Spatial variations of coda wave attenuation in Andaman–Nicobar subduction zone

• Published in: Geophysical journal international Vol. 217; no. 3; pp. 1515 - 1523
• Main Authors: Singh, Chandrani, Biswas, Rahul, Jaiswal, Namrata, Ravi Kumar, M
• Format: Journal Article
• Language: English
• Published: Oxford University Press 01.06.2019
• Subjects: Seismic attenuation; Crustal structure; Coda wave
• ISSN: 0956-540X; 1365-246X
• DOI: 10.1093/gji/ggz098

SUMMARY We investigate the spatial variations of coda attenuation (Qc) structure in the tectonically complex Andaman–Nicobar subduction zone (ANSZ). This is probably the first attempt to map the Qc variations across the whole ANSZ. A total of 289 high-quality events recorded at a network of broad-band stations operational since 2009 have been used for the analysis. The variations in attenuation characteristics at different frequencies reveal a marked contrast from the northern to the southern Andaman region, consistent with the geotectonic diversity of the region. At low frequencies, low Qc values are observed in the northern part of ANSZ in the vicinity of the Narcondum volcanic island, which does not appear in the high-frequency image. The low values are in agreement with the 3-D tomogram, which suggests a distinct low-velocity structure below this volcanic island. The Andaman trench also exhibits a relatively low Qc, which is well correlated with the low-Vp zone. The spatial distributions of Q0 (Qc at 1 Hz) structure of the region are further projected onto three east–west profiles to capture the detailed attenuation characteristics from north to south. Results show that the northernmost part of ANSZ is more attenuative than the southern part, which may be indicative of the changes in physical properties of the crust. The frequency relation parameter (n) shows an inverse correlation with the observed Q0 values. Furthermore, we have observed a good correlation between the Q0 variation and the seismicity pattern of the area that enables us to enhance our understanding about the role of crustal heterogeneity in the earthquake occurrence in this area.