Abstract
Examining continuous seismic data recorded by a dense broadband seismic network throughout Taipei shows for the first time, the nature of seismic noise in this highly populated metropolitan area. Using 140 broadband stations in a 50 km × 69 km area, three different recurring, strong noise signals characterized by dominant frequencies of 2–20 Hz, 0.25–1 Hz, and < 0.2 Hz are explored. At frequencies of 2–20 Hz, the seismic noise exhibits daily and weekly variations, and a quiescence during the Chinese New Year holidays. The largest amplitude occurred at a station located only 400 m from a traffic-roundabout, one of the busiest intersections in Taipei, suggesting a possible correlation between large amplitude and traffic flow. The median daily amplitude for the < 0.2 Hz and 0.2–1.0 Hz frequency bands is mostly synchronized with high similarity between stations, indicating that the sources are persistent oceanic or atmospheric perturbations across a large area. The daily amplitude for the > 2 Hz band, however, is low, indicating a local source that changes on shorter length scales. Human activities responsible for the 2–40 Hz energy in the city, we discovered, are able to produce amplitudes approximately 2 to 1500 times larger than natural sources. Using the building array deployed in TAIPEI 101, the tallest building in Taiwan, we found the small but repetitive ground vibration induced by traffic has considerable effect on the vibration behavior of the high-rise building. This finding urges further investigation not only on the dynamic and continuous interaction between vehicles, roads, and buildings, but also the role of soft sediment on such interaction.
Highlights
Examining continuous seismic data recorded by a dense broadband seismic network throughout Taipei shows for the first time, the nature of seismic noise in this highly populated metropolitan area
During the COVID-19 outbreak, a strong correlation between the magnitude of seismic noise and human mobility implies that seismic noise in dense urban environments provides a real-time estimate of population dynamics[14,15,16,17]
Taipei City is the political, economic, and cultural center of Taiwan and hosts a population of 2.7 million people. This metropolitan area is located in a Quaternary sediment-filled basin with low seismicity and composed of four geomorphological elements: the Western Foothills (WF), the Tatun volcanic area (TV), the Linkou
Summary
Examining continuous seismic data recorded by a dense broadband seismic network throughout Taipei shows for the first time, the nature of seismic noise in this highly populated metropolitan area. Seismic noises generated by cultural or natural origins have different frequency content and spatiotemporal characteristics[18,19,20,21,22] They can be classified into two types: (1) microtremors (higher than 1 Hz), signals that are mostly induced by human activity and that systematically exhibit daily and weekly v ariations[12,13,23,24,25], or (2) microseisms (below 1 Hz), signals mainly excited by oceanic gravity waves, which can be categorized into primary (0.02–0.1 Hz) and secondary (0.1–0.5 Hz) m icroseisms[19,22,26,27,28]. This study is aimed at exploring the nature of ground vibration rhythm in Taipei metropolitan area to investigate what are the spatiotemporal characteristics and the possible origins of ambient noise in this highly populated city
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