Abstract
Seismic refraction data, obtained at the Apollo 14 and 16 sites, when combined with other lunar seismic data, allow a compressional wave velocity profile of the lunar near-surface and crust to be derived. The regolith, although variable in thickness over the lunar surface, possesses surprisingly similar seismic properties. Underlying the regolith at both the Apollo 14 Fra Mauro site and the Apollo 16 Descartes site is low-velocity brecciated material or impact derived debris. Key features of the lunar seismic velocity profile are: (i) velocity increases from 100–300 m s−1 in the upper 100 m to ∼ 4 km s−1 at 5 km depth, (ii) a more gradual increase from ∼ 4 km s−1 to ∼ 6 km s−1 at 25 km depth, (iii) a discontinuity at a depth of 25 km and (iv) a constant value of ∼ 7 km s−1 at depths from 25 km to about 60 km. The exact details of the velocity variation in the upper 5 to 10 km of the Moon cannot yet be resolved but self-compression of rock powders cannot duplicate the observed magnitude of the velocity change and the steep velocity-depth gradient. Other textural or compositional changes must be important in the upper 5 km of the Moon. The only serious candidates for the lower lunar crust are anorthositic or gabbroic rocks.
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Paper dedicated to Professor Harold C. Urey on the occasion of his 80th birthday on 29 April, 1973.
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Kovach, R.L., Watkins, J.S. The velocity structure of the lunar crust. The Moon 7, 63–75 (1973). https://doi.org/10.1007/BF00578808
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DOI: https://doi.org/10.1007/BF00578808