Astronomy and Astrophysics – Astronomy
Scientific paper
Sep 2001
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2001geoji.146..714d&link_type=abstract
Geophysical Journal International, Volume 146, Issue 3, pp. 714-730.
Astronomy and Astrophysics
Astronomy
31
Asia, Baikal Rift, Continental Crust, Extension, Rheology, Strength Profile
Scientific paper
The correspondence between the predicted brittle-plastic transition within the crust and the maximum depth of earthquakes is examined in the case of the Baikal rift, Siberia. Although little accurate information on depths is available through large- and moderate-size earthquakes, there are frequent indications of foci at 20km depth and more. We have relocated 632 events recorded at nearby stations that occurred between 1971 and 1997, with depth and epicentral uncertainties less than 5km, over the eastern and southern parts of the Baikal rift. We have compared these results with other depth distributions obtained in previous studies from background seismicity in the NE rift (1365 events in the Kalar-Chara zone and 704 events in the Muya region). The relative abundance of earthquakes is generally low at depths between 0 and 10km (7-15 per cent) and high between 15 and 25km (~50 per cent). Earthquake activity is still significant between 25 and 30km (9-15 per cent) and persists between 30 and 40km (7-13 per cent). Very few earthquakes are below the Moho. We use empirical constitutive laws to obtain the yield-stress limits of several layers made of dominant lithologies and to examine whether the observed distribution of earthquakes at depth (519 events controlled by a close station and located within the extensional domain of the Baikal rift system) can match the predicted crustal strength proportion with depth and the deeper brittle-ductile transition in the crust. A good fit is obtained by using a quartz rheology at 0-10km depth and a diabase rheology at 10-45km depth with a moderate temperature field which corresponds to a ~100Myr thermal lithosphere. No dioritic composition of the crust is found necessary. In any case, earthquakes occur at deep crustal levels, where the crust is supposed to be ductile, in a way very similar to what is found in the East African Rift System. From these results we conclude that the seismogenic thickness is ~35-40km in the Baikal rift system and that the depth distribution of earthquakes is at first order proportional to the strength profile found in a rheologically layered crust dominated by a mafic composition in the ~10-45km depth range. An upper mantle core with high strength, however, generally prevents it from reaching stress failure at greater depth.
Déverchère Jacques
Gileva Nadejda
Melnikova Valentina
Petit Carole
Radziminovitch Natalia
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