Mantle upwellings above slab graveyards linked to the global geoid lows

The global geoid is characterized by a semi-continuous belt of lows that surround the Pacific Ocean, including isolated minima in the Indian Ocean, Ross Sea and northeast Pacific and west Atlantic oceans. These geoid lows have been attributed to Mesozoic subduction. Geodynamic models that include sl...

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Bibliographic Details
Published in:Nature Geoscience
Main Authors: Spasojevic, Sonja, Gurnis, Michael, Sutherland, Rupert
Format: Article in Journal/Newspaper
Language:English
Published: Nature Publishing Group 2010
Subjects:
Indian
Pacific
Ross Sea
Online Access:https://authors.library.caltech.edu/18687/
https://authors.library.caltech.edu/18687/2/ngeo855-s1.pdf
https://resolver.caltech.edu/CaltechAUTHORS:20100615-114546038
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Summary:The global geoid is characterized by a semi-continuous belt of lows that surround the Pacific Ocean, including isolated minima in the Indian Ocean, Ross Sea and northeast Pacific and west Atlantic oceans. These geoid lows have been attributed to Mesozoic subduction. Geodynamic models that include slab graveyards in the lower mantle as inferred from seismic topography or from plate reconstructions correctly predict the general trend of geoid minima. However, these models fail to accurately reproduce localized geoid lows in the Indian Ocean, Ross Sea and northeast Pacific Ocean. Here we show that the geoid lows are correlated with high-velocity anomalies near the base of the mantle and low-velocity anomalies in the mid-to-upper mantle. Our mantle flow models reproduce the geoid minima if the mid-to-upper mantle upwellings are positioned above the inferred locations of ancient subducted slabs. We find that the long-wavelength trough in the geoid is linked to high-density slab graveyards in the lower mantle, whereas upwelling regions in the mantle above 1,000 km depth cause discrete lows within the larger trough. We suggest that this mode of upwelling in the mid-to-upper mantle is caused by buoyant hydrated mantle that was created by processes around and above subducted slabs.

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