Your search keyword '"Santi Pailoplee"' showing total 2 results

1. Precursory seismicity rate changes prior to the large and major earthquakes along the Sagaing fault zone, Central Myanmar

Author

Surasan Panyatip, Punya Charusiri, and Santi Pailoplee

Subjects

010504 meteorology & atmospheric sciences, Time windows, General Earth and Planetary Sciences, Magnitude (mathematics), Induced seismicity, 010502 geochemistry & geophysics, 01 natural sciences, Aftershock, Seismology, Geology, 0105 earth and related environmental sciences, General Environmental Science, Foreshock

Abstract

In this study, the seismicity rate changes that can represent an earthquake precursor were investigated along the Sagaing Fault Zone (SFZ), Central Myanmar, using the Z value technique. After statistical improvement of the existing seismicity data (the instrumental earthquake records) by removal of the foreshocks and aftershocks and man-made seismicity changes and standardization of the reported magnitude scales, 3574 earthquake events with a M w ≥ 4.2 reported during 1977–2015 were found to directly represent the seismotectonic activities of the SFZ. To find the characteristic parameters specifically suitable for the SFZ, seven known events of M w ≥ 6.0 earthquakes were recognized and used for retrospective tests. As a result, utilizing the conditions of 25 fixed earthquake events considered (N) and a 2-year time window (T w), a significantly high Z value was found to precede most of the M w ≥ 6.0 earthquakes. Therefore, to evaluate the prospective areas of upcoming earthquakes, these conditions (N = 25 and T w = 2) were applied with the most up-to-date seismicity data of 2010–2015. The results illustrate that the vicinity of Myitkyina and Naypyidaw (Z = 4.2–5.1) cities might be subject to strong or major earthquakes in the future.

Published

2017

2. Probabilities of earthquake occurrences in Mainland Southeast Asia

Author

Santi Pailoplee and Montri Choowong

Subjects

Peak ground acceleration, Seismic microzonation, Earthquake casualty estimation, Interplate earthquake, Earthquake prediction, Intraplate earthquake, General Earth and Planetary Sciences, Tsunami earthquake, Seismology, Geology, General Environmental Science, Foreshock

Abstract

The frequency–magnitude distributions of earthquakes are used in this study to estimate the earthquake hazard parameters for individual earthquake source zones within the Mainland Southeast Asia. For this purpose, 13 earthquake source zones are newly defined based on the most recent geological, tectonic, and seismicity data. A homogeneous and complete seismicity database covering the period from 1964 to 2010 is prepared for this region and then used for the estimation of the constants, a and b, of the frequency–magnitude distributions. These constants are then applied to evaluate the most probable largest magnitude, the mean return period, and the probability of earthquake of different magnitudes in different time spans. The results clearly show that zones A, B, and E have the high probability for the earthquake occurrence comparing with the other seismic zones. All seismic source zones have 100 % probability that the earthquake with magnitude ≤6.0 generates in the next 25 years. For the Sagaing Fault Zone (zones C), the next Mw 7.2–7.5 earthquake may generate in this zone within the next two decades and should be aware of the prospective Mw 8.0 earthquake. Meanwhile, in Sumatra-Andaman Interplate (zone A), an earthquake with a magnitude of Mw 9.0 can possibly occur in every 50 years. Since an earthquake of magnitude Mw 9.0 was recorded in this region in 2004, there is a possibility of another Mw 9.0 earthquake within the next 50 years.

Published

2012