孟加拉盆地日地震环境噪声和地震台站性能表征

IF 0.4 Q4 ENVIRONMENTAL SCIENCES
Naharin Zannat, Atikul Haque Farazi, ASM Maksud Kamal, Md. Zillur Rahman, Md. Shakhawat Hossain
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引用次数: 0

摘要

地震环境噪声(SAN)能量可能会模糊区域和远震到达以及特定频率的各种微震。因此,为了优化地震调查台站的分布,需要对某一地区的SAN能级进行量化。此外,还可以通过对SAN能量水平的观测来评估台站性能和噪声源。孟加拉国孟加拉盆地(BB)地震台站的SAN能量分布尚未估计。同时,这一构造活跃复杂的地区利用地震方法研究较少。本研究旨在量化SAN能量并描述其日变化特征,同时评估临时安装在BB较深部分的11个地震台站的台站性能。本文通过对连续7 d地震资料的功率谱密度(PSD)估计,确定了0.02 ~ 30 s周期内的SAN日能级。分别利用psd和谱图的概率密度函数(pdf)观察SAN能量及其随时间的变化。通过与人类活动、附近噪声源、局地气象因子(即气温和降水)和海平面高度的日变化对比,探讨了不同时段的太阳辐射能量来源。这项研究的见解可能对未来部署地震台网以及BB的地震学研究有用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Diurnal seismic ambient noise and seismic station performance characterization in the Bengal Basin, Bangladesh
Seismic ambient noise (SAN) energy can potentially blur regional and teleseismic arrivals as well as various microearthquakes at specific frequencies. Therefore, quantification of the SAN energy level in a region is required to optimize seismic station distribution for seismological investigations. Moreover, evaluation of station performance and noise source is possible from observation of SAN energy levels. The SAN energy distribution from seismic stations in the Bengal Basin (BB), Bangladesh has not yet been estimated. At the same time, this tectonically active and complex region is less studied using seismic methods. This study aims to quantify SAN energy and characterize its diurnal variation along with evaluating station performance at 11 seismic stations, which were temporarily installed in the deeper portion of the BB. Herein, the daily SAN energy level was determined within the period range of 0.02–30 s by estimating the power spectral density (PSD) of seismic data for 7 continuous days. SAN energy and its variation over time were observed using the probability density functions (PDFs) of PSDs and spectrograms, respectively. The sources of SAN energies at different period bands were also investigated by comparing the PSDs with daily variations in human activities, nearby noise sources, local meteorological factors (i.e., air temperature and precipitation), and sea level height. The insights from this study could be useful for the future deployment of seismic networks as well as seismological studies in the BB.
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