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Summary To provide constraints on a number of significant controversial issues related to the structure and dynamics of the Australian continent, we utilize P-to-S receiver functions (RFs) recorded by 182 stations to map the 410 and 660 km discontinuities (d410 and d660, respectively) bordering the mantle transition zone (MTZ). The RFs are stacked in successive circular bins with a radius of 1o under a non-plane wavefront assumption. The d410 and d660 depths obtained using the 1-D IASP91 Earth model show a systematic apparent uplifting of about 15 km for both discontinuities in central and western Australia relative to eastern Australia, as the result of higher seismic wavespeeds in the upper mantle beneath the former area. After correcting the apparent depths using the Australian Seismological Reference Model, the d410 depths beneath the West Australia Craton are depressed by ∼10 km on average relative to the normal depth of 410 km, indicating a positive thermal anomaly of 100 K at the top of the MTZ which could represent a transition from a thinner than normal MTZ beneath the Indian ocean and the normal MTZ beneath central Australia. The abnormally thick MTZ beneath eastern Australia can be adequately explained by subducted cold slabs in the MTZ. A localized normal thickness of the MTZ beneath the Newer Volcanics Province provides supporting evidence of non-mantle-plume mechanism for intraplate volcanic activities in the Australian continent.
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A possible lithospheric drip underneath the East Sayan Mountains in central Asia
As a consequence of the growth of accretionary orogenic belts in central Asia, the high elevation of the East Sayan Mountains concomitant with the plutonic activities in Jom-Bolok and Azas Plateau volcanic fields provide a rare opportunity to unravel lithospheric deformation induced by large-scale tectonic processes such as the passage of thermal plumes. Here we use receiver functions (RFs) to obtain high-resolution images of the 410 km (d410) and 660 km (d660) discontinuities and to measure mantle transition zone (MTZ) thickness. The average apparent depression of the d410 and d660 for a circular area under northern Mongolia and East Sayan are 14 km and 51 km respectively, leading to a significant thicker-than-normal MTZ with a mean value of 37 km. Our results, when incorporated with previous geochemical characteristics, suggest heterogeneous deep mantle materials highlighted by the great depression of the d660, revealing that possible foundered lithospheric remnants have dripped into the MTZ beneath the East Sayan Mountains. Negative thermal anomalies generated by the recycled lithosphere in the MTZ elucidate the prominent lateral undulation of the MTZ discontinuities, and a MTZ thinning beneath the southwest part of the study area is ascribed to the upward small-scale mantle convection initiated by the foundered lithospheric materials. We suggest that the descending lithosphere is due to the hot mantle plumes interacting with base of the mantle lithosphere which provided a viable perspective for the origin of the widespread magmatisms with distinct geochemical signatures in the region.
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- Award ID(s):
- 2149587
- PAR ID:
- 10481182
- Publisher / Repository:
- Wiley
- Date Published:
- Journal Name:
- American Geophysical Union Fall Meeting
- Format(s):
- Medium: X
- Location:
- Chicago
- Sponsoring Org:
- National Science Foundation
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