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Mantle upwelling at Afar triple junction shaped by overriding plate dynamics

Mantle upwelling at Afar triple junction shaped by overriding plate dynamics
Mantle upwelling at Afar triple junction shaped by overriding plate dynamics
Mantle upwellings drive large-scale surface volcanism and facilitate continental breakup and ocean basin formation. However, the spatial characteristics and internal composition of these upwellings alongside how they are modified by plate tectonics are poorly resolved. Afar, East Africa, is a classic triple junction comprising three rifts at various stages of evolution thought to be underlain by a mantle upwelling or plume, allowing examination of the controls on the mantle upwelling. Here we present geochemical data from >130 samples of ‘young’ volcanoes spanning the rifts defining the triple junction to show that the underlying mantle comprises a single, asymmetric upwelling. Using statistical modelling to integrate our data with existing geochemical and geophysical constraints, we suggest that Afar is fed by a spatially and chemically heterogeneous upwelling, which controls the composition and relative abundance of melt in all three rift arms. We identify repetitive signatures in mantle compositions in rift regions, whose variability is a longer wavelength in faster-extending rift arms. This suggests more rapid channelized mantle flow occurs where rifting rates are higher and the plate is thinner, aiding flow of the upwelling towards the faster-spreading Red Sea Rift. Our findings demonstrate how the evolution of mantle upwellings is influenced by the dynamics of overriding plates.
1752-0894
661-669
Watts, Emma J.
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Rees, Rhiannon
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Jonathan, Philip
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Keir, Derek
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Taylor, Rex N.
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Siegburg, Melanie
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Chambers, Emma
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Pagli, Carolina
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Cooper, Matthew
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Michalik, Agnes
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Milton, J. Andy
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Hincks, Thea
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Gebru, Ermias
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Ayele, Atalay
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Abebe, Bekele
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Gernon, Thomas M.
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Watts, Emma J.
2135079d-2472-4d7e-a05a-3f234793697e
Rees, Rhiannon
e4eb2f3f-4f7f-41e0-b434-26fcaf238708
Jonathan, Philip
b426d153-a542-43de-bb3e-3c7d6cbfeb65
Keir, Derek
5616f81f-bf1b-4678-a167-3160b5647c65
Taylor, Rex N.
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Siegburg, Melanie
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Chambers, Emma
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Pagli, Carolina
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Cooper, Matthew
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Michalik, Agnes
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Milton, J. Andy
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Hincks, Thea
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Gebru, Ermias
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Ayele, Atalay
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Abebe, Bekele
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Gernon, Thomas M.
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Watts, Emma J., Rees, Rhiannon, Jonathan, Philip, Keir, Derek, Taylor, Rex N., Siegburg, Melanie, Chambers, Emma, Pagli, Carolina, Cooper, Matthew, Michalik, Agnes, Milton, J. Andy, Hincks, Thea, Gebru, Ermias, Ayele, Atalay, Abebe, Bekele and Gernon, Thomas M. (2025) Mantle upwelling at Afar triple junction shaped by overriding plate dynamics. Nature Geoscience, 18 (7), 661-669. (doi:10.1038/s41561-025-01717-0).

Record type: Article

Abstract

Mantle upwellings drive large-scale surface volcanism and facilitate continental breakup and ocean basin formation. However, the spatial characteristics and internal composition of these upwellings alongside how they are modified by plate tectonics are poorly resolved. Afar, East Africa, is a classic triple junction comprising three rifts at various stages of evolution thought to be underlain by a mantle upwelling or plume, allowing examination of the controls on the mantle upwelling. Here we present geochemical data from >130 samples of ‘young’ volcanoes spanning the rifts defining the triple junction to show that the underlying mantle comprises a single, asymmetric upwelling. Using statistical modelling to integrate our data with existing geochemical and geophysical constraints, we suggest that Afar is fed by a spatially and chemically heterogeneous upwelling, which controls the composition and relative abundance of melt in all three rift arms. We identify repetitive signatures in mantle compositions in rift regions, whose variability is a longer wavelength in faster-extending rift arms. This suggests more rapid channelized mantle flow occurs where rifting rates are higher and the plate is thinner, aiding flow of the upwelling towards the faster-spreading Red Sea Rift. Our findings demonstrate how the evolution of mantle upwellings is influenced by the dynamics of overriding plates.

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Accepted/In Press date: 7 May 2025
Published date: 25 June 2025
Learn more about School of Ocean and Earth Science research

Identifiers

Local EPrints ID: 502637
URI: http://eprints.soton.ac.uk/id/eprint/502637
DOI: doi:10.1038/s41561-025-01717-0
ISSN: 1752-0894
PURE UUID: 210a73ae-2054-4552-86a2-aeb6566cc0be
ORCID for Emma J. Watts: ORCID iD orcid.org/0000-0001-6823-395X
ORCID for Derek Keir: ORCID iD orcid.org/0000-0001-8787-8446
ORCID for Rex N. Taylor: ORCID iD orcid.org/0000-0002-9367-0294
ORCID for Matthew Cooper: ORCID iD orcid.org/0000-0002-2130-2759
ORCID for Agnes Michalik: ORCID iD orcid.org/0000-0001-7715-6482
ORCID for J. Andy Milton: ORCID iD orcid.org/0000-0003-4245-5532
ORCID for Thea Hincks: ORCID iD orcid.org/0000-0003-4537-6194
ORCID for Thomas M. Gernon: ORCID iD orcid.org/0000-0002-7717-2092

Catalogue record

Date deposited: 02 Jul 2025 16:58
Last modified: 17 Sep 2025 02:02

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Contributors

Author: Emma J. Watts ORCID iD
Author: Rhiannon Rees
Author: Philip Jonathan
Author: Derek Keir ORCID iD
Author: Rex N. Taylor ORCID iD
Author: Melanie Siegburg
Author: Emma Chambers
Author: Carolina Pagli
Author: Matthew Cooper ORCID iD
Author: Agnes Michalik ORCID iD
Author: J. Andy Milton ORCID iD
Author: Thea Hincks ORCID iD
Author: Ermias Gebru
Author: Atalay Ayele
Author: Bekele Abebe
Author: Thomas M. Gernon ORCID iD

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