A two-step multi-frequency receiver function inversion method for shallow crustal S-wave velocity structure and its application across the basin-mountain range belts in Northeast China

Ruihao YANG ¹Xu WANG ²Ling CHEN ¹Mingye FENG ¹Qifu CHEN³

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作者信息

1. State Key Laboratory of Lithospheric Evolution,Institute of Geology and Geophysics,Chinese Academy of Sciences,Beijing 100029,China;College of Earth and Planetary Sciences,University of Chinese Academy of Sciences,Beijing 100049,China
2. State Key Laboratory of Lithospheric Evolution,Institute of Geology and Geophysics,Chinese Academy of Sciences,Beijing 100029,China
3. Key Laboratory of Earth and Planetary Physics,Institute of Geology and Geophysics,Chinese Academy of Sciences,Beijing 100029,China;College of Earth and Planetary Sciences,University of Chinese Academy of Sciences,Beijing 100049,China
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Abstract

A shallow crustal velocity structure(above 10 km depth)is essential for understanding the crustal structures and deformation and assessing the exploration prospect of natural resources,and also provides priori information for imaging deeper crustal and mantle structure.Passive-source seismic methods are cost-effective and advantageous for regional-scale imaging of shallow crustal structures compared to active-source methods.Among these passive methods,techniques utilizing receiver function waveforms and/or body-wave amplitude ratios have recently gained prominence due to their relatively high spatial resolution.However,in basin regions,reverberations caused by near-surface unconsolidated sedimentary layers often introduce strong non-uniqueness and uncertainty,limiting the applicability of such methods.To address these challenges,we propose a two-step inversion method that uses multi-frequency P-RF waveforms and P-RF horizontal-to-vertical amplitude ratios.Syn-thetic tests indicate that our two-step inversion method can mitigate the non-uniqueness of the inversion and enhance the stability of the results.Applying this method to teleseismic data from a linear seismic array across the sedimentary basins in Northeast China,we obtain a high-resolution image of the shallow crustal S-wave velocity structure along the array.Our results reveal significant differences between the basins and mountains.The identification of low-velocity anomalies(＜2.8 km s-1)at depths less than 1.0 km beneath the Erlian Basin and less than 2.5 km beneath the Songliao Basin suggests the existence of sedimentary layers.Moreover,the high-velocity anomalies(～3.4-3.8 km s-1)occurring at depths greater than 7 km in the Songliao Basin may reflect mafic intrusions emplaced during the Early Cretaceous.Velocity anomaly distribution in our imaging result is consistent with the location of the major faults,uplifts,and sedimentary depressions,as well as active-source seismic results.This application further validates the effectiveness of our method in constraining the depth-dependent characteristics of the S-wave velocity in basins with unconsolidated sedimentary cover.

Key words

Receiver function/Frequency dependence/Two-step inversion/Shallow crustal velocity structures/Unconsolidated sedimentary basins

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基金项目

国家自然科学基金(42004041)

国家自然科学基金(42288201)

国家自然科学基金(91958209)

出版年

2024

中国科学:地球科学(英文版)

中国科学院

中国科学:地球科学(英文版)

影响因子：1.002

ISSN：1674-7313

参考文献量74

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