Petrological evidence for secular cooling in mantle plumes.

Herzberg C; Gazel E

doi:10.1038/nature07857

Abstract

Geological mapping and geochronological studies have shown much lower eruption rates for ocean island basalts (OIBs) in comparison with those of lavas from large igneous provinces (LIPs) such as oceanic plateaux and continental flood provinces. However, a quantitative petrological comparison has never been made between mantle source temperature and the extent of melting for OIB and LIP sources. Here we show that the MgO and FeO contents of Galapagos-related lavas and their primary magmas have decreased since the Cretaceous period. From petrological modelling, we infer that these changes reflect a cooling of the Galapagos mantle plume from a potential temperature of 1,560-1,620 degrees C in the Cretaceous to 1,500 degrees C at present. Iceland also exhibits secular cooling, in agreement with previous studies. Our work provides quantitative petrological evidence that, in general, mantle plumes for LIPs with Palaeocene-Permian ages were hotter and melted more extensively than plumes of more modern ocean islands. We interpret this to reflect episodic flow from lower-mantle domains that are lithologically and geochemically heterogeneous.

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Articles referenced by this article (35)

Flood basalts and hot-spot tracks: plume heads and tails.
Richards MA, Duncan RA, Courtillot VE
Science, (4926):103-107 1989
MED: 17837768
Herzberg, C. & Asimow, P. D. Petrology of some oceanic island basalts: PRIMELT2.XLS software for primary magma calculation. Geochem. Geophys. Geosyst. 9 10.1029/2008GC002057 (2008)
Herzberg, C. et al. Temperatures in ambient mantle and plumes: constraints from basalts, picrites and komatiites. Geochem. Geophys. Geosyst. 8 10.1029GC001390 (2007)
Armitage, J. J., Henstock, T. J., Minshull, T. A. & Hopper, J. R. Modelling the composition of melts formed during continental breakup of the Southeast Greenland margin. Earth Planet. Sci. Lett. 269, 248–258 (2008)
Duncan, R. A. & Hargraves, R. B. Plate tectonic evolution of the Caribbean region in the mantle reference frame. Bull. Geol. Soc. Am. 162, 81–93 (1984)
Hoernle, K., Hauff, F. & van den Bogaard, P. 70 m.y. history (139–69 Ma) for the Caribbean large igneous province. Geology 32, 697–700 (2004)
Storey, M., Mahoney, J. J., Kroenke, L. W. & Saunders, A. D. Are oceanic plateaus sites for komatiite formation? Geology 19, 376–379 (1991)
Kerr, A. C. et al. The petrogenesis of Gorgona komatiites, picrites and basalts: new field, petrographic and geochemical constrains. Lithos 37, 245–260 (1996)
Kerr, A. C. & Tarney, J. Tectonic evolution of the Caribbean and northwestern South America: The case for accretion of two Late Cretaceous oceanic plateaus. Geology 33, 269–272 (2005)
Langmuir, C. H., Klein, E. M. & Plank, T. in Mantle Flow and Melt Generation at Mid-Ocean Ridges (eds Morgan, J. P., Blackman, D. K. & Sinton J. M.) 183–280 (Geophys. Monogr. Ser. 71, American Geophysical Union, 1992)

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Petrological evidence for secular cooling in mantle plumes.

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References

Flood basalts and hot-spot tracks: plume heads and tails.

Herzberg, C. & Asimow, P. D. Petrology of some oceanic island basalts: PRIMELT2.XLS software for primary magma calculation. Geochem. Geophys. Geosyst. 9 10.1029/2008GC002057 (2008)

Herzberg, C. et al. Temperatures in ambient mantle and plumes: constraints from basalts, picrites and komatiites. Geochem. Geophys. Geosyst. 8 10.1029GC001390 (2007)

Armitage, J. J., Henstock, T. J., Minshull, T. A. & Hopper, J. R. Modelling the composition of melts formed during continental breakup of the Southeast Greenland margin. Earth Planet. Sci. Lett. 269, 248–258 (2008)

Duncan, R. A. & Hargraves, R. B. Plate tectonic evolution of the Caribbean region in the mantle reference frame. Bull. Geol. Soc. Am. 162, 81–93 (1984)

Hoernle, K., Hauff, F. & van den Bogaard, P. 70 m.y. history (139–69 Ma) for the Caribbean large igneous province. Geology 32, 697–700 (2004)

Storey, M., Mahoney, J. J., Kroenke, L. W. & Saunders, A. D. Are oceanic plateaus sites for komatiite formation? Geology 19, 376–379 (1991)

Kerr, A. C. et al. The petrogenesis of Gorgona komatiites, picrites and basalts: new field, petrographic and geochemical constrains. Lithos 37, 245–260 (1996)

Kerr, A. C. & Tarney, J. Tectonic evolution of the Caribbean and northwestern South America: The case for accretion of two Late Cretaceous oceanic plateaus. Geology 33, 269–272 (2005)

Langmuir, C. H., Klein, E. M. & Plank, T. in Mantle Flow and Melt Generation at Mid-Ocean Ridges (eds Morgan, J. P., Blackman, D. K. & Sinton J. M.) 183–280 (Geophys. Monogr. Ser. 71, American Geophysical Union, 1992)

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The constant oxidation state of Earth's mantle since the Hadean.

Hydrous mantle plume promoted the generation of continental flood basalts in the Tarim large igneous province.

Lithospheric thickness records tectonic evolution by controlling metamorphic conditions.

The evolution of the Galápagos mantle plume.

Subduction initiation triggered the Caribbean large igneous province.

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Search life-sciences literature (45,103,477 articles, preprints and more)

Petrological evidence for secular cooling in mantle plumes.

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Authors

Abstract

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References

Herzberg, C. & Asimow, P. D. Petrology of some oceanic island basalts: PRIMELT2.XLS software for primary magma calculation. Geochem. Geophys. Geosyst. 9 10.1029/2008GC002057 (2008)

Herzberg, C. et al. Temperatures in ambient mantle and plumes: constraints from basalts, picrites and komatiites. Geochem. Geophys. Geosyst. 8 10.1029GC001390 (2007)

Armitage, J. J., Henstock, T. J., Minshull, T. A. & Hopper, J. R. Modelling the composition of melts formed during continental breakup of the Southeast Greenland margin. Earth Planet. Sci. Lett. 269, 248–258 (2008)

Duncan, R. A. & Hargraves, R. B. Plate tectonic evolution of the Caribbean region in the mantle reference frame. Bull. Geol. Soc. Am. 162, 81–93 (1984)

Hoernle, K., Hauff, F. & van den Bogaard, P. 70 m.y. history (139–69 Ma) for the Caribbean large igneous province. Geology 32, 697–700 (2004)

Storey, M., Mahoney, J. J., Kroenke, L. W. & Saunders, A. D. Are oceanic plateaus sites for komatiite formation? Geology 19, 376–379 (1991)

Kerr, A. C. et al. The petrogenesis of Gorgona komatiites, picrites and basalts: new field, petrographic and geochemical constrains. Lithos 37, 245–260 (1996)

Kerr, A. C. & Tarney, J. Tectonic evolution of the Caribbean and northwestern South America: The case for accretion of two Late Cretaceous oceanic plateaus. Geology 33, 269–272 (2005)

Langmuir, C. H., Klein, E. M. & Plank, T. in Mantle Flow and Melt Generation at Mid-Ocean Ridges (eds Morgan, J. P., Blackman, D. K. & Sinton J. M.) 183–280 (Geophys. Monogr. Ser. 71, American Geophysical Union, 1992)

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