The 2007 USGS Model for South East Asia

The 2007 USGS seismic hazard model for South East Asia is described in the report by Petersen et. al. 2007 (see also the USGS Website). Here we present a description of the OpenQuake-engine implementation of the model.

Earthquake catalogue

The earthquake catalogue was compiled using instrumentally recorded earthquakes from four global catalogues:

The seismic source model employs different seismic source typologies to model seismicity occurring in different tectonic settings. Gridded seismicity is used to model both spatially variable seismicity as well as zones of uniform seismicity. Fault sources are instead used to model shallow crustal faults and large subduction interface faults.

Gridded seismicity models are implemented as collections of point sources (following the NRML pointSource definition). Crustal and subduction interface faults are instead modeled as simple (NRML simpleFaultSource) and complex fault sources (NRML complexFaultSource) when associated to a Gutenberg-Richter magnitude-frequency distribution, while as characteristic fault sources (NRML characteristicFaultSource) when associated to a Characteristic model.

The entire source model can be divided into a number of sub-models:

  • Active shallow crust gridded seismicity
  • Subduction intraslab gridded seismicity
  • Stable continental crust gridded seismicity (Sunda intraplate)
  • Active shallow crust faults
  • Subduction interface faults

The map below depicts the annual occurrence rate per source (between minimum and maximum magnitudes) for the different source models included in the hazard model. Click the show map layers icon to view different source models and base layer maps.

operating instructions

Various functions are available as part of the map.

mouse/touch operation
  • moving by grabbing the map with a mouse-click you can move the map around
  • overview map using the + button in the bottom right of the map you can expand an overview map
  • zooming in and out using the + and - buttons in the top left of the map you can obtain more or less detail in the map
  • switching themes or maps clicking on the ≡ icon on the right-hand side of the map you can view and select available maps and themes
  • retrieving information the map may contain elements that contain more information, by clicking these a popup will show this information
  • fullscreen display using the ✈ button the map can be maximized to fullscreen display, use the ✕ button to return to page display.
keyboard operation

Keyboard operation becomes available after activating the map using the tab key (the map will show a focus indicator ring).

  • moving using the arrow keys you can move the map
  • overview map using the + button in the bottom right of the map you can expand an overview map
  • zooming in and out using the + and - buttons in the top left of the map or by using the + and - keys you can obtain more or less detail in the map
  • switching themes or maps clicking on the ≡ icon on the right-hand side of the map you can view and select available maps and themes
  • retrieving information the map may contain elements that contain more information, using the i key you can activate a cursor that may be moved using the arrow keys, pressing the enter will execute an information retrieval. press the i or the escape key to return to navigation mode
  • fullscreen display using the ✈ button the map can be maximized to fullscreen display, use the ✕ button to return to page display.

It's possible that some of the functions or buttons describe above have been disabled by the page author or the administrator

 

Total occurrence rate
(number of events / year)
  • < 1e-6
  • 1e-6 - 1e-5
  • 1e-5 - 1e-4
  • 1e-4 - 1e-3
  • 1e-3 - 1e-2
  • 1e-2 - 1e-1
  • 1e-1 - 1
  • 1 - 10
  • >= 10







The ground motion model distinguishes between four main tectonic regions:

  • Active Shallow Crust
  • Stable Continental Crust
  • Subduction Interface
  • Subduction Intraslab

For each tectonic region, various GMPEs are used to account for epistemic uncertainties.

Active Shallow Crust Weight
Boore and Atkinson 2008 0.333
Campbell and Bozorgnia 2008 0.333
Chiou and Youngs 2008 0.333
Subduction Interface Weight
Zhao et. al. 2006 0.5
Atkinson and Boore 2003 0.25
Youngs et. al. 1997 0.25
Subduction Intraslab Weight
Geomatrix 1993 0.5
Atkinson and Boore 2003 (Global model) 0.5

Reference site condition

The NEHRP B/C site condition is assumed to be the reference site conditions for the hazard model. This is equivalent to a Vs30 (shear wave velocity in the uppermost 30 meters) = 760 m/s. Almost all GMPEs utilized for active shallow crust and subduction interface accept Vs30 as prediction variable. The remaining GMPEs are used with coefficients corrected for the B/C site conditions.

Hazard maps

The figures below represent hazard maps for peak ground acceleration, corresponding to 10% and 2% probabilities of exceedance in 50 years, computed with the OpenQuake-engine.

  • Petersen, M., Harmsen, S., Mueller, C., Haller, K., Dewey, J., Luco. N., Crone, A., Lidke, D., and Rukstales, K., Documentation for the Southeast Asia Seismic HazardMaps, Administrative Report September 30, 2007, U.S. Geological Survey Report
  • Wells, D.L., and Coppersmith, K.J., 1994, New empirical relationships among magnitude, rupture length, rupture width, and surface displacements: Bulletin of the Seismological Society of America, v. 84, p. 974–1002. Journal Article

This table summarises the main characteristics of the original implementation of this model

1 Datasets availability
1.1 Earthquake catalogue Not available. Developed or modified existing catalogs (see pg 17 in Petersen, 2007)
1.2 Geological database Fault and fold database for Indonesia given in Appendix C of Petersen, 2007)
1.3 Strong-motion database Not available
1.4 Site characterization database Not available
Notes
2 Methodology for model development
2.1 Scientific participation (SSHAC levels) and review process Level 2
2.2 Documentation describing model preparation Petersen, 2007
2.3 Codes used for model preparation Not available
Notes
3 PSHA input model
3.1 Seismic Source Model
3.1.1 Area sources Included (background seismicity)
3.1.2 Grid sources Included (background seismicity)
3.1.3 Crustal faults Included (e.g. Sumatran transform fault)
3.1.4 Subduction faults Included (Sumatran subduction zone)
3.1.5 Non-parametric ruptures Not included
3.1.6 Magnitude-area scaling relationships Wells and Coppersmith, 1994
3.2 Ground Motion Model
3.2.0 Tectonic regionalisation Included
3.2.1 Models for active shallow seismicity Included
3.2.2 Models for subduction interface Included (Sumatran subduction zone)
3.2.3 Models for subduction intraslab Included (Sumatran subduction zone)
3.2.4 Models for stable continental regions Included (Sunda plate)
3.2.5 Models for deep non-subduction sources Not included
3.2.6 Models for volcanic areas Not included
3.3 Site Response Model
3.3.1 Based on GMPEs Yes, hazard is computed for a reference soil condition corresponding to NEHRP B/C boundary (Vs30=760 m/s)
3.3.2 Based on site-response analysis No
3.4 Epistemic uncertainties
3.4.1 Seismic Source Model Included
3.4.2 Ground Motion Model Included using a logic tree (see the ground motion model section)
3.4.3 Site Response Model Not included
Notes
4 Hazard Input Description
4.1 Hazard input document Not available
4.2 Input files Not available
Notes
5 Calculation
5.1 Software Suite of Fortran and C codes
5.2 Results
5.2.1 Hazard curves Available for Jakarta and Bangkok (see Petersen, 2007)
5.2.2 Hazard maps Available (created for Sumatra and Java Indonesia, Malaysia, and Thailand see Appendix C of Petersen, 2007)
5.2.3 Uniform hazard spectra Not avaliable
5.2.4 Disaggregation Not avaliable
5.2.5 Stochastic event sets Not avaliable
5.2.6 Ground motion fields Not avaliable
Notes

The OpenQuake-engine input model (NRML format) can be downloaded at the link provided below - Please read the license and disclaimer attached to the model.

N.B. This is a model adapted by GEM Hazard Team to the OpenQuake-engine from the original model developed by the USGS. This explains minor differences you might encounter between the results presented in the OpenQuake platform and those disseminated by the original Organisation.

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  • sea2007_intro.txt
  • Last modified: 2016/10/07 10:18
  • by Armando Scarpati