Subsurface structure identification at the blind prediction site of ESG6 based on the earthquake-to-microtremor ratio method and diffuse field concept for earthquakes

Nagashima, Fumiaki; Kawase, Hiroshi; Nakano, Kenichi; Ito, Eri

doi:10.1186/s40623-023-01791-x

Cited by 3 publications

(5 citation statements)

References 13 publications

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“…This novel dataset fills an important gap, as previous research in the study area has primarily focused on sandy soils [14] [15]. The consistent Gs values across the soil profile also provide valuable insights into the spatial homogeneity of the site, which is crucial for accurately assessing the seismic response and liquefaction susceptibility of the local soil conditions [36] [37]. The comprehensive Gs characterization, along with the subsequent analyses of shear wave velocity and liquefaction potential, offers a robust framework for geotechnical site assessment and hazard mitigation in the Niger Delta region.…”

Section: Validated Results and Noveltymentioning

confidence: 99%

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Developing a Region-Specific Predictive Model for Shear Wave Velocity to Evaluate Seismic Site Response and Liquefaction Potential of Silty Soils

Kennedy,

TrustGod,

Banje

2024

Preprint

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The research work explored empirical relationships between shear wave velocity (Vs) and other in-situ test results, formulating a predictive model to estimate Vs from fundamental soil characteristics. Undisturbed soil samples were collected from 5 sites in Rivers State, Nigeria and tested for index properties including liquid limit, plastic limit, and specific gravity. Direct Vs measurements were made using downhole tests. An empirical correlation model was formulated relating Vs to shear modulus, bulk density, and depth, achieving an R2 of 0.963. The soils were classified as low plasticity silts and silty clays, with liquid limits of 26.9–31.1%, plasticity indexes of 8.2–9.3%, and specific gravities averaging 2.67. Undrained shear strengths varied from 10.8–16.3 kPa with effective friction angles of 25–32 degrees. The developed Vs predictive model correlated well with NEHRP site classifications, providing insight into seismic site response. Liquefaction triggering analysis using the Vs data indicated Sites S1-S3 are susceptible, while Sites S4-S5 are relatively resistant. The study addresses the challenge of accurately estimating Vs for liquefaction assessment of complex silty soils, by developing a region-specific predictive model based on fundamental soil properties. This fills a key knowledge gap for the Niger Delta region, providing a useful framework for geotechnical site characterization and hazard mitigation in similar environments vulnerable to seismic risks. The robust Vs model and comprehensive soil data offer valuable insights for understanding the dynamic behavior and liquefaction susceptibility of these soils.

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Section: Validated Results and Noveltymentioning

confidence: 99%

“…Eurocode 8 requires soil-specific Vsliquefaction correlations considering age, cementation, and stress history [35]. Similar requirements exist in other codes [36] [37], evolving with new research. Vs can be measured by field tests or estimated from SPT, CPT, and shear wave logging.…”

Section: Introductionmentioning

confidence: 99%

Developing a Region-Specific Predictive Model for Shear Wave Velocity to Evaluate Seismic Site Response and Liquefaction Potential of Silty Soils

Kennedy,

TrustGod,

Banje

2024

Preprint

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“…If a borehole sensor is available, then a joint inversion of the EHVR and SBR can be performed. As shown in Nagashima and Kawase (2019), we can also determine the damping (Q values) of the layers above the borehole sensor depth in the joint inversion. The EHVR inversion method is significantly robust and more than 100 sites in Japan have verified its feasibility and efficiency (e.g., Ducellier et al 2013;Fukihara et al 2015;Kawase et al 2018).…”

Section: Inversion Methods Based On the Earthquake Horizontal-to-vert...mentioning

confidence: 99%

“…19 Based on the distributed data of microtremors for the blind prediction experiment during the ESG6 symposium in 2021, we compare the observed MHVR (green), the converted pEHVR from MHVR (red), and the observed EHVR (blue) from aftershock records disclosed after the blind prediction on the left. On the right, we compare the resultant S-wave velocity profiles inverted for pEHVR (red) and EHVR (blue), shown in Nagashima et al (2023). The profile with an orange line is the preferred model distributed by the committee of the blind prediction (Matsushima et al 2021(Matsushima et al , 2022 constructed by the boring data down to 38 m and the deep structure proposed by Senna et al (2018).…”

Section: Use Of Microtremor Horizontal-to-vertical Spectral Ratio In ...mentioning

confidence: 98%

“…The tables of EMRs with five categories, the detailed procedure for applying the EMR method, and the validation exercises are reported by Kawase et al (2018). The effectiveness of using the pEHVR in the inversion method of the EHVR proposed by Nagashima et al (2014) was presented (Nagashima et al 2023) in the blind prediction experiment Step 1 during the ESG6 (Matsushima et al 2021(Matsushima et al , 2022Chimoto et al 2021Chimoto et al , 2022. Comparison of the predicted (pEHVR) and observed EHVR from the aftershock records opened after the blind prediction and the resultant velocity structures based on the inversions from pEHVR and EHVR are shown in Fig.…”

Section: Use Of Microtremor Horizontal-to-vertical Spectral Ratio In ...mentioning

confidence: 99%

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Unified approach for evaluation of horizontal site amplification factors with special reference to history of studies on the effects of surface geology on seismic motion

Kawase¹,

Nakano²,

Nagashima³

et al. 2023

Earth Planets Space

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Following the 1923 Kanto earthquake in Japan, Japanese researchers noticed the strong effects of surface geology on seismic motion (ESG) and began to investigate these effects to quantify the site amplification factors (SAFs) associated with soft surface sediments. On the other side of the Pacific Ocean, ESG received limited attention until the 1985 Michoacan, Mexico earthquake revealed significant long-period amplification inside Mexico City that manifested as the source of devastating damage to high-rise buildings. Since then, seismologists and earthquake engineers have performed a lot of studies on various ESG issues worldwide. We have not yet reached common conclusions on how to quantitatively predict SAFs over a broad frequency band of engineering interest, 0.1 to 20 Hz, for moderate to strong input from different types of earthquakes in different tectonic settings. However, we found here several basic guidelines useful for successfully modeling ground motions as a common approach to ESG studies. First, in this letter, we briefly review our history of understanding ESG, which is closely related to the key settings required for reliable quantifications of SAFs, and then introduce various emerging techniques for broadband quantitative evaluations of SAFs based on the vast amount of observed ground motions primarily from dense Japanese strong-motion networks. Based on the findings of our investigation and the physical relationships behind the parameters, the authors would like to recommend that researchers on ESG and related topics would refer to the five basic guidelines proposed in the conclusions for the successful implementation of techniques to delineate SAFs in a specific region of interest, such as the use of Fourier spectra instead of response spectra. We have started applying the proposed techniques to regions outside Japan. The implementation of the statistical validation exercises will follow. Graphical Abstract

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Subsurface velocity structures at the Egyptian seismological network stations retrieved by diffuse field assumption for Earthquakes

Thabet,

Omar

2024

Engineering Geology

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Subsurface structure identification at the blind prediction site of ESG6 based on the earthquake-to-microtremor ratio method and diffuse field concept for earthquakes

Cited by 3 publications

References 13 publications

Developing a Region-Specific Predictive Model for Shear Wave Velocity to Evaluate Seismic Site Response and Liquefaction Potential of Silty Soils

Developing a Region-Specific Predictive Model for Shear Wave Velocity to Evaluate Seismic Site Response and Liquefaction Potential of Silty Soils

Unified approach for evaluation of horizontal site amplification factors with special reference to history of studies on the effects of surface geology on seismic motion

Subsurface velocity structures at the Egyptian seismological network stations retrieved by diffuse field assumption for Earthquakes

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