R. W. E. Green scite author profile

S U M M A R YThe structure of the central Kaapvaal Craton of southern Africa has been investigated by deep seismic sounding, using mine tremors as energy sources. Seismometers were deployed at approximately 10 km intervals on two profiles stretching between major mine tremor source regions. Mine tremors are rich in shear energy enabling joint interpretation of P-and S-waves and produce substantial energy at frequencies as low as 1 Hz. Record sections are presented for both P-and S-waves, and the traveltimes and amplitudes interpreted using 2-D ray-tracing techniques. Synthetic seismograms computed for a 1-D velocity model by the reflectivity method compare well with the observed data. A generalized seismic model of the Kaapvaal Craton has the following features: supracrustal strata 0-10 km thick; upper crystalline basement with P-wave velocities of 6.0-6.2 km s-'; the boundary between upper and lower crust at a depth of 14-18 km; a lower crust with a relatively uniform seismic velocity in the range 6.4-6.7 kms-'; and the crust/mantle transition over 1-3 km with the Moho at a depth of about 35 km. The lower crust is found to be seismically attenuating and has a Poisson's ratio of about 0.28. It is also known to be electrically conductive. These observations are in accord with the presence of hydrated mantle rock at the base of the crust.The velocity-depth model of the Kaapvaal Craton is similar to models derived for other Archaean cratons. The Proterozoic provinces adjacent to the Kaapvaal craton are significantly thicker, and have an intermediate-to high-velocity layer developed at the base of the crust. This is interpreted to indicate a change in the process of crustal growth, with basaltic underplating becoming more important since the Archaean. This change is attributed to a change in the composition of the upper mantle. The higher temperatures in the Archaean mantle led to the eruption of komatiitic lavas, resulting in an ultradepleted mantle unable to produce significant volumes of basaltic melt. Proterozoic crust developed above fertile mantle, and subsequent partial melting resulted in basaltic underplating and crustal inflation.

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Analysis of exceptionally large tremors in two gold mining districts of South Africa

McGarr

Bicknell

Sembera

et al. 1989

PAGEOPH

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Seismic refraction observations in the Transkei Basin and adjacent areas

Chetty

Green

1977

Mar Geophys Res

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Coseismic and other short-term strain changes recorded with Sacks-Evertson strainmeters in a deep mine, South Africa

McGarr

Sacks

Linde

et al. 1982

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Sacks-Evertson borehole dilatometers were installed at the ends of boreholes drilled into the sidewall of an experimental tunnel at a depth of 3.1 km in the ERPM gold mine near Johannesburg. In the following year coseismic strain changes ranging from 5 x lo-'' to values exceeding 5 x lo-(' were recorded for hundreds of mine tremors in the magnitude range -1 to 3.7 and at hypocentral distances of 5 0 m to about 2 km. Hypocentral coordinates and magnitudes were determined from seismograms recorded from an underground array of geophones. Amplitudes and polarities of the coseismic strain steps are generally in excellent agreement with theoretical expectations based on point-source dislocation theory; specifically, the strain steps are proportional to the seismic moment divided by the cube of hypocentral distance. At a strain level of 5 x lod9 or greater the tremors do not appear to be preceded by any short-term indications of instability even for tremors producing coseismic steps greater than 5 x and for which the strainmeters were within a source radius of the hypocentre. Continuous strain changes observed at the times when the mine excavation, at a distance of about 100 m, is extended are in good agreement with calculated changes based on the theory of elasticity. A similar calculation is consistent with post-seismic strain changes observed to follow some of the closer tremors. These post-seismic strains show a logarithmic dependence on time following the tremor and appear to be due to the interaction of a tremor with the adjacent mine excavation rather than to deformation within the actual seismic source region. Date Time bl 05 J u l y 77 1646 1.2 x lo-' 06 J u l y 07 J u l y OM J u l y 09 J u l y 12 J u l y 14 J u l y 16 J u l y

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R. W. E. Green

Recent deformations of the deep continental root beneath southern Africa

A seismic refraction investigation of the Archaean Kaapvaal Craton, South Africa, using mine tremors as the energy source

Analysis of exceptionally large tremors in two gold mining districts of South Africa

Seismic refraction observations in the Transkei Basin and adjacent areas

Coseismic and other short-term strain changes recorded with Sacks-Evertson strainmeters in a deep mine, South Africa

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