S31C-06
Discrimination of Secondary Microseism Origins Using Ocean Tide Modulation
Wednesday, 16 December 2015: 09:15
307 (Moscone South)
Eric Beucler1, Antoine Mocquet2, Martin Schimmel3, Sebastien Chevrot4, Jerome Vergne5 and Matthieu Sylvander4, (1)University of Nantes, Nantes, France, (2)LPGN Laboratoire de Planétologie et Géodynamique de Nantes, Nantes Cedex 3, France, (3)ICTJA-CSIC, Barcelona, Spain, (4)Observatoire Midi Pyrenees, Toulouse, France, (5)CNRS EOST, Strasbourg, France
Abstract:
The ocean activity produces continuous and ubiquitous seismic energy mostly in the 2-20 s period band, also known as microseismic noise. The secondary microseisms (2-10 s period) are generated by swell reflections close to the shores and/or by opposing swells in the deep ocean. However, unique conditions are required in order for surface waves, generated by deep-ocean microseisms, to be observed on land. Since both type of secondary microseisms (coastal or deep-ocean) can occur simultaneously at different places and are continuously evolving in terms of frequency, it is very difficult to discriminate them usgin seismic stations on land. By comparing short-duration power spectral densities at both Atlantic shoreline and inland seismic stations, we show that ocean tides strongly modulate the seismic energy in a wide period band except between 2.5 and 5 s. This tidal proxy reveals the existence of an ex situ short-period contribution of the secondary microseismic peak. Comparison with swell spectra at surrounding buoys suggests that the largest part of this extra energy comes from deep-ocean-generated microseisms. Focusing on two different storms which occurred in the North Atlantic Ocean, we show that both deep-ocean and coastal microseisms coexist.