A. Zappone et al., Laboratory measurements of seismic P-wave velocities on rocks from the Betic chain (southern Iberian Peninsula), TECTONOPHYS, 317(3-4), 2000, pp. 259-272
Ultrasonic laboratory measurements of seismic compressional velocities (V-p
) carried out on rock samples encompasing a wide range of metamorphic grade
s and lithologies from the Betic chain are presented. Measurements were per
formed at a high confining pressure on a total of 12 representative samples
of the Alboran Domain (Internal Betics). P-wave mean velocities, referred
to pressure conditions of 280 +/- 10 MPa, range from 5.52 to 7.13 km s(-1),
the maximum values corresponding to high amphibolite facies metapelites (g
arnet gneiss), Under these pressure conditions, V-p anisotropies range from
1.2 to 16.1%, with the lowest values being associated with granitic rocks
and the highest values associated with metapelites from the upper structura
l units. P-wave velocities were calculated for prevailing PT conditions at
depths of 10, 20, 30 and 40 km. We discuss the significance of the analyzed
rock-types in terms of metamorphic grade and derived V-p at different crus
tal levels. P-wave velocities and densities measured on low-to-middle and m
iddle-to-high grade metamorphic rocks are compatible with values obtained f
rom previous seismic and gravity studies for the upper and middle crust, re
spectively. At lower crustal levels, the integration of our measurements wi
th other geophysical data suggests the presence of partial melting of high-
grade metamorphic rocks. The estimation of the impedance contrast from the
measured physical properties suggests that the reflective character of the
mid-lower crust is associated with shear/mylonitic zones and/or fine-scale
lithological layering enhanced by partial melting. (C) 2000 Elsevier Scienc
e B.V. All rights reserved.