Isotropy or weak vertical transverse isotropy in D00 beneath the Atlantic Ocean
نویسندگان
چکیده
Received 30 January 2004; revised 14 May 2004; accepted 14 June 2004; published 13 August 2004. [1] Shear velocity properties of D00 beneath the central Atlantic Ocean are explored using predominantly European seismic recordings of intermediate and deep focus (>100 km) South American earthquakes. Broadband data are analyzed and, when possible, corrected for upper mantle models of receiver-side anisotropic structure. Regional shear velocity heterogeneity in D00 is mapped by analysis of 306 S-SKS differential times that have been corrected for three-dimensional seismic velocity structure above D00 using a whole mantle tomographic model. This correction yields modest (less than ±2%) estimates of seismic velocity heterogeneity in D00, with a transition from high to low seismic velocities traversing from west to east beneath the central Atlantic, in agreement with global tomographic models. Additionally, shear wave splitting of S and Sdiff for the same recordings was analyzed to assess seismic anisotropy in D00. The highest-quality data provide 105 splitting times between SH and SV onsets that are mostly within the ±1 s uncertainty level. The few larger values generally exhibit SV delayed relative to SH. Assuming an anisotropy geometry involving vertical transverse isotropy (VTI), as preferred in most regions of D00 that have been studied to date, <0.5% anisotropy strength within a 100 km thick layer, or <0.25% anisotropy within a 300 km thick layer are compatible with the data. These values are low in comparison to those found in highvelocity regions beneath the circum-Pacific Ocean or in the low-velocity region beneath the central Pacific, and many observations are, in fact, consistent with isotropic structure. The lack of strong VTI relative to other regions may be due to (1) the absence of stress from overlying midmantle downwelling, (2) relatively weaker shear flow in the D00 boundary layer, and/or (3) lack of chemical heterogeneity that could develop either latticepreferred orientation or shape-preferred orientation. The azimuthal sampling of this region of D00 is quite limited; thus the precise geometry and mechanism of any anisotropy are difficult to constrain. It remains possible that this region may contain subtle azimuthal anisotropy that could couple the SV and SH signals; however, amplitude observations suggest that any such coupling is minor.
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