IAG-IASPEI 2017

講演情報

Oral

Joint Symposia » J09. Geodesy and seismology general contributions

[J09-1] Geodesy and seismology general contributions I

2017年8月1日(火) 13:30 〜 15:00 Intl Conf Room (301) (Kobe International Conference Center 3F, Room 301)

Chairs: Tomokazu Kobayashi (Geospatial Information Authority of Japan) , Takeo Ito (Nagoya University)

14:30 〜 14:45

[J09-1-05] Crustal blocks motion model and interplate coupling in Colombia based on GNSS observation network (GEORED)

Takeo Ito1, Hector Mora Paez2, Juan Ramon Pelaez Gaviria2, Takeshi Sagiya1 (1.Nagoya University, Nagoya, Japan, 2.Servicio Geologico Colombiano, Bogota, Colombia)

Introduction
Colombia is located at the boundary between South-America plate, Nazca Plate and Caribrian plate. This region is very complexes such as subducting Caribrian plate and Nazca plate, and collision between Panama and northern part of the Andes mountains. The previous large earthquakes occurred along the subducting boundary of Nazca plate, such as 1906 (M8.8) and 1979 (M8.2). And also, earthquakes occurred inland, too. So, it is important to evaluate earthquake potentials for preparing huge damage due to large earthquake in near future.

GNSS observation
In the last decade, the GNSS observation was developed in Columbia. The GNSS observation is called by GEORED, which is operated by servicing Geologico Colomiano. The purpose of GEORED is research of crustal deformation. The number of GNSS site of GEORED is consist of 93 continuous GNSS observation site at 2016. The sampling interval of almost GNSS site is 30 seconds. These GNSS data were processed by PPP processing using GIPSY-OASYS II software. GEORED can obtain the detailed crustal deformation map in whole Colombia.

Method
We developed a crustal block movements model based on crustal deformation derived from GNSS observation. Our model considers to the block motion with pole location and angular velocity and the interplate coupling between each block boundaries, including subduction between the South-American plate and the Nazca plate. And also, our approach of estimation of crustal block motion and coefficient of interplate coupling are based on MCMC method. The estimated each parameter is obtained probably density function (PDF). 

Result
We tested 11 crustal block models based on geological data, such as active fault trace at surface. The optimal number of crustal blocks is 11 for based on geological and geodetic data using AIC. In this presentation, we will discuss spatial interplate coupling ratio and also earthquake potential at inland faults.