Dr. Katerina Petonotis
Publications
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. Earth and Planetary Science Letters, 605:118022.
https://doi.org/
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., 2022. 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.
https://doi.org/
Yang, T., Dekkers, M.J., Zhao, X., Petronotis, K.E., and Chou, Y.-M., 2022. Greigite formation modulated by turbidites and bioturbation in deep-sea sediments offshore Sumatra. Journal of Geophysical Research: Solid Earth, 127(11):e2022JB024734.
https://doi.org/
McNamara, D.D., Behboudi, E., Wallace, L., 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. Geophysical Research Letters, 48(5):e2020GL091707.
https://doi.org/
Sager, W., Hoernle, K., and Petronotis, K., 2021. Expedition 391 Scientific Prospectus Addendum: Walvis Ridge Hotspot: International Ocean Discovery Program
https://doi.org/
Savage, H.M., Shreedharan, S., Fagereng, Å., 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 Pāpaku fault, Hikurangi Subduction Margin, NZ, IODP Expedition 375. Geochemistry, Geophysics, Geosystems, 22(8):e2021GC009662.
https://doi.org/
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. Science Advances, 6(13):eaay3314.
https://doi.org/
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):e2020GL088474.
https://doi.org/
McNeill, L., Dugan, B., Petronotis, K. Milliken, K., Francis, J., and the Expedition 362 Scientists, 2020. Late Miocene wood recovered in Bengal-Nicobar submarine fan sediments by IODP Expedition 362. Scientific Drilling, 27:49-52.
https://doi.org/
Sager, W., Hoernle, K., and Petronotis, K., 2020. Expedition 391 Scientific Prospectus: Walvis Ridge Hotspot: International Ocean Discovery Program.
https://doi.org/
Scott, L., Gamage, K., Davis, L., and Petronotis, K., 2020. Integrating research experience into introductory geoscience courses. In the Trenches, 10. https://nagt.org/nagt/publications/trenches/v10-n2/integrating_research_experience.html
Backman, J., Wenchuang, C., Kachovich, S., Mitchison, F.L., Petronotis, K.E., Tao, Y., and Zhao, X., 2019. Data report: revised age models for IODP Sites U1480 and U1481, Expedition 362. In McNeill, L.C., Dugan, B., Petronotis, K.E., and the Expedition 362 Scientists, Sumatra Subduction Zone. Proceedings of the International Ocean Discovery Program, 362: College Station, TX (International Ocean Discovery Program).
https://doi.org/
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. Geology, 47(9):872-876.
https://doi.org/
Gray, M., Bell, R.E, Morgan, J.V., Henrys, S., Barker, D.H.N., and the IODP Expedition 372 and 375 Science Parties, 2019. Imaging the shallow subsurface structure of the north Hikurangi subduction zone, New Zealand, using 2-D full-waveform inversion. Journal of Geophysical Research: Solid Earth, 124(8):9049-9074.
https://doi.org/
Wallace, L.M., Saffer, D.M., Barnes, P.M., Pecher, I.A., Petronotis, K.E., LeVay, L.J., and the Expedition 372/375 Scientists, 2019. Hikurangi Subduction Margin Coring, Logging, and Observatories. In Proceedings of the International Ocean Discovery Program, 372B/375: College Station, TX (International Ocean Discovery Program).
https://doi.org/
Wang, M., Barnes, P., Morgan, J., Bell, R.E., Fagereng, A., Savage, H.M., Saffer, D.M., Wallace, L.M., Petronotis, K.E., and Shipboard Scientists, 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):157.
https://doi.org/
Yang, T., Zhao, X., Petronotis, K., Dekkers, M.J., and Xu, H., 2019. Anisotropy of magnetic susceptibility (AMS) of sediments from Holes U1480E and U1480H, IODP Expedition 362: sedimentary or artificial origin and implications for paleomagnetic studies. Geochemistry, Geophysics, Geosystems, 20(11):5192-5215.
https://doi.org/
Kutterolf, S., Schindlbeck, J.C., Robertson, A.H.F., Avery, A., Baxter, A.T., Petronotis, K., and Wang, K.-L., 2018. Tephrostratigraphy and provenance From IODP Expedition 352, Izu-Bonin Arc: tracing tephra sources and volumes from the Oligocene to Recent. Geochemistry, Geophysics, Geosystems, 19(1):150-174.
https://doi.org/
Li, Y.-X., Zhao, X., Xie, S., Jovane, L., and Petronotis, K., 2018. Paleomagnetism of IODP Site U1380: implications for the forearc deformation in the Costa Rican erosive convergent margin. Scientific Reports, 8(1):11430.
https://doi.org/
Robertson, A.H.F., Kutterolf, S., Avery, A., Baxter, A.T., Petronotis, K., Acton, G.D., Carvallo, C., and Schindlbeck, J.C., 2018. Depositional setting, provenance, and tectonic-volcanic setting of Eocene-Recent deep-sea sediments of the oceanic Izu-Bonin forearc, northwest Pacific (IODP Expedition 352). International Geology Review, 60(15):1816-1854.
https://doi.org/
Saffer, D.M., Wallace, L.M., Petronotis, K., and the Expedition 375 Scientists, 2018. Expedition 375 Preliminary Report: Hikurangi Subduction Margin Coring and Observatories. International Ocean Discovery Program.
https://doi.org/
Dugan, B., McNeill, L., Petronotis, K., and the Expedition 362 Scientists, 2017. Expedition 362 Preliminary Report: Sumatra Subduction Zone: International Ocean Discovery Program.
https://doi.org/
Hüpers, A., Torres, M.E., Owari, S., McNeill, L.C., Dugan, B., Henstock, T.J., Milliken, K.L., Petronotis, K.E., Backman, J., Bourlange, S., Chemale, F., Chen, W., Colson, T.A., Frederik, M.C.G., Guèrin, G., Hamahashi, M., House, B.M., Jeppson, T.N., Kachovich, S., Kenigsberg, A.R., Kuranaga, M., Kutterolf, S., Mitchison, F.L., Mukoyoshi, H., Nair, N., Pickering, K.T., Pouderoux, H.F.A., Shan, Y., Song, I., Vannucchi, P., Vrolijk, P.J., Yang, T., and Zhao, X., 2017. Release of mineral-bound water prior to subduction tied to shallow seismogenic slip off Sumatra. Science, 356(6340):841-844.
https://doi.org/
McNeill, L.C., Dugan, B., Petronotis, K.E., and the Expedition 362 Scientists, 2017. Sumatra Subduction Zone. Proceedings of the International Ocean Discovery Program: College Station, TX (International Ocean Discovery Program).
https://doi.org/
McNeill, L.C., Dugan, B., Backman, J., Pickering, K.T., Pouderoux, H.F.A., Henstock, T.J., Petronotis, K.E., Carter, A., Chemale, F., Milliken, K.L., Kutterolf, S., Mukoyoshi, H., Chen, W., Kachovich, S., Mitchison, F.L., Bourlange, S., Colson, T.A., Frederik, M.C.G., Guèrin, G., Hamahashi, M., House, B.M., Hüpers, A., Jeppson, T.N., Kenigsberg, A.R., Kuranaga, M., Nair, N., Owari, S., Shan, Y., Song, I., Torres, M.E., Vannucchi, P., Vrolijk, P.J., Yang, T., Zhao, X., and Thomas, E., 2017. Understanding Himalayan erosion and the significance of the Nicobar Fan. Earth and Planetary Science Letters, 475:134-142.
https://doi.org/
Reagan, M.K., Pearce, J.A., Petronotis, K., Almeev, R.R., Avery, A.J., Carvallo, C., Chapman, T., Christeson, G.L., Ferré, E.C., Godard, M., Heaton, D.E., Kirchenbaur, M., Kurz, W., Kutterolf, S., Li, H., Li, Y., Michibayashi, K., Morgan, S., Nelson, W.R., Prytulak, J., Python, M., Robertson, A.H.F., Ryan, J.G., Sager, W.W., Sakuyama, T., Shervais, J.W., Shimizu, K., and Whattam, S.A., 2017. Subduction initiation and ophiolite crust: new insights from IODP drilling. International Geology Review, 59(11):1439-1450.
https://doi.org/
Ryan, J.G., Shervais, J.W., Li, Y., Reagan, M.K., Li, H.Y., Heaton, D., Godard, M., Kirchenbaur, M., Whattam, S.A., Pearce, J.A., Chapman, T., Nelson, W., Prytulak, J., Shimizu, K., and Petronotis, K., 2017. Application of a handheld X-ray fluorescence spectrometer for real-time, high-density quantitative analysis of drilled igneous rocks and sediments during IODP Expedition 352. Chemical Geology, 451:55-66.
https://doi.org/
Saffer, D., Wallace, L., and Petronotis, K., 2017. Expedition 375 Scientific Prospectus: Hikurangi Subduction Margin Coring and Observatories. International Ocean Discovery Program.
https://doi.org/
McNeill, L.C., Dugan, B.E., and Petronotis, K.E., 2016. Expedition 362 Scientific Prospectus: The Sumatra Subduction Zone: International Ocean Discovery Program
https://doi.org/
McNeill, L.C., Dugan, B.E., and Petronotis, K.E., 2016. Expedition 362 Scientific Prospectus Addendum: the Sumatra subduction zone: International Ocean Discovery Program.
https://doi.org/
Li, Y.-X., Zhao, X., Jovane, L., Petronotis, K.E., Gong, Z., and Xie, S., 2015. Paleomagnetic constraints on the tectonic evolution of the Costa Rican subduction zone: new results from sedimentary successions of IODP drill sites from the Cocos Ridge. Geochemistry, Geophysics, Geosystems, 16(12):4479-4493.
https://doi.org/
Petronotis, K.E., Acton, G.D., Jovane, L., Yongxiang, L., and Zhao, X., 2015. Data report: magnetic properties of sediments and basalts from the Costa Rica subduction margin (Expeditions 334 and 344). In Harris, R.N., Sakaguchi, A., Petronotis, K., and the Expedition 344 Scientists, Proceedings of the Integrated Ocean Drilling Program. 344: College Station, TX (Integrated Ocean Drilling Program).
https://doi.org/
Reagan, M.K., Pearce, J.A., Petronotis, K., and the Expedition 352 Scientists, 2015. Izu-Bonin-Mariana Fore Arc. Proceedings of the International Ocean Discovery Program, 352: College Station, TX (International Ocean Discovery Program).
https://doi.org/
Expedition 352 Scientists (including K.E. Petronotis), 2014. Expedition 352 Preliminary Report: Izu-Bonin-Mariana Fore Arc. International Ocean Discovery Program.
https://doi.org/
Harris, R.N., Sakaguchi, A., Petronotis, K., and the Expedition 344 Scientists, 2013. Proceedings of the Integrated Ocean Drilling Program, 344: College Station, TX (Integrated Ocean Drilling Program).
https://doi.org/
Expedition 344 Scientists, 2013. Costa Rica Seismogenesis Project, Program A Stage 2 (CRISP-A2): sampling and quantifying lithologic inputs and fluid inputs and outputs of the seismogenic zone. Integrated Ocean Drilling Program Preliminary Report, 344.
https://doi.org/
Expedition 344 Scientists, 2013. Costa Rica Seismogenesis Project: sampling and quantifying lithologic inputs and fluid inputs and outputs of the seismogenic zone. Integrated Ocean Drilling Program Preliminary Report, 334.
https://doi.org/
Pearce, J.A., Reagan, M.K., Stern, R.J., and Petronotis, K., 2013. Expedition 352 Scientific Prospectus: Izu-Bonin-Mariana Fore Arc. International Ocean Discovery Program.
https://doi.org/
Fisher, A.T., Tsuji, T., Petronotis, K., Wheat, C.G., Becker, K., Clark, J.F., Cowen, J., Edwards, K., Jannasch, H., and the Expedition 327 and Atlantis Expedition AT18-07 Shipboard Parties, 2012. IODP Expedition 327 and Atlantis Expedition AT 18-07: observatories and experiments on the eastern flank of the Juan de Fuca Ridge. Scientific Drilling, 13:4-11.
https://doi.org/
Harris, R., Sakaguchi, A., and Petronotis, K., 2012. Costa Rica Seismogenesis Project, Program A Stage 2 (CRISP-A2): sampling and quantifying lithologic inputs and fluid inputs and outputs of the seismogenic zone. Integrated Ocean Drilling Program Scientific Prospectus, 344.
https://doi.org/
Fisher, A., Cowen, J.P., Wheat, C.G., and Clark, J.F., 2011. Preparation and injection of fluid tracers during IODP Expedition 327, eastern flank of Juan de Fuca Ridge. In Fisher, A.T., Tsuji, T., Petronotis, K., and the Expedition 327 Scientists, Proceedings of the Integrated Ocean Drilling Program. 327: Tokyo (Integrated Ocean Drilling Program Management International, Inc.).
https://doi.org/
Fisher, A.T., Tsuji, T., Petronotis, K., and the Expedition 327 Scientists, 2011. Proceedings of the Integrated Ocean Drilling Program, 327: Tokyo (IODP Management International).
https://doi.org/
Jaeger, J., Gulick, S., Mix, A., and Petronotis, K., 2011. Southern Alaska margin: interactions of tectonics, climate, and sedimentation. Integrated Ocean Drilling Program Scientific Prospectus, 341.
https://doi.org/
Davis, E., and Petronotis, K.E., 2010. Cascadia subduction zone ACORK observatory. Integrated Ocean Drilling Program Scientific Prospectus, 328.
https://doi.org/
Expedition 327 Scientists (including K.E. Petronotis), 2010. Juan de Fuca ridge-flank hydrogeology: the hydrogeologic architecture of basaltic oceanic crust: compartmentalization, anisotropy, microbiology, and crustal-scale properties on the eastern flank of Juan de Fuca Ridge, eastern Pacific Ocean. Integrated Ocean Drilling Program Preliminary Report, 327.
https://doi.org/
Fisher, A.T., Tsuji, T., and Gamage, K., 2010. Juan de Fuca Ridge-flank hydrogeology: the hydrogeologic architecture of basaltic oceanic crust: compartmentalization, anisotropy, microbiology, and crustal-scale properties on the eastern flank of Juan de Fuca Ridge, eastern Pacific Ocean. Integrated Ocean Drilling Program Scientific Prospectus, 327.
https://doi.org/
Morgan, J.K.M., Sunderland, E.B., and Ask, M., 2007. Deformation and mechanical strength of sediments at the Nankai subduction zone: implications for prism evolution and décollement initiation and propagation. In Timothy, H.D. and Moore, J.C., The Seismogenic Zone of Subduction Thrust Faults: [MARGINS Theoretical Institute on “The Seismogenic Zone Revisited”, held at Snowbird, Utah, March 16 to 21, 2003]. New York (Columbia University Press), 210-256. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-21431
Petronotis, K., 2005. Careers in scientific ocean drilling. The Earth Scientist, 29(3):10-12.
Petronotis, K.E., and Gordon, R.G., 1999. A Maastrichtian palaeomagnetic pole for the Pacific plate from a skewness analysis of marine magnetic anomaly 32. Geophysical Journal International, 139(1):227-247.
https://doi.org/
Acton, G.D., Petronotis, K.E., Cape, C.D., Ilg, S.R., Gordon, R.G., and Bryan, P.C., 1996. A test of the geocentric axial dipole hypothesis from an analysis of the skewness of the central marine magnetic anomaly. Earth and Planetary Science Letters, 144(3):337-346.
https://doi.org/
Acton, G.D., and Petronotis, K.E., 1994. Studying oceanic plate motions with magnetic data. Eos, Transactions of the American Geophysical Union, 75(5):49-52.
https://doi.org/
Petronotis, K.E., Gordon, R.G., and Acton, G.D., 1994. A 57 Ma Pacific plate palaeomagnetic pole determined from a skewness analysis of crossings of marine magnetic anomaly 25r. Geophysical Journal International, 118(3):529-554.
https://doi.org/
Bryan, P.C., Shoberg, T., Gordon, R.G., Petronotis, K.E., and Bergersen, D.D., 1993. A paleomagnetic pole and estimated age for Lo-En Guyot, Republic of the Marshall Islands. Geophysical Monograph, 77:387-400. https://ui.adsabs.harvard.edu/abs/1993GMS....77..387B/abstract
Petronotis, K.E., Gordon, R.G., and Acton, G.D., 1992. Determining palaeomagnetic poles and anomalous skewness from marine magnetic anomaly skewness data from a single plate. Geophysical Journal International, 109(1):209-224.
https://doi.org/
Petronotis, K.E., and Jurdy, D.M., 1990. Pacific plate reconstructions and uncertainties. Tectonophysics, 182(3-4):383-391.
https://doi.org/
Petronotis, K.E., and Gordon, R.G., 1989. Age dependence of skewness of magnetic anomalies above seafloor formed at the Pacific-Kula Spreading Center. Geophysical Research Letters, 16(4):315-318.
https://doi.org/