USGS Menlo Park: 2016.06.29

I present material about his research offshore of Sumatra. I present my interpretation of the sedimentary evidence for subduction zone earthquakes found along the seafloor in the form of seismoturbidites. This page has some supporting material from this presentation, including the digital presentation file.

    Digital Presentation:

  • Here is the Digital Presentation from this talk about Seismoturbidite Chronostratigraphy and Slope Stability offshore Sumatera, Indonesia: USGS Earthquake Science Center Seminar (175 MB)

    These videos are in the PowerPoint and you need to download them independently:

  • Here is the video of coring offshore Sumatra (8 MB)
  • Here is the video showing a turbidity current in an aquarium (7.1 MB)
  • Here is the video showing tsunamigenesis from an earthquake in Sumatra (7 MB)

To commemorate the Decadal Anniversary I posted some material regarding the earthquake and tsunami that changed the lives of millions here. I duplicate this material on this page below. This Mw 9.15 earthquake, slightly smaller in magnitude than the M 9.2 Good Friday Earthquake of 1964/3/27, was devastating as over 200,000 people lost their lives. We hope that their lives were not lost in vain as we attempt to learn many lessons from the results of our observations following this earthquake and tsunami. This post will cover the initial observations and I will follow up with material that was found later.

In 2004 many people had the belief that the historical seismicity for a fault related directly to the seismic potential of that fault. Not everyone held this belief, especially those that recognized that many large fault systems had recurrence intervals (average time between earthquakes of a given magnitude) that were longer than the record of seismicity for those fault systems. Seismologic records (records from seismometers) only extend back about a century. Large plate boundary faults, those with the possibility of generating large magnitude earthquakes, the possibility of generating large ground shaking, and the potential to exert significant hazard to people and their possessions (e.g. bridges, schools, and hospitals) have recurrence intervals ranging from centuries to millenia. In addition, these large plate boundary systems seem to also have larger strain cycles that result in a variation of earthquake magnitude through time (aka “supercycles,” Sieh et al., 2008). In other words, there may be a series of smaller large magnitude earthquakes in-between larger large magnitude earthquakes. This cycling of magnitude variation may produce a series of earthquakes, each separated by the mean recurrence time of centuries, with magnitudes in series: Mw 8, Mw 7.5, Mw 8.2, Mw 9.2, Mw 8, Mw 7.8, Mw 7.6, Mw 8, Mw 7.5, Mw 9.5. Here, of 11 earthquakes, only 2 are larger than Mw 9, but each are separated by centuries. Given such a short instrumental record of earthquakes, we can all now recognize that we do not know enough about plate boundary earthquakes to effectively evaluate their hazard (unless we might be a seismologist, though many of them are coming around).

Prior to December 2004, this region of the Sunda subduction zone had only had earthquakes of magnitude less than M 8. Therefore, people did not expect a larger earthquake there. They were incorrect (I did not know any better either, but was not thinking of this subduction zone at this time in my life. I worked primarily on Cascadia, which also has not had an historic large magnitude earthquake.).

Here is a map showing the historic earthquake regions. Earthquake slip contours are shown for the 2004 and 2005 earthquakes. Some references for these earthquake sources include: Newcomb and McMann, 1987; Rivera et al., 2002; Abercrombie et al., 2003; Natawidjaja et al., 2006; Konca et al., 2008; Bothara, 2010; Kanamori et al., 2010; Philibosian et al., 2012.

This map shows the magnitude of these historic earthquakes overlain upon a map showing the magnetic anomalies. I will discuss the tectonic significance of these anomalies later.

This map also includes the plate motion vectors, regional plate boundaries, and the extent of the Bengal and Nicobar fans.

Here is the USGS poster for this earthquake. These results were put out very soon after the earthquake and later reports made more refined analyses. For example, there are over a dozen earthquake slip models for this earthquake, most all are better than this initial USGS version.

This is the modeled shaking intensity map generated by the USGS, using the Modified Mercalli Intensity Scale. This map is based on numerical modeling of the fault slip and is preliminary. Compare it with the next map, which is based upon observations from real people. I will write a little more about the MMI scale in the coming week.

Here is the Did You Feel It map, which is based on felt reports by people who could submit their observations via the USGS website.

Here is some eye candy to get us rolling. This is a figure from Chlieh et al. (2007). These figures show different versions of their slip model as they relate to observations (black vectors) and models (red vectors) of uplift and subsidence. Vectors are arrows that show sense of motion (in this case, up or down) and some magnitude (in this case, amount of vertical motion).


  • Abercrombie, R.E., Antolik, M., Ekstrom, G., 2003. The June 2000 Mw 7.9 earthquakes south of Sumatra: Deformation in the India–Australia Plate. Journal of Geophysical Research 108, 16.
  • Bothara, J., Beetham, R.D., Brunston, D., Stannard, M., Brown, R., Hyland, C., Lewis, W., Miller, S., Sanders, R., Sulistio, Y., 2010. General observations of effects of the 30th September 2009 Padang earthquake, Indonesia. Bulletin of the New Zealand Society for Earthquake Engineering 43, 143-173.
  • Chlieh, M., Avouac, J.-P., Hjorleifsdottir, V., Song, T.-R.A., Ji, C., Sieh, K., Sladen, A., Hebert, H., Prawirodirdjo, L., Bock, Y., Galetzka, J., 2007. Coseismic Slip and Afterslip of the Great (Mw 9.15) Sumatra-Andaman Earthquake of 2004. Bulletin of the Seismological Society of America 97, S152-S173.
  • Kanamori, H., Rivera, L., Lee, W.H.K., 2010. Historical seismograms for unravelling a mysterious earthquake: The 1907 Sumatra Earthquake. Geophysical Journal International 183, 358-374.
  • Konca, A.O., Avouac, J., Sladen, A., Meltzner, A.J., Sieh, K., Fang, P., Li, Z., Galetzka, J., Genrich, J., Chlieh, M., Natawidjaja, D.H., Bock, Y., Fielding, E.J., Ji, C., Helmberger, D., 2008. Partial Rupture of a Locked Patch of the Sumatra Megathrust During the 2007 Earthquake Sequence. Nature 456, 631-635.
  • Natawidjaja, D.H., Sieh, K., Chlieh, M., Galetzka, J., Suwargadi, B., Cheng, H., Edwards, R.L., Avouac, J., Ward, S.N., 2006. Source parameters of the great Sumatran megathrust earthquakes of 1797 and 1833 inferred from coral microatolls. Journal of Geophysical Research 111, 37.
  • Newcomb, K.R., McCann, W.R., 1987. Seismic History and Seismotectonics of the Sunda Arc. Journal of Geophysical Research 92, 421-439.
  • Philibosian, B., Sieh, K., Natawidjaja, D.H., Chiang, H., Shen, C., Suwargadi, B., Hill, E.M., Edwards, R.L., 2012. An ancient shallow slip event on the Mentawai segment of the Sunda megathrust, Sumatra. Journal of Geophysical Research 117, 12.
  • Rivera, L., Sieh, K., Helmberger, D., Natawidjaja, D.H., 2002. A Comparative Study of the Sumatran Subduction-Zone Earthquakes of 1935 and 1984. BSSA 92, 1721-1736.
  • Sieh, K., Natawidjaja, D.H., Meltzner, A.J., Shen, C., Cheng, H., Li, K., Suwargadi, B.W., Galetzka, J., Philobosian, B., Edwards, R.L., 2008. Earthquake Supercycles Inferred from Sea-Level Changes Recorded in the Corals of West Sumatra. Science 322, 1674-1678.

Here are some additional resources, including a video and some posters and digital presentations:


Short Video from our cruise…

Download it here….


Here is the 2010 AGU Chapman Conference Poster regarding submarine paleoseismology of Sumatra.
Here is the 2012 AGU Poster regarding physiography of Sumatra and Cascadia.
Here is the 2015 SSA Poster Sedimentary Evidence for the 2004 Sumatra-Andaman Subduction Zone Earthquake.


Here is the 2007 AGU Presentation regarding submarine paleoseismology of Sumatra.
Here is the 2009 GSA Presentation regarding submarine paleoseismology of Sumatra.
Here is the 2010 SSA Presentation regarding submarine paleoseismology of Sumatra.
Here is the 2010 AGU Presentation regarding submarine paleoseismology of Sumatra.
Here is the 2013 AGU Presentation regarding slope stability and earthquake ground motion modeling offshore Sumatra.
Here is the 2014 SSA Presentation regarding the sedimentary evidence of the 2004 Sumatra-Andaman subduction zone earthquake.

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