@tamarahking This (https://t.co/jjYp0tui9y) might be the only example in Japan. Some other M6< events produced surface rupture (mostly minor cracks) since 2016, but not sure if they are cracks of non-tectonic origin or caused by surface faulting.
RT @eps_tweet: [Full Paper on Seismology] Komura et al. (Published: 18 October 2019) Surface rupture and characteristics of a fault associa…
RT @eps_tweet: [Full Paper on Seismology] Komura et al. (Published: 18 October 2019) Surface rupture and characteristics of a fault associa…
RT @eps_tweet: [Full Paper on Seismology] Komura et al. (Published: 18 October 2019) Surface rupture and characteristics of a fault associa…
RT @eps_tweet: [Full Paper on Seismology] Komura et al. (Published: 18 October 2019) Surface rupture and characteristics of a fault associa…
RT @eps_tweet: [Full Paper on Seismology] Komura et al. (Published: 18 October 2019) Surface rupture and characteristics of a fault associa…
RT @eps_tweet: [Full Paper on Seismology] Komura et al. (Published: 18 October 2019) Surface rupture and characteristics of a fault associa…
[Full Paper on Seismology] Komura et al. (Published: 18 October 2019) Surface rupture and characteristics of a fault associated with the 2011 and 2016 earthquakes in the southern Abukuma Mountains, northeastern Japan, triggered by the Tohoku-Oki earthquake