143-7 Seismic Structure of the Crust and Uppermost Mantle of SOUTH AMERICA and Surrounding Oceanic Basins

Poster Number 53

See more from this Division: General Discipline Sessions
See more from this Session: Geophysics/Tectonophysics/Seismology (Posters)

Sunday, 5 October 2008
George R. Brown Convention Center, Exhibit Hall E

Gary Chulick1, Shane Detweiler2 and Walter Mooney2, (1)Physics and Astronomy, Univ. of Wisconsin- Osh Kosh, Osh Kosh, WI
(2)USGS, Menlo Park, CA
Abstract:
We present a set of contour maps showing the seismic structure of South America and the surrounding ocean basins. These maps include crustal thickness, whole-crustal average P-wave and S-wave velocity, and the seismic velocity of the uppermost mantle, i.e., Pn and Sn. By summarizing the data we are able to compare the crust of South America to other continents and the global crust in general. Our conclusions show: (1) The average weighted thickness of the crust under South America is 37.4 km, which is 1.8 km thinner than the global average of 39.2 km for continental crust. (2) Histograms of whole-crustal P- and S-wave velocities for the South American crust are bi-modal, with the lower peak occurring for crust that appears to be missing a high-velocity lower crustal layer. (3) A region across northern Chile and east into Argentina has an anomalously low P- and S-wave crustal velocity structure. This likely corresponds to the shallowly-subducted portion of the Nazca plate (“flat slab” of Isacks et al., 1968) which is also a region of extension. (4) The average Pn velocity beneath South America is 8.06 km/s in agreement with the global average. (5) The thick crust of the Brazilian craton appears to extend into Venezuela and Colombia. (6) The crust may be thinned by extension in the Amazon basin. The western edge of the continental crust correlates with the Peru-Chile trench, while the eastern edge correlates with the Atlantic passive margin. (7) The average Pcc velocity (P-wave velocity of the crystalline crust) is 6.43 km/s. This is only slightly lower than the global average of 6.45 km/s. (8) The average crustal P-wave velocity under the eastern Pacific seafloor is higher than under the western Atlantic seafloor likely due to the thicker sediment layer on the older Atlantic seafloor.

See more from this Division: General Discipline Sessions
See more from this Session: Geophysics/Tectonophysics/Seismology (Posters)