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Preliminary results On the detection of mantle plumes by wavelet variances of the gravity field M. Klug, H. Schmeling, W. Freeden, O. Cadek Project 6.7.

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Presentation on theme: "Preliminary results On the detection of mantle plumes by wavelet variances of the gravity field M. Klug, H. Schmeling, W. Freeden, O. Cadek Project 6.7."— Presentation transcript:

1 Preliminary results On the detection of mantle plumes by wavelet variances of the gravity field M. Klug, H. Schmeling, W. Freeden, O. Cadek Project 6.7 Mantle plumes and the geoid

2 Synthetic mantle convection models Solve equations of mass, momentum, energy Axisymmetric spherical Viscosity jump (x30) at 660 km Internally heated (chondr) T = 3000 K at bottom  Plume at pole Project 6.7 Mantle plumes and the geoid

3 Synthetic plume models  Plume time dependent 500 Ma 660 Ma 1 Ga 2.3 Ga 3 Ga 4 Ga 4.5 Ga1.5 Ga Project 6.7 Mantle plumes and the geoid

4 -  N thermal  N dyn-topo Dynamic topo +

5 -  N dyn-topo  N thermal  N total  Plume signal varies with time, depending on plume stage Project 6.7 Mantle plumes and the geoid

6 Plume signals for different viscosity structures Project 6.7 Mantle plumes and the geoid Next steps analyse plume signal at different stages systematically distinguish plume classes

7 To be seen in gravity field? Geoid Gravity anomalies Project 6.7 Mantle plumes and the geoid Stong plumes

8 Analyse synthetic and observed signals by wavelets  Second part of presentation Project 6.7 Mantle plumes and the geoid

9 Hotspots, plumes of the earth (Steinberger, 2000) Size: estimated buoyancy mass flux of plumes in kg/s. Total: >53 000 kg/s 6500 3600 4500 1200 1100 1400

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