Lower crust structures and dynamics of southern California revealed by first P and PmP traveltime data
The lower crust plays an important role in coupling the upper mantle force to the brittle upper crust at transform plate boundary regions. Yet, the tomographic resolution in the lower crust is typically much lower than the upper crust, given that most earthquakes take place at seismogenic depths. He...
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sg-ntu-dr.10356-1618082022-09-20T07:24:06Z Lower crust structures and dynamics of southern California revealed by first P and PmP traveltime data Wu, Shucheng Li, Tianjue Wang, Dongdong Tong, Ping School of Physical and Mathematical Sciences Asian School of the Environment Earth Observatory of Singapore Science::Geology Reflected Waves Seismic Tomography The lower crust plays an important role in coupling the upper mantle force to the brittle upper crust at transform plate boundary regions. Yet, the tomographic resolution in the lower crust is typically much lower than the upper crust, given that most earthquakes take place at seismogenic depths. Here, we present a new P-wave velocity model of the entire crust in southern California by jointly inverting arrival times of first P and Moho reflected PmP waves. A total of 29,512 robust PmP arrivals are picked by a new semi-automatic workflow, forming the largest earthquake-sourced PmP dataset in southern California to date. Such abundant PmP arrivals remarkably improve the resolution of middle and lower crust in tomographic imaging. Our final velocity model reveals prominent low-velocity anomalies beneath the Eastern California Shear Zone (ECSZ) and south of the Coso Volcanic Field (CVF) in the lower crust. We attribute the low velocities beneath the ECSZ to deep fluid concentration which not only triggers major crustal earthquakes but may also contribute to the long-term development of the shear zone. While the low-velocity anomaly south of the CVF may imply the deep magma source of the CVF is located to its south. Ministry of Education (MOE) National Research Foundation (NRF) This study is supported by the National Research Foundation Singapore and the Singapore Ministry of Education under the Research Centers of Excellence Initiative (04MNS001913A620 and 04MNS001953A620). P. Tong is also supported by MOE AcRF Tier-2 Grant MOE2019-T2-2-112 and MOE AcRF Tier-1 Grant RG118/19(S). 2022-09-20T07:24:06Z 2022-09-20T07:24:06Z 2022 Journal Article Wu, S., Li, T., Wang, D. & Tong, P. (2022). Lower crust structures and dynamics of southern California revealed by first P and PmP traveltime data. Tectonophysics, 830, 229328-. https://dx.doi.org/10.1016/j.tecto.2022.229328 0040-1951 https://hdl.handle.net/10356/161808 10.1016/j.tecto.2022.229328 2-s2.0-85127527347 830 229328 en 04MNS001913A620 04MNS001953A620 MOE2019-T2-2-112 RG118/19(S) Tectonophysics © 2022 Elsevier B.V. All rights reserved. |
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Science::Geology Reflected Waves Seismic Tomography Wu, Shucheng Li, Tianjue Wang, Dongdong Tong, Ping Lower crust structures and dynamics of southern California revealed by first P and PmP traveltime data |
| description |
The lower crust plays an important role in coupling the upper mantle force to the brittle upper crust at transform plate boundary regions. Yet, the tomographic resolution in the lower crust is typically much lower than the upper crust, given that most earthquakes take place at seismogenic depths. Here, we present a new P-wave velocity model of the entire crust in southern California by jointly inverting arrival times of first P and Moho reflected PmP waves. A total of 29,512 robust PmP arrivals are picked by a new semi-automatic workflow, forming the largest earthquake-sourced PmP dataset in southern California to date. Such abundant PmP arrivals remarkably improve the resolution of middle and lower crust in tomographic imaging. Our final velocity model reveals prominent low-velocity anomalies beneath the Eastern California Shear Zone (ECSZ) and south of the Coso Volcanic Field (CVF) in the lower crust. We attribute the low velocities beneath the ECSZ to deep fluid concentration which not only triggers major crustal earthquakes but may also contribute to the long-term development of the shear zone. While the low-velocity anomaly south of the CVF may imply the deep magma source of the CVF is located to its south. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Wu, Shucheng Li, Tianjue Wang, Dongdong Tong, Ping |
| format |
Article |
| author |
Wu, Shucheng Li, Tianjue Wang, Dongdong Tong, Ping |
| author_sort |
Wu, Shucheng |
| title |
Lower crust structures and dynamics of southern California revealed by first P and PmP traveltime data |
| title_short |
Lower crust structures and dynamics of southern California revealed by first P and PmP traveltime data |
| title_full |
Lower crust structures and dynamics of southern California revealed by first P and PmP traveltime data |
| title_fullStr |
Lower crust structures and dynamics of southern California revealed by first P and PmP traveltime data |
| title_full_unstemmed |
Lower crust structures and dynamics of southern California revealed by first P and PmP traveltime data |
| title_sort |
lower crust structures and dynamics of southern california revealed by first p and pmp traveltime data |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161808 |
| _version_ |
1745574649394102272 |