Session outline
| Solid Earth Sciences (S) | ||
|---|---|---|
| Session Sub-category | Seismology (SS) | |
| Session ID | S-SS11 | |
| Title | Environmental Seismology: from deep earth to surface process | |
| Short Title | Environmental Seismology | |
| Main Convener | Name | Ling Bai |
| Affiliation | Institute of Tibetan Plateau Research, Chinese Academy of Sciences | |
| Co-Convener 1 | Name | Kiwamu Nishida |
| Affiliation | Earthquake Research Institute, University of Tokyo | |
| Co-Convener 2 | Name | Yifei Cui |
| Affiliation | Tsinghua University | |
| Co-Convener 3 | Name | Chengxin Jiang |
| Affiliation | Australian National University | |
| Session Language |
E |
|
| Scope |
The development of environmental seismology has revealed the unique potential of time-dependent seismic signals in furthering our understanding of deep Earth and surface processes. Recent progress has been made in the following areas: earthquake sources (rupture processes, seasonal variations and hydrological triggering), mass movements (landslides, avalanches, glacier collapses and lake outbursts), atmospheric and oceanic phenomena (gravity waves, hurricanes and rainfall), deep Earth processes (free oscillations, magma activity and interplate or intraplate deformation), multichannel observations (large-N arrays, four-dimensional imaging, distributed acoustic sensing and real-time systems), and innovative technologies (double-couple source, single force and joint dataset inversion). The aim of this session is to foster collaboration and knowledge sharing between experts in different research areas. We welcome submissions offering innovative solutions and case studies relevant to these critical issues. |
|
| Presentation Format | Oral and Poster presentation | |
| Time | Presentation No | Title | Presenter |
|---|---|---|---|
| Oral Presentation May 26 AM1 | |||
| 9:00 - 9:20 | SSS11-01 | Imaging and Monitoring Temporal Dynamics of Yellowstone’s Hydrothermal System Using Seismic Observations | Fan-Chi Lin |
| 9:20 - 9:40 | SSS11-02 | Fiber-optic seismic sensing of river-amplified permafrost warming on the Qinghai–Tibet Plateau | Haoyuan Sun |
| 9:40 - 9:55 | SSS11-03 | On vibrations associated with rainfall and flooding during the 2024 Noto heavy rainfall event detected by a Node-type seismometers | Kaoru Sawazaki |
| 9:55 - 10:10 | SSS11-04 | Temporal changes in site response of the Petobo post-liquefaction area, Palu, Indonesia, based on HVSR analysis | Andi Muhamad Pramatadie |
| 10:10 - 10:25 | SSS11-05 | 3-D Crustal S-wave Velocity Structure beneath Sulawesi, Indonesia through Ambient Noise Tomography | Emi Ulfiana |
| Oral Presentation May 26 AM2 | |||
| 10:45 - 11:05 | SSS11-06 | Leveraging Deep Learning and Distributed Acoustic Sensing for Real-Time Traffic Monitoring | Heng Cai |
| 11:05 - 11:25 | SSS11-07 | Origin of S-wave microseisms | Kiwamu Nishida |
| 11:25 - 11:40 | SSS11-08 | Seismic Monitoring of Groundwater Changes in the Sydney Basin Before and After the Black Summer Fires | Chengxin Jiang |
| 11:40 - 11:55 | SSS11-09 | Relocation and Rupture Modeling of the 2023 ML6.4 Jajarkot Earthquake: Implications for the Western Nepal Seismic Gap | Sanjev Dhakal |
| 11:55 - 12:10 | SSS11-10 | Dynamic process of the 2000 Yigong high-speed landslide in southeastern Tibetan Plateau | Ling Bai |
| Presentation No | Title | Presenter |
|---|---|---|
| Poster Presentation May 25 PM3 | ||
| SSS11-P01 | Development of an ambient noise detection system using surface wave array analysis | Kohei Fukuda |
| SSS11-P02 | The Seismic Rupture in the Dingri Area Constrained by Geodetic and Teleseismic Data | Shaojun Wang |
| SSS11-P03 | Monitoring of Subsurface Shear-Wave Velocity in Slopes Based on Ambient Noise | Yukang Chen |
| SSS11-P04 | Seismic Observations of the 2025 Jilong GLOF and Debris Flow Cascade | Zhichao Wu |
| SSS11-P05 | Excitation of High-Frequency Seismic Noise Associated with Rainfall: A Case Study of Typhoon No. 15 (Peipah), 2025 | Naoto Hoteiya |
| SSS11-P06 | Borehole Seismic Ambient Noise Monitoring of an Outlet Glacier in East Antarctica | Masahiro Minowa |