Crustal structure beneath Discovery Bank in the Scotia Sea from group velocity tomography and seismic reflection data.

The Bruce, Discovery, Herdman and Jane banks, all located along the central-eastern part of the South Scotia Ridge, represent isolated topographic highs, surrounded by young oceanic crust (~5–23 Ma), whose petrological and structural nature is still the subject of speculation due to the lack of rele...

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Bibliographic Details
Published in:Antarctic Science
Main Authors: VUAN A., LODOLO E., SAULI C., PANZA, GIULIANO
Other Authors: Vuan, A., Lodolo, E., Panza, Giuliano, Sauli, C.
Format: Article in Journal/Newspaper
Language:English
Published: 2005
Subjects:
continental crust
multichannel seismic profile
South Scotia Ridge
surface wave tomography
Antarctic
The Antarctic
Antarctic Peninsula
Scotia Sea
Herdman
Discovery Bank
Antarc*
Online Access:http://hdl.handle.net/11368/1698575
https://doi.org/10.1017/S0954102005002488
Description
Summary:The Bruce, Discovery, Herdman and Jane banks, all located along the central-eastern part of the South Scotia Ridge, represent isolated topographic highs, surrounded by young oceanic crust (~5–23 Ma), whose petrological and structural nature is still the subject of speculation due to the lack of relevant data. Surface wave tomography in and around the Scotia Sea region, performed using eight broadband seismic stations and 300 events, shows that the central-eastern part of the South Scotia Ridge is characterized by negative surface wave group velocity anomalies as large as 6% in the period range from 15 s to 50 s. The spatial resolution of our data set (~300 km) makes it possible to study a specific area (centred at 61°S and 36°W) that includes Discovery Bank and appears to show dispersion characteristics similar to those found beneath the northern tip of the Antarctic Peninsula and southern South America. Surface wave dispersion curves are inverted to obtain 1-D isotropic shear wave velocity profiles that suggest a continental nature of Discovery Bank. Crustal thickness is in the range 23–28 km with a sub-Moho velocity of 4.1–4.2 km s-1. The boundaries of the negative group velocity anomalies are marked by a high level of seismic activity. The depth of the events and their large seismic moment suggest the presence of continental lithosphere. The continental-type crust of this topographic relief is supported by our interpretation of multichannel seismic reflection profiles acquired across this rise, where the observed seismic structures are interpreted as thinned and faulted continental plateau.

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