LATERAL VARIATIONS IN THE DEEP-CRUSTAL STRUCTURE AT THE IBERIAN MARGIN OF THE VALENCIA TROUGH IMAGED FROM SEISMIC-REFLECTION METHODS

Citation
J. Gallart et al., LATERAL VARIATIONS IN THE DEEP-CRUSTAL STRUCTURE AT THE IBERIAN MARGIN OF THE VALENCIA TROUGH IMAGED FROM SEISMIC-REFLECTION METHODS, Tectonophysics, 232(1-4), 1994, pp. 59-75
Citations number
19
Categorie Soggetti
Geosciences, Interdisciplinary
Journal title
ISSN journal
00401951
Volume
232
Issue
1-4
Year of publication
1994
Pages
59 - 75
Database
ISI
SICI code
0040-1951(1994)232:1-4<59:LVITDS>2.0.ZU;2-I
Abstract
New seismic images of crustal structure have been obtained in an area of western Europe where attenuation of the continental crust by a fact or of two has been reported previously. The deep lateral variations in velocity and reflectivity at the transition between the northeastern Iberian Peninsula and the Valencia trough are investigated with three seismic reflection data sets. First results of the Spanish deep vertic al reflection ESCI-profile on the Iberian mainland extend the crustal image of the ECORS-Pyrenees profile to the Mediterranean coast. A high ly-reflective zone about 15 km thick is imaged in the lower crust bene ath the Ebro basin and the Catalan coastal ranges, where the Moho is l ocated at 29 km depth. This deep reflective pattern appears to be disr upted by the effects of low-velocity sediments in the Neogene Reus bas in, but continuity of the principal horizons is inferred from illumina tions of the area using sources and receivers at wide-angle offsets. H igh-quality recordings up to 50 km inland of air-gun shots from the ma rine ESCI-profile provide a complementary image of the structure on la nd and show that the major crustal thinning toward the Valencia trough starts near the shoreline. The lateral variability of the crust is in vestigated using a second profile displaced 30 km to the northeast. In dependent refraction and reflection interpretation techniques applied to this profile, which consisted of densely-spaced shots, resulted in consistent depth sections with crustal thinning beginning further inla nd. Thinning of 10 km takes place within 60 km at the Catalan margin. Moho-reflected waves (P(M)P) have been processed as far traces of a de ep reflection profile. The processing included common midpoint (CMP) s orting, stacking and migration. The inferred lateral variations in dee p crustal structure near the Catalan coast are consistent with the Bou guer gravity field. They may be related to episodes of extensional blo ck faulting that have affected the Catalan-Valencian domain since Pale ogene times.