%A Maya Ilieva
%A Lukasz Rudzinski
%A Kamila Pawłuszek-Filipiak
%A Grzegorz Lizurek
%A Iwona Kudłacik
%A Damian Tondaś
%A Dorota Olszewska
%J Remote Sensing
%T Combined Study of a Significant Mine Collapse Based on Seismological and Geodetic Data—29 January 2019, Rudna Mine, Poland
%X On 29 January 2019, the collapse of a mine roof resulted in a significant surface deformation and generated a tremor with a magnitude of 4.6 in Rudna Mine, Poland. This study combines the seismological and geodetic monitoring of the event. Data from local and regional seismological networks were used to estimate the mechanism of the source and the ground motion caused by the earthquake. Global Navigation Satellite System data, collected at 10 Hz, and processed as a long-term time-series of daily coordinates solutions and short-term high-frequency oscillations, are in good agreement with the seismological outputs, having detected several more tremors. The range and dynamics of the deformed surface area were monitored using satellite radar techniques for slow and fast motion detection. The radar data revealed that a 2-km2 area was affected in the six days after the collapse and that there was an increase in the post-event rate of subsidence.
%N 10
%P 1570
%V 12
%D 2020
%I MDPI
%R doi:10.3390/rs12101570
%L epos2263