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Are the predictions of the plume hypothesis borne out by observation? 1.Temperature Natalie Starkey.

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Presentation on theme: "Are the predictions of the plume hypothesis borne out by observation? 1.Temperature Natalie Starkey."— Presentation transcript:

1 Are the predictions of the plume hypothesis borne out by observation? 1.Temperature Natalie Starkey

2 What is the plume hypothesis? Proposed by Morgan (1971). Hot upwellings of relatively primordial material which rise from the deep mantle originating from a ‘thermal boundary layer’ and feed ‘hotspots’. Thought to rise from the D’’ layer at the CMB. Concept of a plume allows for the return flow of material to the surface relative to subducted slabs. Numerical simulation of mantle plumes. Red=hot upwellings. Blue=cold downwellings Keifer and Kellogg, 1998

3 How hot is the mantle? Opposing views on mantle temperatures Plume geologists estimate: Tp = 1280 +/- 20 o C - McKenzie & Bickle (1988) Geophysical estimate: Tp = 1400 +/- 200 o C - Anderson & Bass (1984) >100 o C difference between estimates

4 Measuring hotspot temperatures Petrology: studies of melt products of experimental phase equilibria Crustal Thickness: McKenzie & Bickle estimates Heat Flow: which is then to compared to data from thermal models of heat flow for cooling of oceanic crust in other regions. Bathymetry & Subsidence rates: Hot mantle = slower subsidence Seismic Velocities: slower velocities in hot mantle. Affected greatly by partial melt. De Paolo and Manga, Science, 2003 P-wave velocities under Hawaii: red=slow, blue=fast. Red and yellow regions suggest anomalously high temperature.

5 How hot are hotspots? At ‘normal’ mantle temperatures peridotite cannot produce melt in the correct volumes or rate of that seen at hotspots/flood basalt regions, Cordery et al. (1997). High mantle temperatures are therefore required to produce the magmatism (Tp in excess of 1600 o C). Griffiths and Campbell (1990) - cold head, hot tail. Farnetani and Richards (1995) - hot head, cold tail.

6 Fitton & Godard - Tp >1500 o C for the Ontong Java Plateau Nisbet et al. (1993) - Tp = 1600 o C for the Galapagos starting plume Gill et al. (1992) - Tp = 1550-1600 o C for Iceland starting plume These values lie within the geophysical range so may be regarded as ‘normal’ mantle temperatures! However, Thompson & Gibson (2000) - Tp = 1700 o C for parts of the Tristan starting-plume head. Starting-plume head temperatures

7 Present hotspot temperatures Shen et al. (1998) and others - Tp = 1450-1600 o C for Hawaiian and Icelandic plumes - 150-300 o C above global asthenospheric MORB- source upper mantle. Korenaga & Kelemen (2000) - Tp for lavas of the North Atlantic Igneous Province and normal mid-ocean ridge are very similar. - Variance of <70 o C Ribe et al. (1995) - Temperature excesses of <70 o C predicted for the Azores, Galapagos and Iceland. No significant anomaly in heatflow for Hawaii as heatflow is found to be similar to that expected for lithosphere of the same age elsewhere.

8 Petrological models predict pyrolite mantle. ‘Pyrolite melting’ models of Cordery et al. (1997) only produced melt when the hottest plume impacted the youngest (thinnest) lithosphere. Ambient mantle ~1300 o C, excess magmatism at hotspots can be explained by localised hotter upwelling jets of material. Ambient mantle = 1400 o C +/- 200 o C then excess magmatism at hotspots is not caused by temperature excesses as observed temperatures lie within this range. So … How is hotspot/flood basalt magmatism explained? Models

9 What is the source for hotspots ? Flood basalts have higher FeO for a given SiO 2 than MORB. Require a more basaltic source! Subducted ocean crust = eclogitic. Eclogitic component lowers solidus - enhancing melt productivity. (More melt produced at lower temperatures). How is this melt entrained? Are plumes homogenous or hetereogeneous?

10 Summary Disagreement over ambient mantle ‘normal’ temperature. 1300 +/- 20 o C OR 1400 +/- 200 o C. Disagreement over how to measure plume temperatures. Disagreement over source composition. Hotspots are ‘hot’ when compared to mantle of 1300 o C but are not ‘hot’ when compared to 1400 o C mantle. Which model of ‘normal’ mantle temperatures is correct?

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