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Deterministic physics-based scenarios for earthquake hazards and losses on the Zhujiangkou fault in southern China
Huang, Q.F., Wang, L.H., Jia, B.H., Lai, Sustainability – Basel 15, 10776 (2023).
World Bank Group. World Bank Open Data. https://data.worldbank.org/ (2024).
Zhou, H. A comparative study of population development in the nine cities of the Guangdong-Hong Kong-Macao Greater Bay Area over ten years under new urbanization – an analysis based on data from the Seventh Census. Future City Design and Management, 46-48 (2022).
Song, F. et al. Late Quaternary vertical dislocation rate on several faults in the Zhujiang delta area. Seismology and Geology, 203-210 (2003).
Liang, J. Active fault mapping and seismic risk assessment in Guangzhou. (Science Press, 2013).
Scawthorne, C., Nishino, T., Shenking, J.C. and Borland, J. Kanto Daikasai: The Great Kanto Fire Following the 1923 Earthquake. Bull. Earthquake company. I am. 113, 1902–1923 (2023).
Mali, E. and Subasri, A. The Sendai Framework for Disaster Risk Reduction at Five: Lessons from the 2011 Great East Japan Earthquake and Tsunami. Int J. Disaster Risk SC. 11, 167-178 (2020).
Scawthorn, C., O'Rourke, T.D. & Blackburn, E.T. The 1906 San Francisco Earthquake and Fire Resistance Lessons for Fire Protection and Water Supply. Your legacy. Spectra 22, S135 (2006).
Haynes, B. et al. Medical Response to Disaster Events – California Planning and the Loma-Prieta Earthquake. that. Appearance. Med 21, 368-374 (1992).
Yes, X. et al. The crustal structure and tectonic characteristics are revealed by the deep seismic sounding image of Dinghu-Gaping-Jinyuan in the Pearl River Delta. chin. C. Geophysics 63, 1959-1969 (2020).
Google Scholar
Yan, Y., Li, Y., Liu, T., Ouyang, L. & Guan, Y. Experimental research on active faulting in Guangdong Province and its surrounding area. South China c. Sismol, 14-25 (2006).
Mcguire, R. K. Probabilistic seismic hazard analysis and earthquake design – closing the loop. bull. sismol. SOC. I am. 85, 1275-1284 (1995).
Bommer, JJ Deterministic versus probabilistic seismic risk assessment: an exaggerated and obstructive dichotomy. J Earthec. M. 6, 43-73 (2002).
Douglas, J. & Aochi, H. A survey of earthquake ground motion prediction techniques for engineering purposes. Surv. Geophysics 29, 187-220 (2008).
Infantino, M., Mazzieri, I., Özcebe, A.G., Paolucci, R. & Stupazzini, M. Three-dimensional numerical simulation of Istanbul ground motion from earthquakes along the Marmara segment of the North Anatolia Fault. bull. sismol. SOC. I am. 110, 2559–2576 (2020).
Stupazzini, M., Infantino, M., Allmann, A. & Paolucci, R. Physics-based seismic risk and probabilistic loss assessment in large urban areas: a simplified application to Istanbul. Your legacy. M. structure. Dane. 50, 99-115 (2021).
Erdek, M. Earthquake risk assessment. bull. Your legacy. M. 15, 5055-5092 (2017).
Chen, Y. L. and Baker, J. W. Spatial correlations in CyberShake physics-based ground motion simulations. bull. sismol. SOC. I am. 109, 2447–2458 (2019).
Du, WQ & Ning, CL Modeling spatial correlation of multiple ground motion intensity metrics (SAs, PGA, PGV, Ia, CAV, and large periods) based on principal component and geostatistical analyses. Your legacy. Spectra 37, 486-504 (2021).
Infantino, M., Smerzini, C. & Lin, J. Y. Spatial correlation of broadband ground motions from physics-based numerical simulations. Your legacy. M. structure. Dane. 50, 2575–2594 (2021).
Rodgers, A. J., Pitarka, A., Petersson, N. A., Sjögreen, B. & McCallen, D. B. Broadband (0-4 Hz) ground motions of the magnitude 7.0 Hayward earthquake with 3D structure and topography. Geophys. Accuracy. Lett. 45, 739-747 (2018).
Withers, KB, Olsen, KB, Day, SM & Shi, ZQ Ground motion and internal variation from 3D deterministic broadband simulations (0-7.5 Hz) along a non-planar strike-slip fault. bull. sismol. SOC. I am. 109, 229-250 (2019).
Denolle, MA, Dunham, EM, Prieto, GA & Beroza, GC Robust ground motion prediction using virtual earthquakes. Science 343, 399-403 (2014).
Yu, H., Zhang, W., Zhang, Z., Li, Z. & Chen, X. Investigation of the dynamic rupture of the 1970 Ms 7.7 Tonghai, Yunnan, China, earthquake on the Qujiang Fault. bull. sismol. SOC. I am. 110, 898-919 (2020).
Wang, XC, Wang, JT & Zhang, CH A complete scenario analysis of maximum reliable earthquake hazards. Nat. subscriber. 14, (2023).
Yu, H., Zhang, Z., Hu, F., Xu, D. & Chen, Earth space science. 10, e2022EA002775 (2023).
Zhang, W. & Chen, X. A traction image method for irregular free surface boundaries in finite-difference seismic wave simulation. Geophys. J Int. 167, 337-353 (2006).
Zhang, Z., Zhang, W. & Chen, X. Three-dimensional curved mesh finite difference modeling of nonplanar rupture dynamics. Geophys. J Int. 199, 860–879 (2014).
Shan, H.J. The Redaluation of Capital in China: 1952-2006. J Quant. Technology. economic. 10, 17-31 (2008).
Google Scholar
Zhang, J. Estimating China's Regional Capital Stock (1952-2004) with Applications. Ji Chen. Economy bus. stud. 6, 177-196 (2008).
Boore, D. M., Stewart, J. P., Seyhan, E. & Atkinson, G. M. NGA-West2 equations for predicting PGA, PGV and 5% attenuated PSA for shallow crustal earthquakes. Your legacy. Spectra 30, 1057-1085 (2014).
Campbell, K. W. & Bozorgnia, Y. NGA ground motion model for the geometric mean horizontal component of PGA, PGV, and PGD and 5% damped linear elastic response spectra for periods of 0.01 to 10 s. Your legacy. Spectra 24, 139-171 (2008).
Ren, Z. Deep Fault System and Seismicity in the Coastal Region of South China (Guangdong Science and Technology Press, 2016).
Kang, Y., Yang, X., Chen, X., Chen, G. & Zheng S. Pressure field inversion in Guangdong and its surrounding area. Acta sesmol. Sin, 59–66+105 (2008).
Wang, Y., Cui, X., Hu, chin. J. Geophys. 55, 3016–3027 (2012).
Google Scholar
Ida, Y. Cohesive force across a longitudinal shear crack tip and Griffith's specific surface energy. J. Geophys. Accuracy. (1896–1977) 77, 3796–3805 (1972).
Harris, RA et al. A set of exercises for checking dynamic earthquake rupture codes. sismol. Accuracy. Lett. 89, 1146–1162 (2018).
Zhang, Z., Zhang, W., Xin, D., Chen, K. & Chen, X. Dynamic rupture model for the 2019 Mw 7.1 Ridgecrest earthquake is consistent with observations. sismol. Accuracy. Lit., (2020).
Chen, K., Zhang, Z., Liang, C., Xue, C. & Liu, P. Kinematics and dynamics of the 24 January 2020 Mw 6.7 Elazig earthquake, Turkey. Earth space science. 7, e2020EA001452 (2020).
Shaw, D. et al. 2016 Minyuan earthquake: the largest spontaneous crustal earthquake ever observed. Geophys. Accuracy. Lett. 50, e2023GL103556 (2023).
Wang, W. et al. Rapid estimation of losses caused by the M6.8 Luding earthquake of September 5, 2022. Sci. China Earth Science. 66, 1334–1344 (2023).
Zhang, Z., Zhang, W., Chen, X., Li, P. & Fu, C. Rupture dynamics and ground motion of potential earthquakes around Taiyuan, China. bull. sismol. SOC. I am. 107, 1201-1212 (2017).
Gu, Y., Zhang, Z., Wang, W. & Wang, Z. Dynamic rupture simulation based on interseismic locking models – taking the Suoekuli section of the Altyn Tagh fault as an example. Geophys. J Int. 234, 1737–1751 (2023).
Li, Y., Wang, Z., Zhang, Z., Gu, Y. & Yu, H. Physics-based seismic risk assessment of the Qujiang fault: from dynamic rupture to disaster estimation. Int J. Disaster Risk SC. 15, 165-177 (2024).
Reuter, H., Nelson, A. & Jarvis, A. Evaluation of space-filling interpolation methods for SRTM data. Int. J. Geoger. Infantry. Science fiction. 21, 983-1008 (2007).
Lv, ZY, Ye, Tectonic Physics 868, (2023).
Bondarenko, M., Kerr, D., Sorichetta, A. & Tatem, A. Projection-disaggregated gridded population datasets, adjusted for 2020 UNDP estimates, for 51 countries across sub-Saharan Africa. Using construction traces. https://www.worldpop.org/doi/1…ON/WP00683 (2020).
Chen, Z. et al. Extended time series (2000-2023) of global night-light data similar to NPP-VIIRS. Edition V5. Harvard Dataverse (2020).
Li, Y., Xin, D. & Zhang, Z. A fast-response earthquake fatality estimation model in mainland China. Int J. Disast Risk Re 66, 102618 (2021).
Google Scholar
Li, Y., Xin, D. & Zhang, Z. Estimating the economic loss caused by the earthquake in mainland China. Int J. Disast Risk Re 95, 103708 (2023).
Google Scholar
Li, Y., Zhang, Z. & Xin, D. A composite catalog of damaging earthquakes in mainland China. sismol. Accuracy. Lett. 92, 3767–3777 (2021).
Li, Y., Zhang, Z., Wang, W. & Feng, X. Rapid estimation of earthquake fatalities in mainland China based on physical simulation and statistics – a case study of the 2021 Yangbei earthquake. Int. Gee. the environment. Accuracy. Public Health 19, 6820 (2022).
Wang, Z., Li, Y., Wang, W., Zhang, W. & Zhang, Z. Revisiting ancient earthquakes using numerical modeling: a case study of the 1679 Sanhe-Binggu earthquake. Sismol. Accuracy. Lett. 94, 720-730 (2022).
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