Jerry Nichols scite author profile

Jerry Nichols

3Publications

16Citation Statements Received

34Citation Statements Given

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University of California, Santa Barbara

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Seismic velocity structure of the ophiolite at Point Sal, southern California, determined from laboratory measurements

Nichols

Warren

Luyendyk

et al. 1980

Geophysical Journal International

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The Jurassic ophiolite at Point Sal, California, contains all the rock types typically found in other ophiolites. The total thickness is just over 3 km, much thinner than seismically determined ocean crust thicknesses of 5-6 km. We measured the seismic velocities of 34 representative watersaturated samples in the laboratory under pressure and at room temperature. The velocity profile is a function of both metamorphic grade and the concentration of mafic minerals. Oceanic layer 2A compressional velocities are not found in the ophiolite. Layer 2B velocities of 4.9-5.4 km s-l are found for greenschist facies metabasalts. A velocity of 6.0 km s-l represents high grade greenschist facies mineral assemblages and amphibole in a dyke and sill complex. Late stage differentiates in the upper plutonic section have layer 3A velocities over 6.0 km s-'. Velocities increase with depth to abov 7.1 km s-l due to the introduction of cumulus olivine and other mafic p k ;es. Olivineclinopyroxene gabbros and troctolites have layer 3B velocities of about 7.4 km s-'. Beneath this, clinopyroxenites and cumulate ultramafics have slightly higher velocities. Serpentinized peridotite (dunite and harzburgite) occurs at the base of the ophiolite and has compressional velocities around 5.5 km s-'. The velocity profile with depth shows prominent gradients in the basaltic and gabbroic layers, but marked discontinuities are seen between the dyke and sill complex and the plutonic section and also between the upper plutonic section and the lower cumulate gabbros and ultramafic rocks. A pronounced velocity inversion, produced by serpentinized dunite underlying 166 J. Nichok et al.the gabbros, has been seismically modelled as a possible in situ characteristic of ocean crust and mantle structure. If a basal low velocity serpentinized layer underlies the ocean crust in some areas, then the Moho is within the mantle and marks the top of unaltered peridotite. Model travel-time curves and seismograms for such a structure show that it would be erroneously interpreted as a thicker ocean crust and that it would yield prominent late reverberations on seismic records.

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Petrologic nature of the oceanic Moho: Comment and reply

Luyendyk¹,

Nichols²

1977

Geol

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The wing on the sea

Nichols¹

2020

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Jerry Nichols

Seismic velocity structure of the ophiolite at Point Sal, southern California, determined from laboratory measurements

Petrologic nature of the oceanic Moho: Comment and reply

The wing on the sea

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