Solid Earth Sciences (S)
Session Sub-categorySeismology (SS)
Session IDS-SS16
TitleCrustal Deformation
Short TitleCrustal Deformation
Main Convener NameMako Ohzono
AffiliationInstitute of Seismology and Volcanology, Graduate School of Science, Hokkaido University
Co-Convener 1NameTadafumi Ochi
AffiliationInstitute of Earthquake and Volcano Geology, Geological Survey of Japan, The National Institute of Advanced Industrial Science and Technology
Co-Convener 2NameMasayuki Kano
AffiliationGraduate school of science, Tohoku University
Session LanguageJ
ScopeStudy of crustal deformation plays an extremely important role in the investigation of wide scale earth dynamics those are earthquake and volcanic activity, plate motion and so on. In our session, we discuss the study related to crustal deformation, such as development of observation instrument, observed crustal deformation, analysis method, and simulation study.
Presentation FormatOral and Poster presentation
TimePresentation NoTitlePresenterAbstract
Oral Presentation May 26 AM1
09:00 - 09:15SSS16-01Development of New GEONET Analysis Strategyyasuaki kakiage
09:15 - 09:30SSS16-02Relationship between deformation of the forearc wedge of Southwest Japan and the 1707 Hoei earthquakeYukinobu Okamura
09:30 - 09:45SSS16-03A possible slow slip event beneath the Kii Peninsula inferred from historical tilt records in 1970’sMasayuki Kano
09:45 - 10:00SSS16-04The effect of the steady plate subduction in the case of southwest JapanYuto Iwase
10:00 - 10:15SSS16-05Development of Mechanical Coupling Model on Subducting Plate InterfacesHiroshi Kimura
10:15 - 10:30SSS16-06Monitoring vertical deformation with optical lattice clock –an application of relativistic geodesyYoshiyuki Tanaka
Oral Presentation May 26 AM2
10:45 - 11:00SSS16-07Surface Deformation before and after the 2016 Kumamoto Earthquake Detected by SARManabu Hashimoto
11:00 - 11:15SSS16-08Co- and post-seismic crustal deformations associated with the 2016 Kumamoto earthquake sequence using ALOS-2/PALSAR-2 dataYuji Himematsu
11:15 - 11:30SSS16-09GNSS time series analysis of postseismic deformation induced by 2016 Kumamoto earthquake (M7.3)Satoshi Fuwa
11:30 - 11:45SSS16-10The viscoelastic crustal response to the magma discharge/recharge in the upper crust: implications for the uplift of the Aira caldera before and after the 1914 eruption of the Sakurajima volcanoTadashi Yamasaki
11:45 - 12:00SSS16-11Factors controlling annual changes in groundwater migration in the fault fracture zone of Manpukuji faultAtsushi Mukai
Oral Presentation May 26 PM1
13:45 - 14:00SSS16-12Rapid uplift in SW Taiwan caused by fold growthYoshiki Takei
14:00 - 14:15SSS16-13Construction of GNSS monitoring system in Nepal for the earthquake potential evaluation in the Himalayan Frontal ZoneTakao Tabei
14:15 - 14:30SSS16-14The kinematic model along the Sumatran fault using a new dense GNSS observation (AGNeSS+) in Banda AcehTakeo Ito
14:30 - 14:45SSS16-15Mechanical modeling of interseismic deformation in the Central Andes: implications for back-arc shorteningShaoyang Li
14:45 - 15:00SSS16-16Inferring regional stress field based on SAR analysis and dynamic simulation of the 2018 Palu earthquakeTakafumi Yokota
Presentation NoTitlePresenterAbstract
Poster Presentation May 26 PM2
SSS16-P01Earthquake Potential in Central Costa Rica based on Geodetic ObservationsLuis Alejandro Carvajal Soto
SSS16-P02Crustal deformation along the Liupanshan fault zone derived from GPSWeitao Chen
SSS16-P03Convergence boundary and velocity between Amur and Okhotsk plates in northern Hokkaido inferred by GNSS velocity dataChihiro Ito
SSS16-P04Vertical deformation and repeating earthquakes in southeastern Hokkaido in the last 100 yearsHiroaki Kobayashi
SSS16-P05Simple estimation of interplate coupling in the Kushiro-oki and the Nemuro-oki regions, eastern Hokkaido in Japan from onshore GNSS dataHiroki Aota
SSS16-P06Estimation of the early afterslip location of the 2011 Tohoku-Oki earthquake using onshore GNSS and offshore pressure dataPutra Maulida
SSS16-P07Heterogeneous rheology structure estimated by the postseismic deformation following the 2011 Tohoku-Oki earthquake (Mw9.0)Yoshiaki Ito
SSS16-P08Contribution of linear and non-linear viscoelastic relaxation as postseismic deformation following an earthquakeHiroyuki Hoshino
SSS16-P09Estimation of fault parameter with maximum ΔCFS based on GNSS dataShuntaro Fukaya
SSS16-P10Coseismic deformation of the 2018 Lombok earthquake, Indonesia, revealed through InSAR measurementsERLAN SUMANJAYA
SSS16-P11Recent crustal deformations around Mt. Azuma revealed by InSAR time-series analysisHiroshi Munekane
SSS16-P12The Fault model of the 2017 earthquake (M5.6) in the Eastern flank of Mt. Ontake estimated from precise leveling survey dataMasayuki Murase
SSS16-P13Detection ability of Crustal deformation by Slow Slip Events along the Nankai Trough subduction zoneKazuki Miyaoka
SSS16-P14An investigation into slow-slip detection capability of the Tokai Strainmenter NetworkKazuyoshi Nanjo
SSS16-P15A Study on Trend Component Estimation Method of Strain Time Series Data Using State Space ModelTakahiro Tsuyuki
SSS16-P16Rainfall correction of strainmeter data in consideration of the flow from the upper reaches (2)Akio Kobayashi
SSS16-P17Long-term slow slip event beneath the Shima Peninsula from 2017 to 2018Akio Kobayashi
SSS16-P18non- fault slip source components of long-term SSE and the relation to interseismic process preparing for large earthquake generationNoa Mitsui
SSS16-P19Restart of the long-term slow slip events along the Nankai trough after the 2016 Kumamoto earthquake, JapanShinzaburo Ozawa
SSS16-P20Crustal deformation in the San-in Shear Zone as observed by a dense GNSS networkAngela Meneses-Gutierrez
SSS16-P21Two-dimensional Fourier series representation of surface deformation: Different scales of crustal deformationAkemi Noda
SSS16-P22GNSS observation around the shear zone in southern Kyushu (The third report)Tsuyoshi Watanabe
SSS16-P23Post-seismic deformation of 2016 Kumamoto Earthquake by continuous GNSS network (3)Shigeru Nakao