Cryoseismic monitoring in the Schirmacher Oasis, East Antarctica

We conducted a two-month-long cryoseismic monitoring study in the Schirmacher Oasis, East Antarctica, to investigate icequake activity caused by the movement and melting of ice sheets. For this purpose, we deployed a Raspberry Shake seismometer on the Antarctic land and ice sheet for a month. Through a comparative analysis of the recorded seismic data, we gained insights into ice dynamics and diurnal icequake patterns. The Raspberry Shake instrumentation, powered by solar energy, offers a cost-effective approach for establishing a dense seismic network. During installation, the seismometer, solar controller, and Li-ion battery were housed in a wooden box lined with nitrile foam for insulation. The analysis suggests that icequake detections follow a distinct diurnal pattern, with more events occurring during the daytime. Furthermore, we also observe interdependence between icequake detections and high wind speeds.We use a multi STA/LTA approach for event detection on a continuous 11-day period while the seismometer was on ice. We detect 2249 icequake events, which are further manually classified into three categories. More than half of icequakes (67%) belong to a shallow origin and some are indicative of deep icequakes (9%).These findings highlight the need for a denser seismic network and more detailed investigations to further understand the impact of climate change on melting ice sheets.