Lower-mantle plume beneath the Yellowstone hotspot revealed by core waves

<p>The Hawaiian-Emperor seamount chain that includes the Hawaiian volcanoes is created by the Hawaiian mantle plume. Although the mantle plume hypothesis predicts an oceanic plateau produced by massive decompression melting during the initiation stage of the Hawaiian hotspot, the fate of this plateau is unclear. We discovered a megameter-scale portion of thickened oceanic crust in the uppermost lower mantle west of the Sea of Okhotsk by stacking seismic waveforms of&#160;<em>SS&#160;</em>precursors. We propose that this thick crust represents a major part of the oceanic plateau that was created by the Hawaiian plume head about 100 Ma ago and subducted 20&#8211;30 Ma ago. Our discovery provides temporal and spatial clues of the early history of the Hawaiian plume for future plate reconstructions.</p>

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Dynamics and internal structure of a lower mantle plume conduit

Earth and Planetary Science Letters ◽

10.1016/j.epsl.2009.03.035 ◽

2009 ◽

Vol 282 (1-4) ◽

pp. 314-322 ◽

Cited By ~ 60

Author(s):

Cinzia G. Farnetani ◽

Albrecht W. Hofmann

Keyword(s):

Internal Structure ◽

Mantle Plume ◽

Lower Mantle

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Electrical Conductivity Evidence for the Existence of a Mantle Plume Beneath Tarim Basin

Applied Sciences ◽

10.3390/app11030893 ◽

2021 ◽

Vol 11 (3) ◽

pp. 893

Author(s):

Junhao Guo ◽

Xinbao Lian ◽

Xueqiu Wang

Keyword(s):

Simulated Annealing ◽

Mantle Plume ◽

Tarim Basin ◽

Lower Mantle ◽

Simulated Annealing Algorithm ◽

Theoretical Data ◽

Global Average ◽

Conductivity Model ◽

Annealing Algorithm ◽

Depth Sounding

This paper proposes using a simulated annealing (SA) calculation to perform one-dimensional inversion of Geomagnetic Depth Sounding (GDS) to obtain the conductivity information of the lower mantle beneath the Tarim area, to calculate the temperature of the lower mantle according to the relevant formula of the petrophysical experiment, and to provide evidence of the existence of the Tarim mantle plume. The data used for inversion originate from the China Geomagnetic Network Center. This article uses theoretical data to prove that the simulated annealing algorithm can invert the true conductivity model when the data do not contain noise. However, when the data contain noise, it is more accurate to use the statistical expected value of the high-quality conductivity model during the simulated annealing inversion process as the optimal conductivity model rather than the classic simulated annealing algorithm. The simulated annealing inversion results of only four stations in Tarim area show that the conductivity of the top of the lower mantle and the upper part of the mantle transition zone in Tarim area is higher than the global average, and it is speculated that the temperature is 150k–450k higher than the global average. This is important evidence for the existence of the mantle plume beneath the Tarim Basin.

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Geodynamics of the Yellowstone hotspot and mantle plume: Seismic and GPS imaging, kinematics, and mantle flow

Journal of Volcanology and Geothermal Research ◽

10.1016/j.jvolgeores.2009.08.020 ◽

2009 ◽

Vol 188 (1-3) ◽

pp. 26-56 ◽

Cited By ~ 146

Author(s):

Robert B. Smith ◽

Michael Jordan ◽

Bernhard Steinberger ◽

Christine M. Puskas ◽

Jamie Farrell ◽

...

Keyword(s):

Mantle Plume ◽

Mantle Flow ◽

Yellowstone Hotspot

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D/H ratios in basalt glasses from the Salas y Gomez mantle plume interacting with the East Pacific Rise: Water from old D-rich recycled crust or primordial water from the lower mantle?

Geochemistry Geophysics Geosystems ◽

10.1029/2001gc000199 ◽

2002 ◽

Vol 3 (4) ◽

pp. 1-26 ◽

Cited By ~ 35

Author(s):

Richard H. Kingsley ◽

Jean-Guy Schilling ◽

Jacqueline E. Dixon ◽

Peter Swart ◽

Robert Poreda ◽

...

Keyword(s):

Mantle Plume ◽

Lower Mantle ◽

East Pacific Rise ◽

East Pacific ◽

Basalt Glasses

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Helium isotope signature of lithospheric mantle xenoliths from the Permo-Carboniferous magmatic province in Scotland — no evidence for a lower-mantle plume

Geological Society London Special Publications ◽

10.1144/gsl.sp.2004.223.01.11 ◽

2004 ◽

Vol 223 (1) ◽

pp. 243-258 ◽

Cited By ~ 3

Author(s):

L. A. Kirstein ◽

T. J. Dunai ◽

G. R. Davies ◽

B. G. J. Upton ◽

I. K. Nikogosian

Keyword(s):

Mantle Plume ◽

Lithospheric Mantle ◽

Lower Mantle ◽

Mantle Xenoliths ◽

Helium Isotope ◽

Isotope Signature

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Oceanic plateau of the Hawaiian mantle plume head subducted to the uppermost lower mantle

Science ◽

10.1126/science.abd0312 ◽

2020 ◽

Vol 370 (6519) ◽

pp. 983-987

Author(s):

Songqiao Shawn Wei ◽

Peter M. Shearer ◽

Carolina Lithgow-Bertelloni ◽

Lars Stixrude ◽

Dongdong Tian

Keyword(s):

Mantle Plume ◽

Lower Mantle ◽

Hot Spot ◽

Oceanic Plateau ◽

Seismic Waveforms ◽

Hawaiian Plume ◽

Plate Reconstructions ◽

History Of ◽

Seamount Chain ◽

Initiation Stage

The Hawaiian-Emperor seamount chain that includes the Hawaiian volcanoes was created by the Hawaiian mantle plume. Although the mantle plume hypothesis predicts an oceanic plateau produced by massive decompression melting during the initiation stage of the Hawaiian hot spot, the fate of this plateau is unclear. We discovered a megameter-scale portion of thickened oceanic crust in the uppermost lower mantle west of the Sea of Okhotsk by stacking seismic waveforms of SS precursors. We propose that this thick crust represents a major part of the oceanic plateau that was created by the Hawaiian plume head ~100 million years ago and subducted 20 million to 30 million years ago. Our discovery provides temporal and spatial clues of the early history of the Hawaiian plume for future plate reconstructions.

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