High-Resolution 3D Shear-Wave velocity structure in xiong’an New Area, Beijing (China), revealed by short-period dense seismic array

[Display omitted] •We obtain 3D Vs model with ∼ 1 km resolution of Xiong’an New Area based on short-period dense array.•Our model provides new evidence to solve some controversial issues on the pre-existing faults.•We propose a new technical idea for geothermal resources prospecting based on 3D Vs m...

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Published inJournal of Asian earth sciences Vol. 278; p. 106415
Main Authors Liu, Qiaoxia, Xu, Zhiping, Zhou, Ming, Duan, Yonghong, Qiu, Yong, Feng, Chengjun, Zhu, Shuaipeng, Wang, Chongpeng, Chen, Minjie
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.02.2025
Subjects
3D Shear-Wave Velocity Structure1
Ambient noise tomography4
Geothermal resources5
Sedimentary structure6
Short-period dense array3
Xiong’an New Area2
Ambient noise tomography4
Geothermal resources5
Sedimentary structure6
Xiong’an New Area2
3D Shear-Wave Velocity Structure1
Short-period dense array3
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Abstract [Display omitted] •We obtain 3D Vs model with ∼ 1 km resolution of Xiong’an New Area based on short-period dense array.•Our model provides new evidence to solve some controversial issues on the pre-existing faults.•We propose a new technical idea for geothermal resources prospecting based on 3D Vs model. The 3D shear-wave velocity (Vs) structure in the shallow crustal of Xiong’an New Area can reveal the sediment characteristics and the tectonic features of the blind faults. They are essential for earthquake hazard reduction and geothermal resource exploration in urban areas. The dense array detection method has proved to be an effective technology tool for obtaining the 3D Vs model of the urban area. Using the seismic ambient noise recorded by Xiong’an dense array, we separately conducted the frequency-Bessel transform method and the fast marching technology to estimate short-period (0.4–2.4 s) and long-period (2.5–6 s) fundamental Rayleigh wave phase velocity dispersions. By jointly inverting these dispersions, we finally obtain a fine shallow-deep (0–5 km) 3D Vs model. Our Vs structure correlates well with the tectonic units and reveals the overall stability of the shallow crust structure of the Xiong’an New Area. We extract 3D depths distribution characteristics of the Quaternary and Neogene bottom boundaries from 3D Vs model, which respectively indicates that the Xiongan New Area has been in a relatively stable tectonic position since the Cenozoic. We also provide new evidence to further determine the buried depth and extension patterns of the pre-existing faults or unconformable contact interfaces. Lastly, we analyze and summarize the 3D characteristics of structural sedimentary and potential geothermal exploration areas through conducting comprehensive analysis and interpretation of the regional terrestrial heat flow and geological drilling, which propose a new technical idea for the prospecting and assessing of the geothermal resources based on 3D Vs model.
AbstractList [Display omitted] •We obtain 3D Vs model with ∼ 1 km resolution of Xiong’an New Area based on short-period dense array.•Our model provides new evidence to solve some controversial issues on the pre-existing faults.•We propose a new technical idea for geothermal resources prospecting based on 3D Vs model. The 3D shear-wave velocity (Vs) structure in the shallow crustal of Xiong’an New Area can reveal the sediment characteristics and the tectonic features of the blind faults. They are essential for earthquake hazard reduction and geothermal resource exploration in urban areas. The dense array detection method has proved to be an effective technology tool for obtaining the 3D Vs model of the urban area. Using the seismic ambient noise recorded by Xiong’an dense array, we separately conducted the frequency-Bessel transform method and the fast marching technology to estimate short-period (0.4–2.4 s) and long-period (2.5–6 s) fundamental Rayleigh wave phase velocity dispersions. By jointly inverting these dispersions, we finally obtain a fine shallow-deep (0–5 km) 3D Vs model. Our Vs structure correlates well with the tectonic units and reveals the overall stability of the shallow crust structure of the Xiong’an New Area. We extract 3D depths distribution characteristics of the Quaternary and Neogene bottom boundaries from 3D Vs model, which respectively indicates that the Xiongan New Area has been in a relatively stable tectonic position since the Cenozoic. We also provide new evidence to further determine the buried depth and extension patterns of the pre-existing faults or unconformable contact interfaces. Lastly, we analyze and summarize the 3D characteristics of structural sedimentary and potential geothermal exploration areas through conducting comprehensive analysis and interpretation of the regional terrestrial heat flow and geological drilling, which propose a new technical idea for the prospecting and assessing of the geothermal resources based on 3D Vs model.
ArticleNumber 106415
Author Wang, Chongpeng
Chen, Minjie
Xu, Zhiping
Liu, Qiaoxia
Zhou, Ming
Duan, Yonghong
Qiu, Yong
Feng, Chengjun
Zhu, Shuaipeng
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Keywords Ambient noise tomography4
Geothermal resources5
Sedimentary structure6
Xiong’an New Area2
3D Shear-Wave Velocity Structure1
Short-period dense array3
Language English
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Snippet [Display omitted] •We obtain 3D Vs model with ∼ 1 km resolution of Xiong’an New Area based on short-period dense array.•Our model provides new evidence to...
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SubjectTerms 3D Shear-Wave Velocity Structure1
Ambient noise tomography4
Geothermal resources5
Sedimentary structure6
Short-period dense array3
Xiong’an New Area2
Title High-Resolution 3D Shear-Wave velocity structure in xiong’an New Area, Beijing (China), revealed by short-period dense seismic array
URI https://dx.doi.org/10.1016/j.jseaes.2024.106415
Volume 278
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