Stacey Servito Martin

B.Sc. Geology
PhD student

My research seeks to develop and/or apply modern techniques, sometimes in conjunction with sparse instrumental records, to observations extracted from historical materials to quantify and intepret earthquakes and tsunamis that pre-date the modern era.

The importance of the systematic and critical investigation of historical and early-instrumental earthquakes is necessary to correctly estimate modern seismic and tsunami hazard.

The focus of my current research, supervised by Dr Phil Cummins, is the region of the Indonesian Archipelago. My previous work and publications have dealt with earthquakes and tsunamis in the Indian Subcontinent, Southeast Asia, New Zealand, and the central United States and California.

Google Scholar | Orchid ID

Research interests

Historical and Early-instrumental Seismicity

Publications

Martin, S.S., L. Li, E. Okal, J. Morin, A. Tetteroo, A. Switzer, K. Sieh (2020), Correction to: Reassessment of the 1907 Sumatra “tsunami earthquake” based on macroseismic, seismological and tsunami observations, and modelling, Pure and Applied Geophysics.

Martin, S.S., Y. Wang, M. Muzli, and S. Wei (2020), The 1922 Peninsula Malaysia earthquakes: Rare intraplate seismicity within the Sundaland Block in southeast Asia, Seismological Research Letters, 91 (5), 2531–2545.

Martin, S.S. and S.E. Hough (2019), Where was the 31 October 1895 Charleston, Missouri, earthquake? Bulletin of the Seismological Society of America, 109 (4), 1479–1497.

Aung, L.T., S.S. Martin, Y. Wang, S. Wei, M. Thant, K.N. Htay, H.M. Aung, T.Z. Kyaw, S. Min, K. Sithu, T. Naing, E.H.N. Myo, T.H. Oo, S. N. Khaing, G. Suresh, W. Chen, P. M. Maung, and V.K. Gahalaut (2019), A comprehensive assessment of ground motions from two 2016 intra-slab earthquakes in Myanmar, Tectonophysics, 765, 146–160.

Martin, S.S., L. Li, E. Okal, J. Morin, A. Tetteroo, A. Switzer, K. Sieh (2019), Reassessment of the 1907 Sumatra “tsunami earthquake” based on macroseismic, seismological and tsunami observations, and modelling, Pure and Applied Geophysics, 176, 2831–2868.

Hough, S.E. and S.S. Martin (2018), A proposed rupture scenario for the Mw 6.5 1925 Santa Barbara, California, earthquake, Tectonophysics, 747-748, 211–224.

Adhikari, S.R., G. Basyal, A. Dixit, S.S. Martin, M. Landès, R. Bossu, and S.E. Hough (2017), Towards a unified near-field intensity map of the 2015 Mw 7.8 Gorkha, Nepal, Earthquake, Earthquake Spectra, 33, S1–34.

Rajaure, S., D. Asimaki, E. Thompson, S. E. Hough, S.S. Martin, J.P. Ampuero, A. Inbal, M. R. Dhital, A. Inbal, N. Takai, M. Shigefuji, S. Bijukchen, M. Ichiyanagi, T. Sasatani, and, L. Paudel (2017), Characterizing the Kathmandu Valley sediment response through strong motion recordings of the 2015 Gorkha Earthquake sequence, Tectonophysics, 714–715, 146–157.

Debbarma, J., S.S. Martin, G. Suresh, A. Ahsan, and V.K. Gahalaut (2017), A preliminary report on the Mw 5.6 Manu, Tripura (India) earthquake, Journal of Asian Earth Sciences, 148, 173–180.

Bossu, R., M. Landès, F. Roussel, R. Steed, G. Mazet-Roux, S.S. Martin and S.E. Hough (2017), Thumbnail-Based Questionnaires for the Rapid and Efficient Collection of Macroseismic Data from Global Earthquakes, Seismological research Letters, 88 (1), 72–82.

Hough, S.E., S.S. Martin, V.K. Gahalaut, A. Joshi, M. Landes and, R. Bossu (2016), A comparison of observed, recorded and predicted ground motions from the 2015 Gorkha, Nepal earthquake, Natural Hazards, 84 (3), 1661–1684.

Gahalaut, V.K., S.S. Martin, D. Srinagesh, S. L. Kapil, G. Suresh, S. Saikia, V. Kumar, H. Dadhich, S. K. Prajapati, J. L. Gautam, P. Baidya, S. Mandal, A. Jain (2016), Seismological, geodetic, macroseismic and historical context of the 2016 Mw 6.7 Tamenglong (Manipur), India earthquake, Tectonophysics, 688, 36–48.

Martin, S.S. and S. E. Hough (2016), Reply to "Comment on 'Ground Motions from the 2015 Mw 7.8 Gorkha, Nepal, Earthquake Constrained by a Detailed Assessment of Macroseismic Data' by Stacey Martin, Susan E. Hough and Charleen Hung" by Andrea Tertulliani, Laura Graziani, Corrado Castellano, Alessandra Maramai and Antonio Rossi, Seismological Research Letters, 87 (4), 957–962.

Hough, S.E. and S.S. Martin (2015), The 1868 Hayward Fault earthquake: Implications for earthquake scaling relations on partially creeping faults, Bulletin of the Seismological Society of America, 106 (5), 2894–2909.

Dixit, A.M., A. Ringler, D. Sumy, E. Cochran, S.E. Hough, S.S. Martin, S. Gibbons, J. Luetgert, J. Galetzka, S.N. Shrestha, S. Rajaure, and D. McNamara (2015), Strong motion recordings of the M7.8 Gorkha, Nepal, earthquake sequence from low-cost, Quake Catcher Network accelerometers,  Seismological Research Letters, 86 (6), 1533–1539.

Martin, S.S., S.E. Hough, and C. Hung (2015), Ground Motions from the 2015 M7.8 Gorkha, Nepal, Earthquake Constrained by a Detailed Assessment of Macroseismic Data, Seismological Research Letters, 86 (6), 1524–1532.

Martin, S.S. and S.E. Hough (2015), The 2014 Bay of Bengal earthquake: Macroseismic data reveals a high-stress drop event, Seismological Research Letters, 86 (2A), 369–377.

Reyners, M., D. Eberhart-Phillips and S.S. Martin (2014), Widespread rock cracking and healing during an energetic earthquake sequence, Nature Geoscience, 7, 34–37.

Singh, S.K., G. Suresh, R.S. Dattatrayam, H.P. Shukla, S.S. Martin, J. Havskov, X. Perez-Campos and A. Iglesias (2013), 1960 Delhi earthquake: Epicentre, depth and magnitude, Current Science, 105 (8), 1155–1165.

Martin, S.S. and D.M. Kakar (2012), The 19 January 2011 Mw 7.2 Dalbandin Earthquake, Balochistan, Bulletin of the Seismological Society of America, 102 (4), 1810–1819.

Szeliga, W., S.E. Hough, S.S. Martin, and R. Bilham (2010), Intensity, magnitude, location and attenuation in India for felt earthquakes since 1762, Bulletin of the Seismological Society of America, 100 (2), 570–584.

Martin. S.S. and W. Szeliga (2010), A catalog of felt intensity data for 589 earthquakes in India, 1636-2008, Bulletin of the Seismological Society of America, 100 (2), 536–569.

Martin, S.S. (2005), Intensity Distribution from the 2004 M9.0 Sumatra-Andaman Earthquake, Seismological Research Letters, 76 (3), 321–330.

Hough, S.E., S.S. Martin, R. Bilham, and G. Atkinson (2003), A media-based assessment of damage and ground motions from the January 26th 2001 M7.6 Bhuj, India earthquake, Journal of Earth System Science, 112 (3), 353–375.

Hough, S.E. and S.S. Martin (2002), Magnitude estimates of two large aftershocks of the 16 December, 1811 New Madrid earthquake, Bulletin of the Seismological Society of America, 92 (8), 3259–3268.

Hough, S.E., S.S. Martin, R. Bilham and G. Atkinson (2002), The 26 January, 2001 Bhuj, India, earthquake: observed and predicted ground motions, Bulletin of the Seismological Society of America, 92 (2), 2061–2079.

Bendick, R., R. Bilham, R. Fielding, V. Gaur, S.E. Hough, G. Kier, M. Kulkarni, S.S. Martin and M. Mukul (2001), The January 26, 2001 "Republic Day" earthquake, India, Seismological Research Letters, 72 (7), 328–335.