Temporal Evolution of the Swell and Magmatic Fluxes Along the Louisville Hotspot Chain

Hawaii and Louisville are the two long‐lived hotspot chains in the Pacific basin. Characterizing the swell flux, Qs, a measure of the plume buoyancy, and the flux of the magmatic material accumulated along the chain, Qm, brings important constraints on the plumes' temporal evolution and on thei...

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Published in:Geochemistry, geophysics, geosystems : G3 geophysics, geosystems : G3, 2022-11, Vol.23 (11), p.n/a
Main Authors: Adam, Claudia, Smith, Madison N., Kempton, Pamela D., Brueseke, Matthew
Format: Article
Language:English
Subjects:
Advection
Bathymetry
Evolution
Fertility
Fluctuations
Geochemistry
Hot spots
Lithosphere
long lived hotspots
Louisville
Magma
magmatism flux
Periodicity
Plumes
Swell
swell flux
Topography
Volcanoes
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Summary:Hawaii and Louisville are the two long‐lived hotspot chains in the Pacific basin. Characterizing the swell flux, Qs, a measure of the plume buoyancy, and the flux of the magmatic material accumulated along the chain, Qm, brings important constraints on the plumes' temporal evolution and on their interaction with the lithosphere. Numerous studies focus on the temporal evolution of the Hawaiian chain, but no study investigates the temporal evolution along the Louisville chain. In the present study we constrain the temporal evolution of the swell and magmatism fluxes along the Louisville chain, from volcano ages and bathymetry data. The overall Louisville magmatism flux appears nearly constant, that is, Louisville plume activity has exhibited remarkably little variation over the past 30 m.y., in agreement with geochemical data. These results are also in agreement with recent studies along Hawaii, which show that the Qm increase is due to plume migration toward a more fertile mantle reservoir. This means that, in general, long term variations in Qm relate to variations in the deep source of the plume. Along Louisville, we find short‐term variations occurring with a periodicity of ∼5–10 m.y. in both Qm and Qs, similar to the short‐term variations observed along Hawaii by former studies. As these variations occur along hotspot chains associated with either a heterogenous or homogeneous chemical signature, they must be created by shallow phenomena. The tilt of the plume conduit by large‐scale mantle advection is our preferred model, as it can account for both the geophysical and geochemical observations. Key Points Long term variations in the magmatism flux relate variations in the deep source of the plume The 5–10 m.y. periodicity observed along Louisville, already reported over other long‐lived hotspots, is created by shallow phenomena
ISSN:1525-2027
1525-2027
DOI:10.1029/2022GC010568