Details

Autor(en) / Beteiligte

• Phạm, Thanh‐Son
• Tkalčić, Hrvoje

Titel

Constraining Floating Ice Shelf Structures by Spectral Response of Teleseismic P‐Wave Coda: Ross Ice Shelf, Antarctica

Ist Teil von

• Journal of geophysical research. Solid earth, 2021-04, Vol.126 (4), p.n/a

Ort / Verlag

Washington: Blackwell Publishing Ltd

Erscheinungsjahr

2021

Quelle

Wiley(RISS)

Beschreibungen/Notizen

• The recent deployment of a broadband seismic array on the floating ice shelf in the Antarctica's Ross sea presents a great opportunity to study the shelf structure using broadband seismic data. In this study, we develop a further improvement of the P‐wave coda autocorrelation method, which proved capable of characterizing grounded ice‐cap structures. Ice shelves are floating ice sheets connected to a landmass, and in order to decipher their structures, a water layer has to be added to the problem. We construct the power spectrum stacks of P‐wave coda data, waveform records that immediately follow P arrivals, in the spectral domain, which are equivalent, via a Fourier transform, to widely used autocorrelograms in the time domain. At half of temporary seismic stations under consideration, we report prominent resonant peaks in the spectral autocorrelograms, associated with the ice‐water configuration of the ice shelf. The lack of clear resonant pattern for the rest of the stations is suspected due to a high noise level in the icy environment and significant lateral heterogeneity at the local scale. Subsequently, we develop a formalism to explain the observed resonance and devise a grid‐search scheme to estimate ice‐ and water‐thicknesses underneath the stations. Our water‐thickness estimates agree well with the previously documented measurements, but there is a discrepancy in the ice thickness results. Therefore, the method has a great potential to complement the existing ice‐shelf model, to be used in future monitoring applications of ice shelves, or near‐future space exploration to icy planets. Plain Language Summary The use of passive seismic data—continuous ground motion records—to study structures of the ice covers in some parts of the Earth has been limited either due to the lack of over‐ice seismic deployment or the inefficiency of existing seismic techniques in the icy environment. This study proposes a new technique to analyze data of individual receivers, also known as the autocorrelation analysis. The technique is applied to a recent deployment of multiple seismic sensors over the largest floating ice shelf on Earth—Ross Ice Shelf, Antarctica. The main results are thickness estimates for the ice shelf and the sea water body right beneath the recording sites. The method will potentially find important applications in structural studies in other polar ice shelfs or seismic missions to icy planets in near future. Key Points Resonant peaks are observed in spectral responses computed from earthquake‐based data for receivers deployed on Ross Ice Shelf, Antarctica Analytical formulation is developed to explain the observed resonances in spectral responses Our water thickness estimates agree with the Bedmap2 datasets, but considerable difference is obtained for the ice thickness estimates