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The Role of the Core in Mantle Plumes Graham Smith University of Durham Dept. of Earth Sciences.

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1 The Role of the Core in Mantle Plumes Graham Smith University of Durham Dept. of Earth Sciences

2 How is the Core Involved? Source of HEAT Origin of plumes at the Core- Mantle Boundary (CMB)? from Ritsema et al. 1999.

3 Why a CMB Origin? Size of some large igneous provinces requires an origin in the lower mantle or the CMB Mechanism of heat removal from the CMB area Large Igneous ProvincesEarth’s Heat BudgetEarth’s Geodynamo Modified from Condie (2003) CRETACEOUS SUPERCHRON 50-75% increase in rate of crustal production “Superplume” events correlate well with patterns of magnetic reversal www.creaso.com

4 Outer core enriched in Os by 300x mantle values High 187 Os/ 188 Os and 186 Os/ 188 Os OSMIUM “Plume-related” basalts carry this signal Addition of ≤1wt.% outer core material BUT, High Os ratios can also be generated in the crust

5 Why Not the Upper Mantle? PUM = Primitive Upper Mantle From Brandon et al. 1999.

6 OSMIUM CRUSTAL CONTAMINATION e.g. Koolau lavas, Hawaii High 187 Os/ 188 Os Low 186 Os/ 188 Os High d 18 O High Sr Low Nd

7 HELIUM Core enriched in primordial He during accretionHigh 3 He/ 4 He ratios MORB = 8±1 Ra Modified from van Keken et al. (2002)

8 FOZO: A common theme Geochemical signatures all point to a common component OIBs comprise a variety of different isotopic endmembers Material rising from the CMB incorporates deep mantle material But, FOZO is poor in Os FOZO

9 Ultra-Low Velocity Zones

10 Implications Osmium systematics suggest incorporation of outer core material at CMB Presence of recycled ancient crust suggests that slabs sink to CMB Less degassed lower mantle separated from degassed upper mantle points to a double-layer mantle system. Primordial 3 He points strongly to a CMB origin for plumes Courtesy of University of Hawaii, Institute for Astronomy

11 References Brandon et al. (1998). Nature 280 1570-73. Brandon et al. (1999). Earth & Planetary Science Letters 174 25-42. Campbell & Griffiths(1992). J.Geol. 92 497-523. Condie. (2003) Plate Tectonics and Crustal Evolution, 4 th ed.. Butterworth-Heinemann. Dubrovinsky et al. (2001). Nature 412 527-29. Gurnis et al. (1998). The Core-Mantle Boundary Region. AGU Geodynamics Series 28. Jacobs (1993). Deep Interior of the Earth. Chapman & Hall. Jephcoat (1998). Nature 393 355-58. Knittle & Jeanloz (1991). Science 251 1438-43. Larson (1991). Geology 19 547-50. Li & Agee (1996). Nature 381 686-89. Macpherson et al. (2000). Earth & Planetary Science Letters 176 171-83. Marty et al. (1996). Earth & Planetary Science Letters 144 223-37. McElhinny (1979). The Earth: Its Origin, Structure & Evolution. Peltier (1989). Fluid Mechanics of Astrophysics & Geophysics 4. Rost & Revenaugh (2001). Science 294 1911-14. Schubert et al. (2001). Mantle Convection in the Earth & Planets. Tschauner et al. (1999). Nature 398 604-7. Van Keken et al. (2002). Annu. Rev. Earth Planet. Sci. 30 493-525 Walker et al. (1995). Science 269 819-22. Widom & Shirey (1996). Earth & Planetary Science Letters 142 451-65.

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