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Layer from kevin, 1 year, 5 months ago

The Kyrgyz Republic is located within a region of high seismic hazard, a result of the ongoing collision between India and Asia. This dataset represents the hazard resulting from a scenario in terms of Peak Ground Acceleration (PGA) expressed as fractions of g (gravity acceleration) for site conditions defined by the USGS Vs30 model. This scenario is for the Telek Karakhudzhur, modelled as a linear simple thrust fault Mw = 6.8 Epicentre 76.066E, 41.917N Depth 10 km Strike 269o Dip 30o Rake 50o The values have been computed on a grid of 0.5 degrees covering an area within 200 km of the modelled fault system. The results are provided in WGS84-UTM43N projection. They are presented as percentiles (5th 25th 50th 75th 95th) determined from a total of 3000 calculations, made up of 1000 calculations from each of the three Ground Motion Prediction Equations (GMPEs) used. - Akkar, S., Sandıkkaya, M.A. and Bommer, J.J. (2014) Empirical ground-motion models for point- and extended-source crustal earthquake scenarios in Europe and the Middle East, Bulletin of Earthquake Engineering, 12, 359–387, doi: 10.1007/s10518-013-9461-4. - Boore, D.M., Stewart, J.P., Seyhan, E. and Atkinson, G.M. (2014) NGA-West 2 equations for predicting PGA, PGV, and 5%-damped PSA for shallow crustal earthquakes, Earthquake Spectra, 30(3), 1057-1085, doi: 0.1193/070113EQS184 - Cauzzi, C., Faccioli, E., Vanini, M. and Bianchini A. (2015) Updated predictive equations for broadband (0.01–10 s) horizontal response spectra and peak ground motions, based on a global dataset of digital acceleration records, Bulletin of Earthquake Engineering, 13, 1587-1612, doi: 10.1007/s10518-014-9685-y. Further details may be found in the project report:"Seismic Hazard Assessment - Technical Report" (January, 2017). This data was produced as part of the World Bank funded project "Measuring Seismic Risk in Kyrgyz Republic".

Layer from kevin, 1 year, 5 months ago

The Kyrgyz Republic is located within a region of high seismic hazard, a result of the ongoing collision between India and Asia. This dataset represents the hazard resulting from a scenario in terms of Peak Ground Acceleration (PGA) expressed as fractions of g (gravity acceleration) for bedrock conditions (Vs30 = 760 m/s). This scenario is for the Telek Karakhudzhur, modelled as a linear simple thrust fault Mw = 6.8 Epicentre 76.066E, 41.917N Depth 10 km Strike 269o Dip 30o Rake 50o The values have been computed on a grid of 0.5 degrees covering an area within 200 km of the modelled fault system. The results are provided in WGS84-UTM43N projection. They are presented as percentiles (5th 25th 50th 75th 95th) determined from a total of 3000 calculations, made up of 1000 calculations from each of the three Ground Motion Prediction Equations (GMPEs) used. - Akkar, S., Sandıkkaya, M.A. and Bommer, J.J. (2014) Empirical ground-motion models for point- and extended-source crustal earthquake scenarios in Europe and the Middle East, Bulletin of Earthquake Engineering, 12, 359–387, doi: 10.1007/s10518-013-9461-4. - Boore, D.M., Stewart, J.P., Seyhan, E. and Atkinson, G.M. (2014) NGA-West 2 equations for predicting PGA, PGV, and 5%-damped PSA for shallow crustal earthquakes, Earthquake Spectra, 30(3), 1057-1085, doi: 0.1193/070113EQS184 - Cauzzi, C., Faccioli, E., Vanini, M. and Bianchini A. (2015) Updated predictive equations for broadband (0.01–10 s) horizontal response spectra and peak ground motions, based on a global dataset of digital acceleration records, Bulletin of Earthquake Engineering, 13, 1587-1612, doi: 10.1007/s10518-014-9685-y. Further details may be found in the project report:"Seismic Hazard Assessment - Technical Report" (January, 2017). This data was produced as part of the World Bank funded project "Measuring Seismic Risk in Kyrgyz Republic".

Layer from kevin, 1 year, 5 months ago

The Kyrgyz Republic is located within a region of high seismic hazard, a result of the ongoing collision between India and Asia. This dataset represents the hazard resulting from a scenario in terms of Peak Ground Acceleration (PGA) expressed as fractions of g (gravity acceleration) for site conditions defined by the USGS Vs30 model. This scenario is for the Talas Ferghana (west), modelled as a linear simple strike-slip fault Mw = 7.8 Epicentre 71.951E, 42.074N Depth 10 km Strike 297o Dip 70o Rake 170o The values have been computed on a grid of 0.5 degrees covering an area within 200 km of the modelled fault system. The results are provided in WGS84-UTM43N projection. They are presented as percentiles (5th 25th 50th 75th 95th) determined from a total of 3000 calculations, made up of 1000 calculations from each of the three Ground Motion Prediction Equations (GMPEs) used. - Akkar, S., Sandıkkaya, M.A. and Bommer, J.J. (2014) Empirical ground-motion models for point- and extended-source crustal earthquake scenarios in Europe and the Middle East, Bulletin of Earthquake Engineering, 12, 359–387, doi: 10.1007/s10518-013-9461-4. - Boore, D.M., Stewart, J.P., Seyhan, E. and Atkinson, G.M. (2014) NGA-West 2 equations for predicting PGA, PGV, and 5%-damped PSA for shallow crustal earthquakes, Earthquake Spectra, 30(3), 1057-1085, doi: 0.1193/070113EQS184 - Cauzzi, C., Faccioli, E., Vanini, M. and Bianchini A. (2015) Updated predictive equations for broadband (0.01–10 s) horizontal response spectra and peak ground motions, based on a global dataset of digital acceleration records, Bulletin of Earthquake Engineering, 13, 1587-1612, doi: 10.1007/s10518-014-9685-y. Further details may be found in the project report:"Seismic Hazard Assessment - Technical Report" (January, 2017). This data was produced as part of the World Bank funded project "Measuring Seismic Risk in Kyrgyz Republic".

Layer from kevin, 1 year, 5 months ago

The Kyrgyz Republic is located within a region of high seismic hazard, a result of the ongoing collision between India and Asia. This dataset represents the hazard resulting from a scenario in terms of Peak Ground Acceleration (PGA) expressed as fractions of g (gravity acceleration) for bedrock conditions (Vs30 = 760 m/s). This scenario is for the Talas Ferghana (west), modelled as a linear simple strike-slip fault Mw = 7.8 Epicentre 71.951E, 42.074N Depth 10 km Strike 297o Dip 70o Rake 170o The values have been computed on a grid of 0.5 degrees covering an area within 200 km of the modelled fault system. The results are provided in WGS84-UTM43N projection. They are presented as percentiles (5th 25th 50th 75th 95th) determined from a total of 3000 calculations, made up of 1000 calculations from each of the three Ground Motion Prediction Equations (GMPEs) used. - Akkar, S., Sandıkkaya, M.A. and Bommer, J.J. (2014) Empirical ground-motion models for point- and extended-source crustal earthquake scenarios in Europe and the Middle East, Bulletin of Earthquake Engineering, 12, 359–387, doi: 10.1007/s10518-013-9461-4. - Boore, D.M., Stewart, J.P., Seyhan, E. and Atkinson, G.M. (2014) NGA-West 2 equations for predicting PGA, PGV, and 5%-damped PSA for shallow crustal earthquakes, Earthquake Spectra, 30(3), 1057-1085, doi: 0.1193/070113EQS184 - Cauzzi, C., Faccioli, E., Vanini, M. and Bianchini A. (2015) Updated predictive equations for broadband (0.01–10 s) horizontal response spectra and peak ground motions, based on a global dataset of digital acceleration records, Bulletin of Earthquake Engineering, 13, 1587-1612, doi: 10.1007/s10518-014-9685-y. Further details may be found in the project report:"Seismic Hazard Assessment - Technical Report" (January, 2017). This data was produced as part of the World Bank funded project "Measuring Seismic Risk in Kyrgyz Republic".