Publication Date:
2019
Description:
〈span〉〈div〉Summary〈/div〉Virtual Deep Seismic Sounding (VDSS) has emerged as a novel method to image the crust-mantle-boundary (CMB) and potentially other lithospheric boundaries. In Part 1 (Liu et al., 2018), we showed that the arrival time and waveform of post-critical 〈span〉SsPmp〈/span〉, the post-critical reflection phase at the CMB used in VDSS, is sensitive to several different attributes of the crust and upper mantle. Here, we synthesize our methodology of deriving Moho depth, average crustal 〈span〉Vp〈/span〉 and uppermost-mantle 〈span〉Vp〈/span〉 from single-station observations of post-critical 〈span〉SsPmp〈/span〉 under a 1D assumption. We first verify our method with synthetics and then substantiate it with a case study using the Yellowknife and POLARIS arrays in the Slave Craton, Canada. We show good agreement of crustal and upper-mantle properties derived with VDSS with those given by previous active-source experiments and our own P receiver functions (PRF) in our study area. Finally, we propose a PRF-VDSS joint analysis method to constrain average crustal 〈span〉Vp〈/span〉/〈span〉Vs〈/span〉 ratio and composition. Our PRF-VDSS joint analysis shows that the southwest Slave Craton has an intermediate crustal composition, most consistent with a Mesoarchean age.〈/span〉
Print ISSN:
2051-1965
Electronic ISSN:
1365-246X
Topics:
Geosciences
Published by
Oxford University Press
on behalf of
The Deutsche Geophysikalische Gesellschaft (DGG) and the Royal Astronomical Society (RAS).
