The Possible Explanation for Secondary Microseisms Seasonal and Annual Variations

The Possible Explanation for Secondary Microseisms Seasonal and Annual Variations

Annual drift is typical for microseisms. We propose a model based on thermoelastic wave generation that explains the highest microseisms during winter using higher stress level at the same time. If we remove the average influence of the back- ground stress from the microseisms, we obtain the residua...

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Bibliographic Details
Published in:TAO : Terrestrial, atmospheric, and oceanic sciences Vol. 26; no. 2; pp. 103 - 109
Main Authors: Kalenda, Pavel, Wandrol, Ivo, Holub, Karel, Rušajová, Jana
Format: Journal Article
Language:English
Published: Taiwan 中華民國地球科學學會 01-04-2015
Chinese Geoscience Union (Taiwan)
Springer
Subjects:
Annual variations
atmospheric science
Day length
Drift
Earthquakes
geology
geophysics
hydrology
Hypotheses
Ice caps
Microseisms
Noise
oceanic science
Precipitation
Seismic activity
space science
Summer
Uplift
Wave generation
Winter
LOD
Microseisms
Synoptic situation
Thermoelastic wave
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Summary:Annual drift is typical for microseisms. We propose a model based on thermoelastic wave generation that explains the highest microseisms during winter using higher stress level at the same time. If we remove the average influence of the back- ground stress from the microseisms, we obtain the residual microseisms, which show the semiannual periods with maxima in March and October. The histogram of anomalous microseisms has the same form as the variations in Length of the Day (LOD). This phenomenon is recognized as a secondary order mechanism after the annual drift. The synoptic situations and earthquakes were recognized as imminent triggers of anomalous microseisms. This synoptic situation is consistent with the uplift of the northern part of Europe after ice cap melting.
ISSN:1017-0839
2311-7680
DOI:10.3319/TAO.2014.10.15.01(T)