RUSSIAN JOURNAL OF EARTH SCIENCES, VOL. 16, ES2002, doi:10.2205/2016ES000566, 2016
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Anisotropy of elastic properties and thermal conductivity of the upper mantle – a case study of xenoliths shape: Evidence from xenoliths in basalts in North Eurasia
Figures
- Figure 1. Distribution frequencies of the orientation of (1) the major...
- Figure 2. Size of olivine porphyroblasts in xenolith sample 979/152, Tumbusun-Dulga...
- Figure 3. Size of olivine neoblasts in xenolith sample 979/152, Tumbusun-Dulga...
- Figure 4. Olivine pole figures for six sections perpendicular to the...
- Figure 5. Olivine pole figures for xenoliths form the Bohemian Massif...
- Figure 6. Olivine pole figures for sample Tim1-2, Lanzarote Island,...
- Figure 7. Schmidt's stereographic projections (lower hemisphere) for...
- Figure 8. Schmidt's stereographic projections (lower hemisphere) for...
- Figure 9. Wulf's stereographic projections (lower hemisphere) for...
- Figure 10. Wulf's stereographic projections (lower hemisphere) for...
- Figure 11. Variations of $V_p$ in mantle xenolith CH-1 from the Bohemian...
- Figure 12. Calculated $V_p$ and $V_s$ of mantle xenolith CH-1 from the Bohemian...
- Figure 13. Variations of $V_p$ in mantle xenoliths from the Baikal Rift...
- Figure 14. Histogram of thermal conductivity values of the studied xenoliths...
Tables
- Table 1. Thermoconductivity of the Mantle Xenoliths
Citation: Grachev A. F. (2016), Anisotropy of elastic properties and thermal conductivity of the upper mantle – a case study of xenoliths shape: Evidence from xenoliths in basalts in North Eurasia, Russ. J. Earth Sci., 16, ES2002, doi:10.2205/2016ES000566.
Copyright 2016 by the Geophysical Center RAS.
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