slow slip events. Geophysical Journal International, 180 (1). pp. 34-48. DOI 10.1111/j.1365-246X.2009.04401.x.

[thumbnail of JGR Solid Earth - 2020 - Biemiller - Mechanical Implications of Creep and Partial Coupling on the World s Fastest Slipping.pdf]

Biemiller, J., Boulton, C., Wallace, L. M. , Ellis, S., Little, T., Mizera, M., Niemeijer, A. and Lavier, L. (2020) Mechanical Implications of Creep and Partial Coupling on the World's Fastest Slipping Low-Angle Normal Fault in Southeastern Papua New Guinea. Journal of Geophysical Research: Solid Earth, 125 (10). Art.Nr.: e2020JB020117. DOI 10.1029/2020JB020117.

[thumbnail of Tectonics - 2019 - Biemiller - Tectonic Inheritance Following Failed Continental Subduction A Model for Core Complex.pdf]

Biemiller, J., Ellis, S., Mizera, M., Little, T., Wallace, L. M. and Lavier, L. (2019) Tectonic Inheritance Following Failed Continental Subduction: A Model for Core Complex Formation in Cold, Strong Lithosphere. Tectonics, 38 (5). pp. 1742-1763. DOI 10.1029/2018TC005383.

[thumbnail of Geophysical Research Letters - 2020 - Biemiller - Emerged Coral Reefs Record Holocene Low‐Angle Normal Fault Earthquakes.pdf]

Biemiller, J., Taylor, F., Lavier, L., Yu, T. L., Wallace, L. M. and Shen, C. C. (2020) Emerged Coral Reefs Record Holocene Low-Angle Normal Fault Earthquakes. Geophysical Research Letters, 47 (20). Art.Nr.: e2020GL089301. DOI 10.1029/2020GL089301.

[thumbnail of Geochem Geophys Geosyst - 2015 - Cairns - Paleomagnetic evidence for vertical‐axis rotations of crustal blocks in the.pdf]

Cairns, E. A., Little, T. A., Turner, G. M., Wallace, L. M. and Ellis, S. (2015) Paleomagnetic evidence for vertical-axis rotations of crustal blocks in the Woodlark Rift, SE Papua New Guinea: Miocene to present-day kinematics in one of the world's most rapidly extending plate boundary zones. Geochemistry, Geophysics, Geosystems, 16 (7). pp. 2058-2081. DOI 10.1002/2015GC005788.

[thumbnail of s11069-015-1831-6.pdf]

Christophersen, A., Litchfield, N., Berryman, K., Thomas, R., Basili, R., Wallace, L. M. , Ries, W., Hayes, G. P., Haller, K. M., Yoshioka, T., Koehler, R. D., Clark, D., Wolfson-Schwehr, M., Boettcher, M. S., Villamor, P., Horspool, N., Ornthammarath, T., Zuñiga, R., Langridge, R. M., Stirling, M. W., Goded, T., Costa, C. and Yeats, R. (2015) Development of the Global Earthquake Model?s neotectonic fault database. Natural Hazards, 79 (1). pp. 111-135. DOI 10.1007/s11069-015-1831-6.

[thumbnail of Investigating subduction earthquake geology along the southern Hikurangi margin using palaeoenvironmental histories of intertidal inlets.pdf]

Clark, K. J., Hayward, B. W., Cochran, U. A., Grenfell, H. R., Hemphill-Haley, E., Mildenhall, D. C., Hemphill-Haley, M. A. and Wallace, L. M. (2011) Investigating subduction earthquake geology along the southern Hikurangi margin using palaeoenvironmental histories of intertidal inlets1. New Zealand Journal of Geology and Geophysics, 54 (3). pp. 255-271. DOI 10.1080/00288306.2011.562903.

[thumbnail of Geophysical Research Letters - 2006 - Riker‐Coleman - Evidence of Holocene uplift in east New Britain Papua New Guinea.pdf]

Clark, K. J., Hayward, B. W., Cochran, U. A., Wallace, L. M. , Power, W. L. and Sabaa, A. T. (2015) Evidence for past subduction earthquakes at a plate boundary with widespread upper plate faulting: Southern hikurangi margin, new zealand. Bulletin of the Seismological Society of America, 105 (3). pp. 1661-1690. DOI 10.1029/2006GL026596.


Cochran, U., Berryman, K., Zachariasen, J., Mildenhall, D., Hayward, B., Southall, K., Hollis, C., Barker, P., Wallace, L. M. , Alloway, B. and Wilson, K. (2006) Paleoecological insights into subduction zone earthquake occurrence, eastern North Island, New Zealand. Bulletin of the Geological Society of America, 118 (9-10). pp. 1051-1074. DOI 10.1130/B25761.1.

[thumbnail of Geophysical Research Letters - 2020 - Cook - Physical Properties and Gas Hydrate at a Near‐Seafloor Thrust Fault Hikurangi.pdf]

Cook, A. E., Paganoni, M., Clennell, M. B., McNamara, D. D., Nole, M., Wang, X., Han, S., Bell, R. E., Solomon, E. A., Saffer, D. M., Barnes, P. M., Pecher, I. A., Wallace, L. M. , LeVay, L. J. and Petronotis, K. E. (2020) Physical Properties and Gas Hydrate at a Near-Seafloor Thrust Fault, Hikurangi Margin, New Zealand. Geophysical Research Letters, 47 (16). Art.Nr.: e2020GL088474. DOI 10.1029/2020GL088474.

[thumbnail of High-resolution view of active tectonic deformation along the Hikurangi subduction margin and the Taupo Volcanic Zone New Zealand.pdf]

Dimitrova, L. L., Wallace, L. M. , Haines, A. J. and Williams, C. A. (2016) High-resolution view of active tectonic deformation along the Hikurangi subduction margin and the Taupo Volcanic Zone, New Zealand. New Zealand Journal of Geology and Geophysics, 59 (1). pp. 43-57. DOI 10.1080/00288306.2015.1127823.

[thumbnail of Geophysical Research Letters - 2005 - Douglas - Slow slip on the northern Hikurangi subduction interface New Zealand.pdf]

Douglas, A., Beavan, J., Wallace, L. M. and Townend, J. (2005) Slow slip on the northern Hikurangi subduction interface, New Zealand. Geophysical Research Letters, 32 (16). pp. 1-4. DOI 10.1029/2005GL023607.

[thumbnail of ggv127.pdf]

Ellis, S., Fagereng, A., Barker, D., Henrys, S., Saffer, D., Wallace, L. M. , Williams, C. and Harris, R. (2015) Fluid budgets along the northern Hikurangi subduction margin, New Zealand: The effect of a subducting seamount on fluid pressure. Open Access Geophysical Journal International, 202 (1). pp. 277-297. DOI 10.1093/gji/ggv127.

[thumbnail of 1-s2.0-S0012821X11005516-main.pdf]

Ellis, S. M., Little, T. A., Wallace, L. M. , Hacker, B. R. and Buiter, S. J. H. (2011) Feedback between rifting and diapirism can exhume ultrahigh-pressure rocks. Earth and Planetary Science Letters, 311 (3-4). pp. 427-438. DOI 10.1016/j.epsl.2011.09.031.

[thumbnail of 1-s2.0-S0377027307001886-main.pdf]

Ellis, S. M., Wilson, C. J. N., Bannister, S., Bibby, H. M., Heise, W., Wallace, L. M. and Patterson, N. (2007) A future magma inflation event under the rhyolitic Taupo volcano, New Zealand: Numerical models based on constraints from geochemical, geological, and geophysical data. Journal of Volcanology and Geothermal Research, 168 (1-4). pp. 1-27. DOI 10.1016/j.jvolgeores.2007.06.004.

[thumbnail of Calculating regional stresses for northern Canterbury the effect of the 2010 Darfield earthquake.pdf]

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. New Zealand Journal of Geology and Geophysics, 59 (1). pp. 202-212. DOI 10.1080/00288306.2015.1123740.

[thumbnail of 872.pdf]

Fagereng, A., Savage, H. M., Morgan, J. K., Wang, M., Meneghini, F., Barnes, P. M., Bell, R., Kitajima, H., McNamara, D. D., Saffer, D. M., Wallace, L. M. , Petronotis, K. and LeVay, L. (2019) Mixed deformation styles observed on a shallow subduction thrust, Hikurangi margin, New Zealand. Open Access Geology, 47 (9). pp. 872-876. DOI 10.1130/G46367.1.

[thumbnail of _41(4)0266.pdf]

Fran?ois-Holden, C., Bannister, S., Beavan, J., Cousins, J., Field, B., McCaffrey, R., McVerry, G., Reyners, M., Ristau, J., Samsonov, S. and Wallace, L. M. (2008) The Mw 6.6 Gisborne earthquake of 2007: Preliminary records and general source characterisation. Open Access Bulletin of the New Zealand Society for Earthquake Engineering, 41 (4). pp. 266-277. DOI 10.5459/bnzsee.41.4.266-277.

[thumbnail of s11069-013-0820-x.pdf]

Fraser, S. A., Power, W. L., Wang, X., Wallace, L. M. , Mueller, C. and Johnston, D. M. (2014) Tsunami inundation in Napier, New Zealand, due to local earthquake sources. Natural Hazards, 70 (1). pp. 415-445. DOI 10.1007/s11069-013-0820-x.

[thumbnail of Geophysical Research Letters - 2011 - Fry - Deep tremor in New Zealand triggered by the 2010 Mw8 8 Chile earthquake.pdf]

Fry, B., Chao, K., Bannister, S., Peng, Z. and Wallace, L. M. (2011) Deep tremor in New Zealand triggered by the 2010 Mw8.8 Chile earthquake. Geophysical Research Letters, 38 (15). DOI 10.1029/2011GL048319.


Gale, N., Gledhill, K., Chadwick, M. and Wallace, L. M. (2015) The Hikurangi margin continuous GNSS and seismograph network of New Zealand. Seismological Research Letters, 86 (1). pp. 101-108. DOI 10.1785/0220130181.

[thumbnail of sd-17-45-2014.pdf]

Gallagher, S. J., Exon, N., Seton, M., Ikehara, M., Hollis, C. J., Arculus, R., D'Hondt, S., Foster, C., Gurnis, M., Kennett, J. P., McKay, R., Malakoff, A., Mori, J., Takai, K. and Wallace, L. M. (2014) Exploring new drilling prospects in the southwest Pacific. Scientific Drilling, 17 . pp. 45-50. DOI doi: 10.5194/sd-17-45-2014.


Gerstenberger, M. C., Bora, S., Bradley, B. A., DiCaprio, C., Kaiser, A., Manea, E. F., Nicol, A., Rollins, C., Stirling, M. W., Thingbaijam, K. K. S., Van Dissen, R. J., Abbott, E. R., Atkinson, G. M., Chamberlain, C., Christophersen, A., Clark, K., Coffey, G. L., de la Torre, C. A., Ellis, S. M., Fraser, J., Graham, K., Griffin, J., Hamling, I. J., Hill, M. P., Howell, A., Hulsey, A., Hutchinson, J., Iturrieta, P., Johnson, K. M., Jurgens, V. O., Kirkman, R., Langridge, R. M., Lee, R. L., Litchfield, N. J., Maurer, J., Milner, K. R., Rastin, S., Rattenbury, M. S., Rhoades, D. A., Ristau, J., Schorlemmer, D., Seebeck, H., Shaw, B. E., Stafford, P. J., Stolte, A. C., Townend, J., Villamor, P., Wallace, L. M. , Weatherill, G., Williams, C. A. and Wotherspoon, L. M. (2024) The 2022 Aotearoa New Zealand National Seismic Hazard Model: Process, Overview, and Results. Bulletin of the Seismological Society of America, 114 (1). pp. 7-36. DOI 10.1785/0120230182.


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. New Zealand Journal of Geology and Geophysics, 66 (2). pp. 192-216. DOI 10.1080/00288306.2022.2158881.


Gerstenberger, M. C., Van Dissen, R., Rollins, C., DiCaprio, C., Thingbaijim, K. K. S., Bora, S., Chamberlain, C., Christophersen, A., Coffey, G. L., Ellis, S. M., Iturrieta, P., Johnson, K. M., Litchfield, N. J., Nicol, A., Milner, K. R., Rastin, S. J., Rhoades, D., Seebeck, H., Shaw, B. E., Stirling, M. W., Wallace, L. , Allen, T. I., Bradley, B. A., Charlton, D., Clark, K. J., Fraser, J., Griffin, J., Hamling, I. J., Howell, A., Hudson-Doyle, E., Hulsey, A., Jurgens, V. O., Kaiser, A. E., Kirkman, R., Langridge, R. M., Maurer, J., Rattenbury, M. S., Ristau, J., Schorlemmer, D., Townend, J., Villamor, P. and Williams, C. (2024) The Seismicity Rate Model for the 2022 Aotearoa New Zealand National Seismic Hazard Model. Bulletin of the Seismological Society of America, 114 (1). pp. 182-216. DOI 10.1785/0120230165.

[thumbnail of Geophysical Research Letters - 2019 - Haines - New Zealand‐Wide Geodetic Strain Rates Using a Physics‐Based Approach.pdf]

Haines, A. J. and Wallace, L. M. (2020) New Zealand-Wide Geodetic Strain Rates Using a Physics-Based Approach. Geophysical Research Letters, 47 (1). Art.Nr.: e2019GL084606. DOI 10.1029/2019GL084606.

[thumbnail of JGR Solid Earth - 2019 - Haines - Slow Slip Event Detection in Cascadia Using Vertical Derivatives of Horizontal Stress.pdf]

Haines, J., Wallace, L. M. and Dimitrova, L. (2019) Slow Slip Event Detection in Cascadia Using Vertical Derivatives of Horizontal Stress Rates. Journal of Geophysical Research: Solid Earth, 124 (5). pp. 5153-5173. DOI 10.1029/2018JB016898.

[thumbnail of JGR Solid Earth - 2014 - Hamling - Crustal deformation and stress transfer during a propagating earthquake sequence The.pdf]

Hamling, I. J., D'Anastasio, E., Wallace, L. M. , Ellis, S., Motagh, M., Samsonov, S., Palmer, N. and Hreinsdõttir, S. (2014) Crustal deformation and stress transfer during a propagating earthquake sequence: The 2013 Cook Strait sequence, central New Zealand. Journal of Geophysical Research: Solid Earth, 119 (7). pp. 6080-6092. DOI 10.1002/2014JB011084.

[thumbnail of science.aam7194.pdf]

Hamling, I. J., Hreinsdóttir, S., Clark, K., Elliott, J., Liang, C., Fielding, E., Litchfield, N., Villamor, P., Wallace, L. M. , Wright, T. J., D'Anastasio, E., Bannister, S., Burbidge, D., Denys, P., Gentle, P., Howarth, J., Mueller, C., Palmer, N., Pearson, C., Power, W., Barnes, P., Barrell, D. J. A., Van Dissen, R., Langridge, R., Little, T., Nicol, A., Pettinga, J., Rowland, J. and Stirling, M. (2017) Complex multifault rupture during the 2016 Mw 7.8 Kaikōura earthquake, New Zealand. Science, 356 (6334). pp. 1-10. DOI 10.1126/science.aam7194.

[thumbnail of 1-s2.0-S0012821X15001958-main.pdf]

Hamling, I. J. and Wallace, L. M. (2015) Silent triggering: Aseismic crustal faulting induced by a subduction slow slip event. Earth and Planetary Science Letters, 421 . pp. 13-19. DOI doi: 10.1016/j.epsl.2015.03.046.

[thumbnail of Geophysical Research Letters - 2022 - Hamling - A Snapshot of New Zealand s Dynamic Deformation Field From Envisat InSAR.pdf]

Hamling, I. J., Wright, T. J., Hreinsdóttir, S. and Wallace, L. M. (2022) A Snapshot of New Zealand's Dynamic Deformation Field From Envisat InSAR and GNSS Observations Between 2003 and 2011. Geophysical Research Letters, 49 (2). Art.Nr.: e2021GL096465. DOI 10.1029/2021GL096465.

[thumbnail of Foraminiferal record of Holocene paleo-earthquakes on the subsiding south-western Poverty Bay coastline New Zealand.pdf]

Hayward, B. W., Sabaa, A. T., Grenfell, H. R., Cochran, U. A., Clark, K. J., Litchfield, N. J., Wallace, L. M. , Marden, M. and Palmer, A. S. (2015) Foraminiferal record of Holocene paleo-earthquakes on the subsiding south-western Poverty Bay coastline, New Zealand. New Zealand Journal of Geology and Geophysics, 58 (2). pp. 104-122. DOI 10.1080/00288306.2014.992354.

[thumbnail of ggv243.pdf]

Holden, L., Wallace, L. M. , Beavan, J., Fournier, N., Cas, R., Ailleres, L. and Silcock, D. (2015) Contemporary ground deformation in the Taupo Rift and Okataina Volcanic Centre from 1998 to 2011, measured using GPS. Open Access Geophysical Journal International, 202 (3). pp. 2082-2105. DOI 10.1093/gji/ggv243.

[thumbnail of Geochem Geophys Geosyst - 2020 - Ikari - Observations of Laboratory and Natural Slow Slip Events Hikurangi Subduction Zone.pdf]

Ikari, M. J., Wallace, L. M. , Rabinowitz, H. S., Savage, H. M., Hamling, I. J. and Kopf, A. J. (2020) Observations of Laboratory and Natural Slow Slip Events: Hikurangi Subduction Zone, New Zealand. Open Access Geochemistry, Geophysics, Geosystems, 21 (2). Art.Nr.: e2019GC008717. DOI 10.1029/2019GC008717.

[thumbnail of Geophysical Research Letters - 2021 - Inoue - Water Depth Dependence of Long‐Range Correlation in Nontidal Variations in-1.pdf]

Inoue, T., Ito, Y., Wallace, L. M. , Yoshikawa, Y., Inazu, D., Garcia, E. S. M., Muramoto, T., Webb, S. C., Ohta, K., Suzuki, S. and Hino, R. (2021) Water Depth Dependence of Long-Range Correlation in Nontidal Variations in Seafloor Pressure. Open Access Geophysical Research Letters, 48 (8). Art.Nr.:e2020GL092173. DOI 10.1029/2020GL092173.


Ito, Y., Webb, S. C., Kaneko, Y., Wallace, L. M. and Hino, R. (2020) Sea surface gravity waves excited by dynamic ground motions from large regional earthquakes. Seismological Research Letters, 91 (4). pp. 2268-2277. DOI 10.1785/0220190267.

[thumbnail of JGR Solid Earth - 2021 - Iwasaki - Continuous Tremor Activity With Stable Polarization Direction Following the 2014 Large.pdf]

Iwasaki, Y., Mochizuki, K., Ishise, M., Todd, E. K., Schwartz, S. Y., Zal, H., Savage, M. K., Henrys, S., Sheehan, A. F., Ito, Y., Wallace, L. M. , Webb, S. C., Yamada, T. and Shinohara, M. (2022) Continuous Tremor Activity With Stable Polarization Direction Following the 2014 Large Slow Slip Event in the Hikurangi Subduction Margin Offshore New Zealand. Open Access Journal of Geophysical Research: Solid Earth, 127 (2). Art.Nr. e2021JB022161. DOI 10.1029/2021JB022161.

[thumbnail of JGR Solid Earth - 2024 - Johnson - Inverting Geodetic Strain Rates for Slip Deficit Rate in Complex Deforming Zones An.pdf] [thumbnail of 2023jb027565-sup-0001-supporting information si-s01.pdf]

Johnson, K. M., Wallace, L. M., Maurer, J., Hamling, I., Williams, C., Rollins, C., Gerstenberger, M. and Van Dissen, R. (2024) Inverting Geodetic Strain Rates for Slip Deficit Rate in Complex Deforming Zones: An Application to the New Zealand Plate Boundary. Open Access Journal of Geophysical Research: Solid Earth, 129 (3). e2023JB027565. DOI 10.1029/2023JB027565.


Kaiser, A., Balfour, N., Fry, B., Holden, C., Litchfield, N., Gerstenberger, M., D'Anastasio, E., Horspool, N., McVerry, G., Ristau, J., Bannister, S., Christophersen, A., Clark, K., Power, W., Rhoades, D., Massey, C., Hamling, I., Wallace, L. M. , Mountjoy, J., Kaneko, Y., Benites, R., Van Houtte, C., Dellow, S., Wotherspoon, L., Elwood, K. and Gledhill, K. (2017) The 2016 Kaikōura, New Zealand, Earthquake: Preliminary Seismological Report. Seismological Research Letters, 88 (3). pp. 727-739.

[thumbnail of JGR Solid Earth - 2019 - Kaneko - Ultra‐long Duration of Seismic Ground Motion Arising From a Thick Low‐Velocity.pdf]

Kaneko, Y., Ito, Y., Chow, B., Wallace, L. M. , Tape, C., Grapenthin, R., D'Anastasio, E., Henrys, S. and Hino, R. (2019) Ultra-long Duration of Seismic Ground Motion Arising From a Thick, Low-Velocity Sedimentary Wedge. Journal of Geophysical Research: Solid Earth, 124 (10). pp. 10347-10359. DOI 10.1029/2019JB017795.

[thumbnail of Geophysical Research Letters - 2018 - Kaneko - Simple Physical Model for the Probability of a Subduction‐ Zone Earthquake.pdf]

Kaneko, Y., Wallace, L. M. , Hamling, I. J. and Gerstenberger, M. C. (2018) Simple Physical Model for the Probability of a Subduction- Zone Earthquake Following Slow Slip Events and Earthquakes: Application to the Hikurangi Megathrust, New Zealand. Geophysical Research Letters, 45 (9). pp. 3932-3941. DOI 10.1029/2018GL077641.

[thumbnail of JGR Solid Earth - 2018 - Kinoshita - Changes in Physical Properties of the Nankai Trough Megasplay Fault Induced by.pdf]

Kinoshita, C., Saffer, D., Kopf, A., Roesner, A., Wallace, L. M. , Araki, E., Kimura, T., Machida, Y., Kobayashi, R., Davis, E., Toczko, S. and Carr, S. (2018) Changes in Physical Properties of the Nankai Trough Megasplay Fault Induced by Earthquakes, Detected by Continuous Pressure Monitoring. Journal of Geophysical Research: Solid Earth, 123 (2). pp. 1072-1088. DOI 10.1002/2017JB014924.

[thumbnail of Geophysical Research Letters - 2017 - Koulali - Slow slip events and the 2016 Te Araroa Mw 7 1 earthquake interaction .pdf]

Koulali, A., McClusky, S., Wallace, L. M. , Allgeyer, S., Tregoning, P., D'Anastasio, E. and Benavente, R. (2017) Slow slip events and the 2016 Te Araroa Mw 7.1 earthquake interaction: Northern Hikurangi subduction, New Zealand. Geophysical Research Letters, 44 (16). pp. 8336-8344. DOI 10.1002/2017GL074776.

[thumbnail of ggv200.pdf]

Koulali, A., Tregoning, P., Mcclusky, S., Stanaway, R., Wallace, L. M. and Lister, G. (2015) New Insights into the present-day kinematics of the central and western Papua New Guinea from GPS. Open Access Geophysical Journal International, 202 (2). pp. 993-1004. DOI 10.1093/gji/ggv200.

[thumbnail of JGR Solid Earth - 2018 - Kubota - Using Tsunami Waves Reflected at the Coast to Improve Offshore Earthquake Source.pdf]

Kubota, T., Saito, T., Ito, Y., Kaneko, Y., Wallace, L. M. , Suzuki, S., Hino, R. and Henrys, S. (2018) Using Tsunami Waves Reflected at the Coast to Improve Offshore Earthquake Source Parameters: Application to the 2016 Mw 7.1 Te Araroa Earthquake, New Zealand. Journal of Geophysical Research: Solid Earth, 123 (10). pp. 8767-8779. DOI 10.1029/2018jb015832.

[thumbnail of 1-s2.0-S0025322709002655-main.pdf]

Litchfield, N., Wilson, K., Berryman, K. and Wallace, L. M. (2010) Coastal uplift mechanisms at Pakarae River mouth: Constraints from a combined Holocene fluvial and marine terrace dataset. Marine Geology, 270 (1-4). pp. 72-83. DOI doi:0.1016/j.margeo.2009.10.003.


Little, T. A., Webber, S. M., Mizera, M., Boulton, C., Oesterle, J., Ellis, S., Boles, A., van der Pluijm, B., Norton, K., Seward, D., Biemiller, J. and Wallace, L. M. (2019) Evolution of a rapidly slipping, active low-angle normal fault, Suckling-Dayman metamorphic core complex, SE Papua New Guinea. Bulletin of the Geological Society of America, 131 (7-8). pp. 1333-1363. DOI 10.1130/B35051.1.

[thumbnail of Geochem Geophys Geosyst - 2016 - Mahony - Increased rates of large‐magnitude explosive eruptions in Japan in the late.pdf]

Mahony, S. H., Sparks, R. S. J., Wallace, L. M. , Engwell, S. L., Scourse, E. M., Barnard, N. H., Kandlbauer, J. and Brown, S. K. (2016) Increased rates of large-magnitude explosive eruptions in Japan in the late Neogene and Quaternary. Open Access Geochemistry, Geophysics, Geosystems, 17 (7). pp. 2467-2479. DOI 10.1002/2016GC006362.


Mahony, S. H., Wallace, L. M. , Miyoshi, M., Villamor, P., Sparks, R. J. and Hasenaka, T. (2011) Volcano-tectonic interactions during rapid plate-boundary evolution in the Kyushu region, SW Japan. Bulletin of the Geological Society of America, 123 (11-12). pp. 2201-2223. DOI 10.1130/B30408.1.

[thumbnail of Geophysical Research Letters - 2023 - Maubant - Imaging the Spatiotemporal Evolution of Plate Coupling With Interferometric.pdf] [thumbnail of 2023gl105388-sup-0001-supporting information si-s01.pdf]

Maubant, L., Frank, W. B., Wallace, L. M., Williams, C. A. and Hamling, I. (2023) Imaging the Spatiotemporal Evolution of Plate Coupling With Interferometric Radar (InSAR) in the Hikurangi Subduction Zone. Open Access Geophysical Research Letters, 50 (19). e2023GL105388. DOI 10.1029/2023GL105388.


Maurer, J., Johnson, K., Wallace, L. M., Hamling, I., Williams, C. A., Rollins, C., Gerstenberger, M. and Van Dissen, R. (2024) Geodetic Strain Rates for the 2022 Update of the New Zealand National Seismic Hazard Model. Bulletin of the Seismological Society of America, 114 (1). pp. 57-77. DOI 10.1785/0120230145.

[thumbnail of ngeo178.pdf]

McCaffrey, R., Wallace, L. M. and Beavan, J. (2008) Slow slip and frictional transition at low temperature at the Hikurangi subduction zone. Nature Geoscience, 1 (5). pp. 316-320. DOI 10.1038/ngeo178.

[thumbnail of sd-24-61-2018.pdf]

McKay, R., Exon, N., Müller, D., Gohl, K., Gurnis, M., Shevenell, A., Henrys, S., Inagaki, F., Pandey, D., Whiteside, J., van de Flierdt, T., Naish, T., Heuer, V., Morono, Y., Coffin, M., Godard, M., Wallace, L. M. , Kodaira, S., Bijl, P., Collot, J., Dickens, G., Dugan, B., Dunlea, A. G., Hackney, R., Ikehara, M., Jutzeler, M., McNeill, L., Naik, S., Noble, T., Opdyke, B., Pecher, I., Stott, L., Uenzelmann-Neben, G., Vadakkeykath, Y. and Wortmann, U. G. (2018) Developing community-based scientific priorities and new drilling proposals in the southern Indian and southwestern Pacific oceans. Open Access Scientific Drilling, 24 . pp. 61-70. DOI 10.5194/sd-24-61-2018.

[thumbnail of Geophysical Research Letters - 2021 - McNamara - Variable In Situ Stress Orientations Across the Northern Hikurangi.pdf]

McNamara, D. D., Behboudi, E., Wallace, L. M. , Saffer, D., Cook, A. E., Fagereng, A., Paganoni, M., Wu, H. Y., Kim, G., Lee, H., Savage, H. M., Barnes, P., Pecher, I., LeVay, L. J. and Petronotis, K. E. (2021) Variable In Situ Stress Orientations Across the Northern Hikurangi Subduction Margin. Open Access Geophysical Research Letters, 48 (5). Art.Nr.: e2020GL091707. DOI 10.1029/2020GL091707.

[thumbnail of 1-s2.0-S0012821X22002874-main.pdf]

Morgan, J. K., Solomon, E. A., Fagereng, A., Savage, H. M., Wang, M., Meneghini, F., Barnes, P. M., Bell, R. E., French, M. E., Bangs, N. L., Kitajima, H., Saffer, D. M. and Wallace, L. M. (2022) Seafloor overthrusting causes ductile fault deformation and fault sealing along the Northern Hikurangi Margin. Earth and Planetary Science Letters, 593 . Art.Nr.: 117651. DOI doi: 10.1016/j.epsl.2022.117651.

[thumbnail of Geophysical Research Letters - 2018 - Muramoto - Seafloor Crustal Deformation on Ocean Bottom Pressure Records With.pdf]

Muramoto, T., Ito, Y., Inazu, D., Wallace, L. M. , Hino, R., Suzuki, S., Webb, S. C. and Henrys, S. (2019) Seafloor Crustal Deformation on Ocean Bottom Pressure Records With Nontidal Variability Corrections: Application to Hikurangi Margin, New Zealand. Geophysical Research Letters, 46 (1). pp. 303-310. DOI 10.1029/2018GL080830.

[thumbnail of 1-s2.0-S0012821X07001847-main.pdf]

Nicol, A. and Wallace, L. M. (2007) Temporal stability of deformation rates: Comparison of geological and geodetic observations, Hikurangi subduction margin, New Zealand. Earth and Planetary Science Letters, 258 (3-4). pp. 397-413. DOI 10.1016/j.epsl.2007.03.039.

[thumbnail of Tectonics - 2007 - Nicol - Tectonic evolution of the active Hikurangi subduction margin New Zealand since the Oligocene.pdf]

Nicol, A., Mazengarb, C., Chanier, F., Rait, G., Uruski, C. and Wallace, L. M. (2007) Tectonic evolution of the active Hikurangi subduction margin, New Zealand, since the Oligocene. Tectonics, 26 (4). Art.Nr.: TC4002. DOI 10.1029/2006TC002090.

[thumbnail of JGR Solid Earth - 2023 - Perez‐Silva - Characteristics of Slow Slip Events Explained by Rate‐Strengthening Faults Subject.pdf]

Perez‐Silva, A., Kaneko, Y., Savage, M., Wallace, L. and Warren‐Smith, E. (2023) Characteristics of Slow Slip Events Explained by Rate‐Strengthening Faults Subject to Periodic Pore Fluid Pressure Changes. Open Access Journal of Geophysical Research: Solid Earth, 128 (6). e2022JB026332. DOI 10.1029/2022JB026332.

[thumbnail of JGR Solid Earth - 2022 - Perez‐Silva - Segmentation of Shallow Slow Slip Events at the Hikurangi Subduction Zone Explained.pdf]

Perez-Silva, A., Kaneko, Y., Savage, M., Wallace, L. M. , Li, D. and Williams, C. (2022) Segmentation of Shallow Slow Slip Events at the Hikurangi Subduction Zone Explained by Along-Strike Changes in Fault Geometry and Plate Convergence Rates. Open Access Journal of Geophysical Research: Solid Earth, 127 (1). Art.Nr.:e2021JB022913. DOI 10.1029/2021JB022913.

[thumbnail of Plaza-Faverola.pdf]

Plaza-Faverola, A., Henrys, S., Pecher, I., Wallace, L. and Klaeschen, D. (2016) Splay fault branching from the Hikurangi subduction shear zone: Implications for slow slip and fluid flow. Open Access Geochemistry, Geophysics, Geosystems, 17 (12). pp. 5009-5023. DOI 10.1002/2016GC006563.

[thumbnail of Understanding the potential for tsunami generated by earthquakes on the southern Hikurangi subduction interface.pdf]

Power, W., Wallace, L. M. , Mueller, C., Henrys, S., Clark, K., Fry, B., Wang, X. and Williams, C. (2016) Understanding the potential for tsunami generated by earthquakes on the southern Hikurangi subduction interface. New Zealand Journal of Geology and Geophysics, 59 (1). pp. 70-85. DOI 10.1080/00288306.2015.1127825.

[thumbnail of s00024-011-0299-x.pdf]

Power, W., Wallace, L. M. , Wang, X. and Reyners, M. (2012) Tsunami hazard posed to New Zealand by the Kermadec and southern New Hebrides subduction margins: An assessment based on plate boundary kinematics, interseismic coupling, and historical seismicity. Pure and Applied Geophysics, 169 (1-2). pp. 1-36. DOI 10.1007/s00024-011-0299-x.

[thumbnail of power-et-al-2017-the-new-zealand-probabilistic-tsunami-hazard-model-development-and-implementation-of-a-methodology-for.pdf]

Power, W., Wang, X., Wallace, L. M. , Clark, K. and Mueller, C. (2018) The New Zealand Probabilistic Tsunami Hazard Model: Development and implementation of a methodology for estimating tsunami hazard nationwide. Geological Society, London, Special Publications, 456 (1). pp. 199-217. DOI 10.1144/SP456.6.


Riker-Coleman, K. E., Gallup, C. D., Wallace, L. M. , Webster, J. M., Cheng, H. and Edwards, R. L. (2006) Evidence of Holocene uplift in east New Britain, Papua New Guinea. Geophysical Research Letters, 33 (18). pp. 1661-1690. DOI 10.1785/012014029.


Rowe, C. A., Howe, B. M., Fouch, M. J., Angove, M., Aucan, J., Barnes, C. R., Bayliff, N., Becker, N. C., Carrilho, F., Fry, B., Janiszewski, H. A., Jamelot, A., Kong, L. S. L., Lenz, S. T., Luther, D. S., Marinaro, G., Matias, L., Salaree, A., Sakya, A. E., Thiele, T., Tilmann, F., Hildebrandt-Andrade, C. V., Wallace, L. M. , Weinstein, S. A. and Wilcock, W. S. D. (2022) SMART Cables Observing the Oceans and Earth. Marine Technology Society Journal, 56 (5). pp. 13-25. DOI 10.4031/MTSJ.56.5.3.

[thumbnail of ngeo2490.pdf]

Saffer, D. M. and Wallace, L. M. (2015) The frictional, hydrologic, metamorphic and thermal habitat of shallow slow earthquakes. Nature Geoscience, 8 (8). pp. 594-600. DOI 10.1038/ngeo2490.

[thumbnail of Geochem Geophys Geosyst - 2021 - Savage - Asymmetric Brittle Deformation at the P paku Fault Hikurangi Subduction Margin .pdf]

Savage, H. M., Shreedharan, S., Fagereng, ?., Morgan, J. K., Meneghini, F., Wang, M., McNamara, D. D., Wallace, L. M. , Saffer, D. M., Barnes, P. M., Petronotis, K. E. and LeVay, L. J. (2021) Asymmetric Brittle Deformation at the P?paku Fault, Hikurangi Subduction Margin, NZ, IODP Expedition 375. Geochemistry, Geophysics, Geosystems, 22 (8). Art.Nr.: e2021GC009662. DOI 10.1029/2021GC009662.

[thumbnail of JGR Solid Earth - 2019 - Shibazaki - Three‐Dimensional Modeling of Spontaneous and Triggered Slow‐Slip Events at the.pdf]

Shibazaki, B., Wallace, L. M. , Kaneko, Y., Hamling, I., Ito, Y. and Matsuzawa, T. (2019) Three-Dimensional Modeling of Spontaneous and Triggered Slow-Slip Events at the Hikurangi Subduction Zone, New Zealand. Journal of Geophysical Research: Solid Earth, 124 (12). pp. 13250-13268. DOI 10.1029/2019JB018190.

[thumbnail of Geochem Geophys Geosyst - 2022 - Shreedharan - Frictional and Lithological Controls on Shallow Slow Slip at the Northern.pdf]

Shreedharan, S., Ikari, M., Wood, C., Saffer, D., Wallace, L. M. and Marone, C. (2022) Frictional and Lithological Controls on Shallow Slow Slip at the Northern Hikurangi Margin. Open Access Geochemistry, Geophysics, Geosystems, 23 (2). Art.Nr.: e2021GC010107. DOI 10.1029/2021GC010107.

[thumbnail of science.adf4930.pdf] [thumbnail of science.adf4930_sm.pdf]

Shreedharan, S., Saffer, D., Wallace, L. M. and Williams, C. (2023) Ultralow frictional healing explains recurring slow slip events. Science, 379 (6633). pp. 712-717. DOI 10.1126/science.adf4930.


Stirling, M., Litchfield, N., Gerstenberger, M., Clark, D., Bradley, B., Beavan, J., McVerry, G., van Dissen, R., Nicol, A., Wallace, L. M. and Buxton, R. (2011) Preliminary probabilistic seismic hazard analysis of the co2crc Otway project site, Victoria, Australia. Bulletin of the Seismological Society of America, 101 (6). pp. 2726-2736. DOI 10.1785/0120110049.


Stirling, M., McVerry, G., Gerstenberger, M., Litchfield, N., Van Dissen, R., Berryman, K., Barnes, P., Wallace, L. M. , Villamor, P., Langridge, R., Lamarche, G., Nodder, S., Reyners, M., Bradley, B., Rhoades, D., Smith, W., Nicol, A., Pettinga, J., Clark, K. and Jacobs, K. (2012) National seismic hazard model for New Zealand: 2010 update. Bulletin of the Seismological Society of America, 102 (4). pp. 1514-1542. DOI 10.1785/0120110170.

[thumbnail of ncomms8607.pdf]

Thirumalai, K., Taylor, F. W., Shen, C. C., Lavier, L. L., Frohlich, C., Wallace, L. M. , Wu, C. C., Sun, H. and Papabatu, A. K. (2015) Variable Holocene deformation above a shallow subduction zone extremely close to the trench. Open Access Nature Communications, 6 . Art.Nr.: 7607. DOI 10.1038/ncomms8607.

[thumbnail of JGR Solid Earth - 2018 - Todd - Earthquakes and Tremor Linked to Seamount Subduction During Shallow Slow Slip at the.pdf]

Todd, E. K., Schwartz, S. Y., Mochizuki, K., Wallace, L. M. , Sheehan, A. F., Webb, S. C., Williams, C. A., Nakai, J., Yarce, J., Fry, B., Henrys, S. and Ito, Y. (2018) Earthquakes and Tremor Linked to Seamount Subduction During Shallow Slow Slip at the Hikurangi Margin, New Zealand. Journal of Geophysical Research: Solid Earth, 123 (8). pp. 6769-6783. DOI 10.1029/2018JB016136.

[thumbnail of Geophysical Research Letters - 2024 - Truttmann - Slow Slip Events in New Zealand Irregular yet Predictable.pdf]

Truttmann, S., Poulet, T., Wallace, L., Herwegh, M. and Veveakis, M. (2024) Slow Slip Events in New Zealand: Irregular, yet Predictable?. Open Access Geophysical Research Letters, 51 (6). e2023GL107741. DOI 10.1029/2023GL107741.


Van Dissen, R. J., Johnson, K. M., Seebeck, H., Wallace, L. M. , Rollins, C., Maurer, J., Gerstenberger, M. C., Williams, C. A., Hamling, I. J., Howell, A. and DiCaprio, C. J. (2024) Upper Plate and Subduction Interface Deformation Models in the 2022 Revision of the Aotearoa New Zealand National Seismic Hazard Model. Bulletin of the Seismological Society of America, 114 (1). pp. 37-56. DOI 10.1785/0120230118.

[thumbnail of Tectonics - 2017 - Villamor - Rapid Evolution of Subduction‐Related Continental Intraarc Rifts The Taupo Rift New Zealand.pdf]

Villamor, P., Berryman, K. R., Ellis, S. M., Schreurs, G., Wallace, L. M. , Leonard, G. S., Langridge, R. M. and Ries, W. F. (2017) Rapid Evolution of Subduction-Related Continental Intraarc Rifts: The Taupo Rift, New Zealand. Tectonics, 36 (10). pp. 2250-2272. DOI 10.1002/2017TC004715.

[thumbnail of annurev-earth-071719-055104.pdf]

Wallace, L. M. (2020) Slow Slip Events in New Zealand. Annual Review of Earth and Planetary Sciences, 48 . pp. 175-203.

[thumbnail of Journal of Geophysical Research Solid Earth - 2010 - Wallace - Diverse slow slip behavior at the Hikurangi subduction.pdf]

Wallace, L. M. and Beavan, J. (2010) Diverse slow slip behavior at the Hikurangi subduction margin, New Zealand. Journal of Geophysical Research: Solid Earth, 115 (12). Art.Nr.: B12402. DOI doi: 10.1029/2010JB007717.

[thumbnail of Geophysical Research Letters - 2006 - Wallace - A large slow slip event on the central Hikurangi subduction interface.pdf]

Wallace, L. M. and Beavan, J. (2006) A large slow slip event on the central Hikurangi subduction interface beneath the Manawatu region, North Island, New Zealand. Geophysical Research Letters, 33 (11). Art.Nr.: L11301. DOI 10.1029/2006GL026009.

[thumbnail of Geophysical Research Letters - 2013 - Wallace - Newly observed deep slow slip events at the central Hikurangi margin New.pdf]

Wallace, L. M. and Eberhart-Phillips, D. (2013) Newly observed, deep slow slip events at the central Hikurangi margin, New Zealand: Implications for downdip variability of slow slip and tremor, and relationship to seismic structure. Geophysical Research Letters, 40 (20). pp. 5393-5398. DOI 10.1002/2013GL057682.

[thumbnail of JGR Solid Earth - 2016 - Wallace - Near‐field observations of an offshore Mw 6 0 earthquake from an integrated seafloor and.pdf]

Wallace, L. M. , Araki, E., Saffer, D., Wang, X., Roesner, A., Kopf, A., Nakanishi, A., Power, W., Kobayashi, R., Kinoshita, C., Toczko, S., Kimura, T., Machida, Y. and Carr, S. (2016) Near-field observations of an offshore Mw 6.0 earthquake from an integrated seafloor and subseafloor monitoring network at the Nankai Trough, southwest Japan. Journal of Geophysical Research: Solid Earth, 121 (11). pp. 8338-8351. DOI 10.1002/2016JB013417.

[thumbnail of Journal of Geophysical Research Solid Earth - 2012 - Wallace - The kinematics of a transition from subduction to.pdf]

Wallace, L. M. , Barnes, P., Beavan, J., Van Dissen, R., Litchfield, N., Mountjoy, J., Langridge, R., Lamarche, G. and Pondard, N. (2012) The kinematics of a transition from subduction to strike-slip: An example from the central New Zealand plate boundary. Journal of Geophysical Research: Solid Earth, 117 (2). Art.Nr.: B02405. DOI 10.1029/2011JB008640.

[thumbnail of Geophysical Research Letters - 2014 - Wallace - Quake clamps down on slow slip.pdf]

Wallace, L. M. , Bartlow, N., Hamling, I. and Fry, B. (2014) Quake clamps down on slow slip. Geophysical Research Letters, 41 (24). pp. 8840-8846. DOI 10.1002/2014GL062367.

[thumbnail of Journal of Geophysical Research Solid Earth - 2012 - Wallace - Simultaneous long‐term and short‐term slow slip events at.pdf]

Wallace, L. M. , Beavan, J., Bannister, S. and Williams, C. (2012) Simultaneous long-term and short-term slow slip events at the Hikurangi subduction margin, New Zealand: Implications for processes that control slow slip event occurrence, duration, and migration. Journal of Geophysical Research: Solid Earth, 117 (11). Art.Nr.: B11402. DOI 10.1029/2012JB009489.

[thumbnail of Journal of Geophysical Research Solid Earth - 2004 - Wallace - Subduction zone coupling and tectonic block rotations in.pdf]

Wallace, L. M. , Beavan, J., McCaffrey, R. and Darby, D. (2004) Subduction zone coupling and tectonic block rotations in the North Island, New Zealand. Journal of Geophysical Research: Solid Earth, 109 (12). pp. 1-21. DOI 10.1029/2004JB003241.

[thumbnail of 168-1-332.pdf]

Wallace, L. M. , Beavan, J., McCaffrey, R., Berryman, K. and Denys, P. (2007) Balancing the plate motion budget in the South Island, New Zealand using GPS, geological and seismological datas. Open Access Geophysical Journal International, 168 (1). pp. 332-352. DOI 10.1111/j.1365-246X.2006.03183.x.

[thumbnail of EoS Transactions - 2011 - Wallace - Subduction Systems Revealed Studies of the Hikurangi Margin.pdf]

Wallace, L. M. , Bell, R., Townend, J., Ellis, S., Bannister, S., Henrys, S., Sutherland, R. and Barnes, P. (2010) Subduction systems revealed: Studies of the hikurangi margin. Eos, Transactions American Geophysical Union, 91 (45). pp. 417-418. DOI 10.1029/2010EO450001.

[thumbnail of 27-2_wallace.pdf]

Wallace, L. M. , Cochran, U. A., Power, W. L. and Clark, K. J. (2014) Earthquake and tsunami potential of the Hikurangi subduction thrust, New Zealand: Insights from paleoseismology, GPS, and Tsunami modeling. Open Access Oceanography, 27 (2). pp. 104-117. DOI 10.5670/oceanog.2014.46.

[thumbnail of Geochem Geophys Geosyst - 2009 - Wallace - Collisional model for rapid fore‐arc block rotations arc curvature and.pdf]

Wallace, L. M. , Ellis, S. and Mann, P. (2009) Collisional model for rapid fore-arc block rotations, arc curvature, and episodic back-arc rifting in subduction settings. Geochemistry, Geophysics, Geosystems, 10 (5). Art.Nr.: Q05001. DOI 10.1029/2008GC002220.

[thumbnail of Geochem Geophys Geosyst - 2014 - Wallace - Continental breakup and UHP rock exhumation in action GPS results from the.pdf]

Wallace, L. M. , Ellis, S., Little, T., Tregoning, P., Palmer, N., Rosa, R., Stanaway, R., Oa, J., Nidkombu, E. and Kwazi, J. (2014) Continental breakup and UHP rock exhumation in action: GPS results from the Woodlark Rift, Papua New Guinea. Geochemistry, Geophysics, Geosystems, 15 (11). pp. 4267-4290. DOI 10.1002/2014GC005458.

[thumbnail of i0091-7613-37-2-143.pdf]

Wallace, L. M. , Ellis, S., Miyao, K., Miura, S., Beavan, J. and Goto, J. (2009) Enigmatic, highly active left-lateral shear zone in southwest Japan explained by aseismic ridge collision. Geology, 37 (2). pp. 143-146. DOI 10.1130/G25221A.1.

[thumbnail of 895.pdf]

Wallace, L. M. , Fagereng, A. and Ellis, S. (2012) Upper plate tectonic stress state may influence interseismic coupling on subduction megathrusts. Geology, 40 (10). pp. 895-898. DOI 10.1130/G33373.1.

[thumbnail of Introduction to NZJGG special issue in honour of John Beavan s scientific contributions.pdf]

Wallace, L. M. , Hamling, I., Holden, C., Villamor, P. and Williams, C. (2016) Introduction to NZJGG special issue in honour of John Beavan's scientific contributions. New Zealand Journal of Geology and Geophysics, 59 (1). pp. 1-4. DOI 10.1080/00288306.2015.1130729.

[thumbnail of Geophysical Research Letters - 2018 - Wallace - Triggered Slow Slip and Afterslip on the Southern Hikurangi Subduction Zone.pdf]

Wallace, L. M. , Hreinsdóttir, S., Ellis, S., Hamling, I., D'Anastasio, E. and Denys, P. (2018) Triggered Slow Slip and Afterslip on the Southern Hikurangi Subduction Zone Following the Kaikoura Earthquake. Geophysical Research Letters, 45 (10). pp. 4710-4718. DOI doi: 10.1002/2018GL077385.

[thumbnail of ngeo3021.pdf]

Wallace, L. M. , Kaneko, Y., Hreinsdóttir, S., Hamling, I., Peng, Z., Bartlow, N., D'Anastasio, E. and Fry, B. (2017) Large-scale dynamic triggering of shallow slow slip enhanced by overlying sedimentary wedge. Nature Geoscience, 10 (10). pp. 765-770. DOI 10.1126/science.aam7194.

[thumbnail of i0091-7613-33-11-857.pdf]

Wallace, L. M. , McCaffrey, R., Beavan, J. and Ellis, S. (2005) Rapid microplate rotations and backarc rifting at the transition between collision and subduction. Geology, 33 (11). pp. 857-860. DOI 10.1130/G21834.1.

[thumbnail of Geochem Geophys Geosyst - 2009 - Wallace - Characterizing the seismogenic zone of a major plate boundary subduction thrust -1.pdf]

Wallace, L. M. , Reyners, M., Cochran, U., Bannister, S., Barnes, P. M., Berryman, K., Downes, G., Eberhart-Phillips, D., Fagereng, A., Ellis, S., Nicol, A., McCaffrey, R., Beavan, R. J., Henrys, S., Sutherland, R., Barker, D. H. N., Litchfield, N., Townend, J., Robinson, R., Bell, R., Wilson, K. and Power, W. (2009) Characterizing the seismogenic zone of a major plate boundary subduction thrust: Hikurangi Margin, New Zealand. Geochemistry, Geophysics, Geosystems, 10 (10). Art.Nr.: Q10006. DOI 10.1029/2009GC002610.

[thumbnail of Journal of Geophysical Research Solid Earth - 2004 - Wallace - GPS and seismological constraints on active tectonics and.pdf]

Wallace, L. M. , Stevens, C., Silver, E., McCaffrey, R., Loratung, W., Hasiata, S., Stanaway, R., Curley, R., Rosa, R. and Taugaloidi, J. (2004) GPS and seismological constraints on active tectonics and arc-continent collision in Papua New Guinea: Implications for mechanics of microplate rotations in a plate boundary zone. Journal of Geophysical Research: Solid Earth, 109 (5). Art.Mr.: B05404. DOI 10.1029/2003JB002481.

[thumbnail of science.aaf2349.pdf]

Wallace, L. M. , Webb, S. C., Ito, Y., Mochizuki, K., Hino, R., Henrys, S., Schwartz, S. Y. and Sheehan, A. F. (2016) Slow slip near the trench at the Hikurangi subduction zone, New Zealand. Science, 352 (6286). pp. 701-704. DOI 10.1126/science.aaf2349.

[thumbnail of 1-s2.0-S0012821X23000353-main.pdf] [thumbnail of ScienceDirect_files_26Nov2024_13-15-28.950.zip]

Wang, M., Barnes, P. M., Morgan, J. K., Bell, R. E., Moore, G. F., Wang, M., Fagereng, A., Savage, H., Gamboa, D., Harris, R. N., Henrys, S., Mountjoy, J., Tréhu, A. M., Saffer, D., Wallace, L. and Petronotis, K. (2023) Compactive deformation of incoming calcareous pelagic sediments, northern Hikurangi subduction margin, New Zealand: Implications for subduction processes. Open Access Earth and Planetary Science Letters, 605 . Art.Nr. 118022. DOI 10.1016/j.epsl.2023.118022.

[thumbnail of 1-s2.0-S0012821X22000796-main.pdf]

Wang, W., Savage, M. K., Yates, A., Zal, H. J., Webb, S., Boulton, C., Warren-Smith, E., Madley, M., Stern, T., Fry, B., Mochizuki, K. and Wallace, L. M. (2022) Temporal velocity variations in the northern Hikurangi margin and the relation to slow slip. Earth and Planetary Science Letters, 584 . Art.Nr.: 117443. DOI 10.1016/j.epsl.2022.117443.

[thumbnail of s41561-019-0367-x.pdf]

Warren-Smith, E., Fry, B., Wallace, L. M. , Chon, E., Henrys, S., Sheehan, A., Mochizuki, K., Schwartz, S., Webb, S. and Lebedev, S. (2019) Episodic stress and fluid pressure cycling in subducting oceanic crust during slow slip. Nature Geoscience, 12 (6). pp. 475-481. DOI 10.1038/s41561-019-0367-x.

[thumbnail of 227.pdf]

Webber, S., Norton, K. P., Little, T. A., Wallace, L. M. and Ellis, S. (2018) How fast can low-angle normal faults slip? Insights from cosmogenic exposure dating of the active Mai'iu fault, Papua New Guinea. Geology, 46 (3). pp. 227-230. DOI 10.1130/G39736.1.

[thumbnail of 1-s2.0-S092181810800180X-main.pdf]

Webster, J. M., Braga, J. C., Clague, D. A., Gallup, C., Hein, J. R., Potts, D. C., Renema, W., Riding, R., Riker-Coleman, K., Silver, E. and Wallace, L. M. (2009) Coral reef evolution on rapidly subsiding margins. Global and Planetary Change, 66 (1-2). pp. 129-148. DOI 10.1016/j.gloplacha.2008.07.010.

[thumbnail of Geochem Geophys Geosyst - 2004 - Webster - Drowned carbonate platforms in the Huon Gulf Papua New Guinea.pdf]

Webster, J. M., Riker-Coleman, K., Gallup, C., Wallace, L. M. , Braga, J. C., Silver, E., Applegate, B. and Potts, D. (2004) Drowned carbonate platforms in the Huon Gulf, Papua New Guinea. Geochemistry, Geophysics, Geosystems, 5 (11). Art.Nr.: Q11008. DOI 10.1029/2004GC000726.

[thumbnail of Geochem Geophys Geosyst - 2007 - Webster - Numerical modeling of the growth and drowning of Hawaiian coral reefs during the.pdf]

Webster, J. M., Wallace, L. M. , Clague, D. A. and Braga, J. C. (2007) Numerical modeling of the growth and drowning of Hawaiian coral reefs during the last two glacial cycles (0-250 kyr). Geochemistry, Geophysics, Geosystems, 8 (3). Art.Nr.: Q03011. DOI 10.1029/2006GC001415.

[thumbnail of 1-s2.0-S0025322703003566-main.pdf]

Webster, J. M., Wallace, L. M. , Silver, E., Potts, D., Braga, J. C., Renema, W., Riker-Coleman, K. and Gallup, C. (2004) Coralgal composition of drowned carbonate platforms in the Huon Gulf, Papua New Guinea; Implications for lowstand reef development and drowning. Marine Geology, 204 (1-2). pp. 59-89. DOI 10.1016/S0025-3227(03)00356-6.

[thumbnail of Geophysical Research Letters - 2015 - Williams - Effects of material property variations on slip estimates for subduction.pdf]

Williams, C. A. and Wallace, L. M. (2015) Effects of material property variations on slip estimates for subduction interface slow-slip events. Geophysical Research Letters, 42 (4). pp. 1113-1121. DOI 10.1002/2014GL062505.

[thumbnail of Geophysical Research Letters - 2018 - Williams - The Impact of Realistic Elastic Properties on Inversions of Shallow.pdf]

Williams, C. A. and Wallace, L. M. (2018) The Impact of Realistic Elastic Properties on Inversions of Shallow Subduction Interface Slow Slip Events Using Seafloor Geodetic Data. Geophysical Research Letters, 45 (15). pp. 7462-7470. DOI 10.1029/2018GL078042.

[thumbnail of s43017-021-00245-w-1.pdf]

Wirth, E. A., Sahakian, V. J., Wallace, L. M. and Melnick, D. (2022) The occurrence and hazards of great subduction zone earthquakes. Nature Reviews Earth & Environment, 3 (2). pp. 125-140. DOI 10.1038/s43017-021-00245-w.

[thumbnail of Woodhouse.pdf]

Woodhouse, A., Barnes, P. M., Shorrock, A., Strachan, L. J., Crundwell, M., Bostock, H. C., Hopkins, J., Kutterolf, S. , Pank, K., Behrens, E., Greve, A., Bell, R., Cook, A., Petronotis, K., LeVay, L., Jamieson, R. A., Aze, T., Wallace, L. , Saffer, D. and Pecher, I. (2024) Trench floor depositional response to glacio-eustatic changes over the last 45 ka, northern Hikurangi subduction margin, New Zealand. New Zealand Journal of Geology and Geophysics, 67 (3). pp. 312-335. DOI 10.1080/00288306.2022.2099432.

[thumbnail of JGR Solid Earth - 2024 - Woods - Spatiotemporal Evolution of Slow Slip Events at the Offshore Hikurangi Subduction Zone in.pdf] [thumbnail of 2024jb029068-sup-0001-supporting information si-s01.pdf]

Woods, K., Wallace, L. M. , Williams, C. A., Hamling, I. J., Webb, S. C., Ito, Y., Palmer, N., Hino, R., Suzuki, S., Savage, M. K., Warren-Smith, E. and Mochizuki, K. (2024) Spatiotemporal Evolution of Slow Slip Events at the Offshore Hikurangi Subduction Zone in 2019 using GNSS, InSAR, and seafloor geodetic data. Open Access Journal of Geophysical Research: Solid Earth, 129 (8). e2024JB029068. DOI 10.1029/2024jb029068.

[thumbnail of JGR Solid Earth - 2022 - Woods - Using Seafloor Geodesy to Detect Vertical Deformation at the Hikurangi Subduction Zone .pdf]

Woods, K., Webb, S. C., Wallace, L. M. , Ito, Y., Collins, C., Palmer, N., Hino, R., Savage, M. K., Saffer, D. M., Davis, E. E. and Barker, D. H. N. (2022) Using Seafloor Geodesy to Detect Vertical Deformation at the Hikurangi Subduction Zone: Insights From Self-Calibrating Pressure Sensors and Ocean General Circulation Models. Open Access Journal of Geophysical Research: Solid Earth, 127 (12). Art.Nr.: e2022JB023989. DOI 10.1029/2022JB023989.

[thumbnail of JGR Solid Earth - 2019 - Yarce - Seismicity at the Northern Hikurangi Margin New Zealand and Investigation of the.pdf]

Yarce, J., Sheehan, A. F., Nakai, J. S., Schwartz, S. Y., Mochizuki, K., Savage, M. K., Wallace, L. M. , Henrys, S. A., Webb, S. C., Ito, Y., Abercrombie, R. E., Fry, B., Shaddox, H. and Todd, E. K. (2019) Seismicity at the Northern Hikurangi Margin, New Zealand, and Investigation of the Potential Spatial and Temporal Relationships With a Shallow Slow Slip Event. Journal of Geophysical Research: Solid Earth, 124 (5). pp. 4751-4766. DOI 10.1029/2018JB017211.

[thumbnail of Geochem Geophys Geosyst - 2019 - Yohler - Time‐Dependent Behavior of a Near‐Trench Slow‐Slip Event at the Hikurangi.pdf]

Yohler, R., Bartlow, N., Wallace, L. M. and Williams, C. (2019) Time-Dependent Behavior of a Near-Trench Slow-Slip Event at the Hikurangi Subduction Zone. Geochemistry, Geophysics, Geosystems, 20 (8). pp. 4292-4304. DOI 10.1029/2019GC008229.

[thumbnail of 1-s2.0-S0012821X19306624-main.pdf]

Zal, H. J., Jacobs, K., Savage, M. K., Yarce, J., Mroczek, S., Graham, K., Todd, E. K., Nakai, J., Iwasaki, Y., Sheehan, A., Mochizuki, K., Wallace, L. M. , Schwartz, S., Webb, S. and Henrys, S. (2020) Temporal and spatial variations in seismic anisotropy and VP/VS ratios in a region of slow slip. Earth and Planetary Science Letters, 532 . Art.Nr.: 115970. DOI 10.1016/j.epsl.2019.115970.

Articles in a Scientific Journal - without review

[thumbnail of Slipping and Locking in Earth’s Earthquake Factories - Eos.pdf]

Bartlow, N., Wallace, L. M. , Elliott, J. and Schwartz, S. (2021) Slipping and Locking in Earth’s Earthquake Factories. Eos, Transactions American Geophysical Union, 102 (4). pp. 23-27. DOI 10.1029/2021eo155885.

[thumbnail of Investigations of Shallow Slow Slip Offshore of New Zealand - Eos.pdf]

Harris, R., Wallace, L. M. , Webb, S., Ito, Y., Mochizuki, K., Ichihara, H., Henrys, S., Tréhu, A., Schwartz, S., Sheehan, A., Saffer, D. and Lauer, R. (2016) Investigations of shallow slow slip offshore of New Zealand. Open Access Eos, Transactions American Geophysical Union, 97 (10). pp. 20-23. DOI 10.1029/2016eo048945.

[thumbnail of feart-09-744217.pdf]

Hino, R., Tadokoro, K. and Wallace, L. M. (2021) Editorial: Frontiers in Seafloor Geodesy. Open Access Frontiers in Earth Science, 9 . Art.Nr.: 744217. DOI 10.3389/feart.2021.744217.

Saffer, D. M., Wallace, L. M. , Barnes, P. M., Pecher, I. A., Petronotis, K. E. , LeVay, L. J. , Bell, R. E. , Crundwell, M. P. , Engelmann de Oliveira, C. H., Fagereng, A. , Fulton, P. M., Greve, A. , Harris, R. N., Hashimoto, Y. , Hüpers, A., Ikari, M. J. , Ito, Y. , Kitajima, H. , Kutterolf, S. , Lee, H., Li, X., Luo, M., Malie, P. R., Meneghini, F. , Morgan, J. K. , Noda, A. , Rabinowitz, H. S. , Savage, H. M. , Shepherd, C. L. , Shreedharan, S. , Solomon, E. A., Underwood, M. B. , Wang, M. , Woodhouse, A. D., Bourlange, S. M., Brunet, M. M. Y., Cardona, S., Clennell, M. B., Cook, A. E., Dugan, B. , Elger, J. , Gamboa, D., Georgiopoulou, A., Han, S., Heeschen, K. U., Hu, G., Kim, G. Y., Koge, H., Machado, K. S., McNamara, D. D., Moore, G. F. , Mountjoy, J. J., Nole, M. A. , Owari, S., Paganoni, M., Rose, P. S., Screaton, E. J. , Shankar, U., Torres, M. E. , Wang, X. and Wu, H. Y. (2019) Expedition 372B/375 summary. Open Access Proceedings of the International Ocean Discovery Program, 372B/375 . pp. 1-35. DOI 10.14379/iodp.proc.372B375.101.2019.

[thumbnail of sd-14-64-2012.pdf]

Wallace, L. M. , Silver, E. A., Bangs, N., Bell, R., Mountjoy, J., Henrys, S. and Pecher, I. (2012) IODP workshop on using ocean drilling to unlock the secrets of slow slip events. Open Access Scientific Drilling, 14 . pp. 64-67. DOI 10.2204/iodp.sd.14.10.2012.

[thumbnail of Acta Geologica Sinica Eng - 2019 - Wang - Structural analysis of compactive deformation in the incoming sedimentary.pdf]

Wang, M., Barnes, P., Morgan, J., Bell, R. E., Fagereng, A., Savage, H. M., Saffer, D. M., Wallace, L. M. , Petronotis, K. E. and Scientists, S. (2019) Structural analysis of compactive deformation in the incoming sedimentary section of the Hikurangi Subduction Margin, New Zealand: results from IODP 375 expedition. Acta Geologica Sinica (English Edition), 93 (S1). p. 157. DOI 10.1111/1755-6724.14005.

Book chapters


Beavan, J., Ellis, S., Wallace, L. M. and Denys, P. (2007) Kinematic Constraints from GPS on Oblique Convergence of the Pacific and Australian Plates, Central South Island, New Zealand. In: A Continental Plate Boundary: Tectonics at South Island, New Zealand. ; 175 . Geophysical Monograph Series . AGU (American Geophysical Union), Wiley, Washington, DC, USA, pp. 75-94. DOI 10.1029/175GM05.


Beavan, J., Wallace, L. M. , Fletcher, H. and Douglas, A. (2007) Slow slip events on the hikurangi subduction interface, New Zealand. In: Dynamic Planet: Monitoring and Understanding a Dynamic Planet with Geodetic and Oceanographic Tools. ; 130 . International Association of Geodesy Symposia, 130 . Springer, Heidelberg,Germany, pp. 438-444. DOI 10.1007/978-3-540-49350-1_64.


Stirling, M. W., Berryman, K. R., Wallace, L. M. , Litchfield, N. J., Beavan, J. and Smith, W. D. (2009) Multi-disciplinary probabilistic tectonic hazard analysis. In: Volcanic and Tectonic Hazard Assessment for Nuclear Facilities. . Cambridge University Press, Cambridge, UK, pp. 257-275. DOI 10.1017/CBO9780511635380.011.


Sutherland, R., Eberhart-Phillips, D., Harris, R. A., Stern, T., Beavan, J., Ellis, S., Henrys, S., Cox, S., Norris, R. J., Berryman, K. R., Townend, J., Bannister, S., Pettinga, J., Leitner, B., Wallace, L. M. , Little, T. A., Cooper, A. F., Yetton, M. and Stirling, M. (2013) Do Great Earthquakes Occur on the Alpine Fault in Central South Island, New Zealand?. In: A Continental Plate Boundary: Tectonics at South Island, New Zealand. ; 175 . Geophysical Monograph Series . AGU (American Geophysical Union), Wiley, Washington, DC, USA, pp. 235-251. DOI 10.1029/175GM12.


Wallace, L. M. , Beavan, J., Miura, S. and McCaffrey, R. (2009) Using global positioning system data to assess tectonic hazards. In: Volcanic and Tectonic Hazard Assessment for Nuclear Facilities. . Cambridge University Press, Cambridge, UK, pp. 156-175. DOI 10.1017/CBO9780511635380.007.

[thumbnail of wallace_rollins_transient_deformation_GNSS.pdf]

Wallace, L. M. and Rollins, C. (2024) GNSS observations of transient deformation in plate boundary zones. In: GNSS Monitoring of the Terrestrial Environment: Earthquakes, Volcanoes and Climate Change. , ed. by Aoki, Y. and Kreemer, C.. Elsevier, San Diego, pp. 83-110. ISBN 978-0-323-95507-2 DOI 10.1016/B978-0-323-95507-2.00009-8.

Conference papers

[thumbnail of SMART_Cables_Observing_the_Oceans_and_Earth.pdf]

Howe, B., Aucan, J., Barros, J., Bayliff, N., Fouch, M., Jamelot, A., Kong, L., Lentz, S., Luther, D. S., Marinaro, G., Matias, L., Panayotou, K., Rowe, C., Sakya, A. E., Salaree, A., Hillebrandt-Andrade, C. V., Wallace, L. M. and Weinstein, S. (2021) SMART Cables Observing the Oceans and Earth. [Paper] In: Oceans 2021. , 20.-23.09.2021, San Diego, USA . DOI 10.23919/OCEANS44145.2021.9705851. OCEANS 2021: San Diego – Porto, 2021 .


Stirling, M., Berryman, K., Wallace, L. M. , Litchfield, N., Apted, M. and Cloos, M. (2006) Neotectonic considerations for nuclear waste repository site selection in Japan. [Paper] In: 11. International High Level Radioactive Waste Management Conference IHLRWM. , 30.04.-04.05.2006, Las Vegas, USA . Proceedings of the 11th International High Level Radioactive Waste Management Conference, IHLRWM. ; pp. 151-153 .

Reports - Cruise Reports

[thumbnail of 375PR.PDF]

Saffer, D. M., Wallace, L. M., Petronotis, K., Barnes, P. B., Bell, R. B., Crundwell, M. C., De Oliveira, C. H. E., Fagereng, A., Fulton, P. F., Greve, A., Harris, R. H., Hashimoto, Y., Hüpers, A., Ikari, M. I., Ito, Y., Kitajima, H., Kutterolf, S. , Lee, H., Li, X., Luo, M., Malie, P. M., Meneghini, F., Morgan, J. M., Noda, A. and Fatouros, T. A. (2018) International ocean discovery program expedition 375 preliminary report: Hikurangi subduction margin coring and observatories unlocking the secrets of slow slip through drilling to sample and monitor the forearc and subducting plate, 8 March - 5 May 2018. Open Access . Integrated Ocean Drilling Program: Preliminary Reports, 375 . UNSPECIFIED, 38 pp. DOI 10.14379/iodp.pr.375.2018.

Award


Wallace, L. M. (2015) Distinguished lecturer for the NSF GeoPRISMS Program. [Award]


Wallace, L. M. (2016) Distinguished lecturer for the NSF GeoPRISMS Program. [Award]


Wallace, L. M. (2018) Fellow of the Royal Society of New Zealand. [Award]


Wallace, L. M. (2014) Kavli Foundation Frontiers of Science Fellow. [Award]


Wallace, L. M. (2015) Kavli Foundation Frontiers of Science Fellow. [Award]


Wallace, L. M. (2018) McKay Hammer Award from the Geoscience Society of New Zealand. [Award]

Committee


Wallace, L. M. (2024) American Geophysical Union / Incoming President of the Geodesy section. 2024 - 2025 [Committee]


Wallace, L. M. (2025) American Geophysical Union / President of the Geodesy section. 2025 - 2026 [Committee]


Wallace, L. M. (2018) Board of Directors for UNAVCO / Member (Vice-Chair in 2021). 2018 - 2021 [Committee]


Wallace, L. M. (2024) EPOS-France / Member Scientific Advisory Board. 2024 - [Committee]


Wallace, L. M. (2009) Tsunami Experts Panel (TEP) / Member. 2009 - 2023 [Committee]

This list was generated on Thu Apr 3 15:34:55 2025 CEST.

Publikationen (Highlights)

Wallace, L.M. (2020), Slow Slip Events in New Zealand, Annual Review of Earth and Planetary Sciences; annurev-earth-0717190055104.

Wallace, L.M., Y. Kaneko, 2017, Large-scale dynamic triggering of shallow slow slip enhanced by overlying sedimentary wedge, Nature Geoscience, 10, 765-770 doi: 10.1038/ngeo3021

Wallace, L.M., S.C. Webb, et al., 2016, Slow slip near the trench at the Hikurangi subduction zone, Science, 352(6286), 701-704

Saffer, D.M. and L.M. Wallace, 2015, The Frictional, Hydrologic, Metamorphic, and Thermal Habitat of Shallow Slow Earthquakes, Nature Geoscience, 8, 594-600, doi:10.1038/ngeo2490.

Wallace, L.M., Beavan, J., McCaffrey, R., and Darby, D., 2004b, Subduction zone coupling and tectonic block rotation in the North Island, New Zealand, Journal of Geophysical Research, 109, 2004JB003241

Bassett, D., Shillington, D.J., Wallace, L.M. and Elliott, J.L., 2025. Variation in slip behaviour along megathrusts controlled by multiple physical properties. Nature Geoscience, pp.1-12.

Wallace, L.M. and Rollins, C., 2024. GNSS observations of transient deformation in plate boundary zones. In GNSS Monitoring of the Terrestrial Environment (pp. 83-110). Elsevier.

Johnson, K.M., Wallace, L.M., et.al, 2024. Inverting geodetic strain rates for slip deficit rate in complex deforming zones: An application to the New Zealand plate boundary. J. of Geophys. Res.: Solid Earth, 129(3), p.e2023JB027565.

Shreedharan, S., Saffer, D., L.M. Wallace, and C. Williams, 2023, Ultralow frictional healing explains recurring slow slip events, Science, 379(6633), 712-717.

Barnes, P.M., L.M. Wallace, D.M. Saffer et al. (2020), Slow slip source characterized by lithological and geometric heterogeneity, Science Advances, 6, aay3314.

Publikationen (Google Scholar)

Prof. Laura M. Walalce auf Google Scholar

Zitiert von:

  Alle Seit 2020
Citations 10.975 > 5550
h-index 51 38
i10-index 126 106

 

Auszeichnungen/Ehrungen

Seit 2018:
Mitglied der Royal Society of New Zealand
2020, 2012 & 2007:
Editor's citation for excellence in refereeing, Journal of Geophysical Research-Solid Earth
2018:
McKay Hammer Award von der Geoscience Society of New Zealand
2018, 2019, 2016 & 2005:
Neuseeländischer Geophysik-Preis (verliehen von der Geoscience Society of NZ für die beste Arbeit über neuseeländische Geophysik im laufenden und/oder vorangegangenen Jahr)
2015/2016:
Distinguished Lecturer für die NSF GeoPRISMS Distinguished Lecturer Serie
2014 & 2015:
Kavli Foundation Frontiers of Science Fellow
2012:
Editor's Citation für herausragende Leistungen bei der Begutachtung, Geophysical Research Letters

betreute Studierende und Wissenschaftler:innen

  • Elizabeth Meaghan Sherrill (PostDoc, GEOMAR, 2025-heute)
  • Erik Frederickson (PostDoc, University of Texas, Institute for Geophysics, 2023-heute)
  • Srisharan Shreedharan (PostDoc, University of Texas, Institute for Geophysics, 2020-2022)
  • Lada Dimitrova (PostDoc, University of Texas, Institute for Geophysics, 2012-2016)
  • McKenzie Carlson (PhD Student, University of Texas, 2023-heute)
  • James Biemiller (PhD Student, University of Texas, 2015-heute)
  • Katherine Woods (PhD Student, Victoria University of Wellington, 2018-2022)
  • Nicholas Benz (Bachelor thesis, Univ. Texas, 2013)
  • Member of the examination committee for doctoral students at the University of Texas, Alissa Kotowski und Kimberley McCormick.

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