Abstract
The 2011 magnitude (M) 9.0 Tohoku-oki earthquake was followed by seismicity activation in inland areas throughout Japan. An outstanding case is the M6.2 Northern Nagano earthquake, central Japan, occurred 13-h after the megathrust event, approximately 400 km away from its epicenter. The physical processes relating the occurrence of megathrust earthquakes and subsequent activation of relatively large inland earthquakes are not well understood. Here we use waveform data of a dense local seismic network to reveal with an unprecedented resolution the complex mechanisms leading to the occurrence of the M6.2 earthquake. We show that previously undetected small earthquakes initiated along the Nagano earthquake source fault at relatively short times after the Tohoku-oki megathrust earthquake, and the local seismicity continued intermittently until the occurrence of the M6.2 event, being likely ‘modulated’ by the arrival of surface waves from large, remote aftershocks off-shore Tohoku. About 1-h before the Nagano earthquake, there was an acceleration of micro-seismicity migrating towards its hypocenter. Migration speeds indicate potential localized slow-slip, culminating with the occurrence of the large inland earthquake, with fluids playing a seismicity-activation role at a regional scale.
Highlights
The 2011 magnitude (M) 9.0 Tohoku-oki earthquake was followed by seismicity activation in inland areas throughout Japan
One of the most remarkable activations of s eismicity[5] took place in northern Nagano Prefecture, central Japan, where a M6.2 crustal earthquake occurred at shallow depth, 13 h after the megathrust event
No seismicity has been detected in the Nagano epicentral area by the Japan Meteorological Agency (JMA) in the 13 h interval; a causal link between the megathrust event and the occurrence of the relatively large inland earthquake in Nagano region has not been found out
Summary
The 2011 magnitude (M) 9.0 Tohoku-oki earthquake was followed by seismicity activation in inland areas throughout Japan. We take advantage of the data from a very dense local seismic network (station spacing of 5 km or less—Fig. 1) installed in the Nagano and Niigata regions as early as 2008, allowing to record with an unmatched resolution the seismic/aseismic processes taking place in the area. Based on such data, we reveal for the first time the detailed physical mechanisms leading to the nucleation of the M6.2 earthquake
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