When do mantle plumes destroy diamonds?

Mantle plumes are hot buoyant upwellings that rise from Earth's core–mantle-boundary to its surface where they can produce large igneous provinces (LIPs) and volcanic tracks, such as the Siberian Traps and the Hawaiian Emperor chain, respectively. We show that flattened mantle plume heads, whic...

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Published in:Earth and Planetary Science Letters
Main Authors: Ernst, R.E. (Richard E.), Davies, D.R. (D. R.), Jowitt, S.M. (S. M.), Campbell, I.H. (I. H.)
Format: Article in Journal/Newspaper
Language:English
Published: 2018
Subjects:
diamond window
kimberlite
large igneous province
lithosphere
mantle plume
Attawapiskat
Kyle Lake
Yakutsk
Online Access:https://ir.library.carleton.ca/pub/20998
https://doi.org/10.1016/j.epsl.2018.08.058
id ftcarletonunivir:oai:carleton.ca:20998
record_format openpolar
spelling ftcarletonunivir:oai:carleton.ca:20998 2023-05-15T15:33:17+02:00 When do mantle plumes destroy diamonds? Ernst, R.E. (Richard E.) Davies, D.R. (D. R.) Jowitt, S.M. (S. M.) Campbell, I.H. (I. H.) 2018-11-15 https://ir.library.carleton.ca/pub/20998 https://doi.org/10.1016/j.epsl.2018.08.058 en eng https://ir.library.carleton.ca/pub/20998 doi:10.1016/j.epsl.2018.08.058 Earth and Planetary Science Letters vol. 502, pp. 244-252 diamond window kimberlite large igneous province lithosphere mantle plume info:eu-repo/semantics/article 2018 ftcarletonunivir https://doi.org/10.1016/j.epsl.2018.08.058 2022-02-06T21:51:24Z Mantle plumes are hot buoyant upwellings that rise from Earth's core–mantle-boundary to its surface where they can produce large igneous provinces (LIPs) and volcanic tracks, such as the Siberian Traps and the Hawaiian Emperor chain, respectively. We show that flattened mantle plume heads, which can have radii of >1200 km in the uppermost mantle, can heat the overlying lithospheric mantle to temperatures above the diamond stability field. As a consequence, they can destroy diamonds within the roots of Archean cratons, the principal source of diamonds in kimberlites. We quantitatively demonstrate that there is a ‘sour spot’ for this effect that occurs when lithospheric thicknesses are 165–185 km and the plume has a temperature of >150 °C above background mantle. Our model explains why the kimberlites associated with the 370 Ma Yakutsk–Vilyui plume in the Siberian craton are diamondiferous whilst those associated with the younger 250 Ma Siberian Traps plume are barren. We also show that the time required to restore the pre-plume thermal structure of the lithosphere is ca. 75–120 Myr, and that destroyed diamonds may regrow once the plume's thermal effect dissipates. The 1100 Ma Kyle Lake and adjacent 180–150 Ma Attawapiskat kimberlites in the southern Superior craton exemplify this, where the older kimberlites are associated with a narrower diamond window (<30 km) in comparison with the ca. 85 km diamond window of the younger Attawapiskat field. Article in Journal/Newspaper Attawapiskat Yakutsk Carleton University's Institutional Repository Attawapiskat ENVELOPE(-82.417,-82.417,52.928,52.928) Kyle Lake ENVELOPE(-102.084,-102.084,58.283,58.283) Yakutsk Earth and Planetary Science Letters 502 244 252
institution Open Polar
collection Carleton University's Institutional Repository
op_collection_id ftcarletonunivir
language English
topic diamond window
kimberlite
large igneous province
lithosphere
mantle plume
spellingShingle diamond window
kimberlite
large igneous province
lithosphere
mantle plume
Ernst, R.E. (Richard E.)
Davies, D.R. (D. R.)
Jowitt, S.M. (S. M.)
Campbell, I.H. (I. H.)
When do mantle plumes destroy diamonds?
topic_facet diamond window
kimberlite
large igneous province
lithosphere
mantle plume
description Mantle plumes are hot buoyant upwellings that rise from Earth's core–mantle-boundary to its surface where they can produce large igneous provinces (LIPs) and volcanic tracks, such as the Siberian Traps and the Hawaiian Emperor chain, respectively. We show that flattened mantle plume heads, which can have radii of >1200 km in the uppermost mantle, can heat the overlying lithospheric mantle to temperatures above the diamond stability field. As a consequence, they can destroy diamonds within the roots of Archean cratons, the principal source of diamonds in kimberlites. We quantitatively demonstrate that there is a ‘sour spot’ for this effect that occurs when lithospheric thicknesses are 165–185 km and the plume has a temperature of >150 °C above background mantle. Our model explains why the kimberlites associated with the 370 Ma Yakutsk–Vilyui plume in the Siberian craton are diamondiferous whilst those associated with the younger 250 Ma Siberian Traps plume are barren. We also show that the time required to restore the pre-plume thermal structure of the lithosphere is ca. 75–120 Myr, and that destroyed diamonds may regrow once the plume's thermal effect dissipates. The 1100 Ma Kyle Lake and adjacent 180–150 Ma Attawapiskat kimberlites in the southern Superior craton exemplify this, where the older kimberlites are associated with a narrower diamond window (<30 km) in comparison with the ca. 85 km diamond window of the younger Attawapiskat field.
format Article in Journal/Newspaper
author Ernst, R.E. (Richard E.)
Davies, D.R. (D. R.)
Jowitt, S.M. (S. M.)
Campbell, I.H. (I. H.)
author_facet Ernst, R.E. (Richard E.)
Davies, D.R. (D. R.)
Jowitt, S.M. (S. M.)
Campbell, I.H. (I. H.)
author_sort Ernst, R.E. (Richard E.)
title When do mantle plumes destroy diamonds?
title_short When do mantle plumes destroy diamonds?
title_full When do mantle plumes destroy diamonds?
title_fullStr When do mantle plumes destroy diamonds?
title_full_unstemmed When do mantle plumes destroy diamonds?
title_sort when do mantle plumes destroy diamonds?
publishDate 2018
url https://ir.library.carleton.ca/pub/20998
https://doi.org/10.1016/j.epsl.2018.08.058
long_lat ENVELOPE(-82.417,-82.417,52.928,52.928)
ENVELOPE(-102.084,-102.084,58.283,58.283)
geographic Attawapiskat
Kyle Lake
Yakutsk
geographic_facet Attawapiskat
Kyle Lake
Yakutsk
genre Attawapiskat
Yakutsk
genre_facet Attawapiskat
Yakutsk
op_source Earth and Planetary Science Letters vol. 502, pp. 244-252
op_relation https://ir.library.carleton.ca/pub/20998
doi:10.1016/j.epsl.2018.08.058
op_doi https://doi.org/10.1016/j.epsl.2018.08.058
container_title Earth and Planetary Science Letters
container_volume 502
container_start_page 244
op_container_end_page 252
_version_ 1766363741805346816

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