The development of magmatism along the Cameroon Volcanic Line: Evidence from teleseismic receiver functions
The development of magmatism along the Cameroon Volcanic Line: Evidence from teleseismic receiver functions
[1] The Cameroon Volcanic Line (CVL) in West Africa is a chain of Cenozoic volcanism with no clear age progression. The reasons for its existence are unclear, and the nature of its magmatic plumbing system is poorly understood. Specifically, whether or not the CVL crust presently contains melt and/or mafic intrusions, as is often observed at hot spots and rifts elsewhere, is presently unknown. To address this issue, we present a receiver function study of crustal structure using earthquakes recorded by the Cameroon Broadband Seismic Experiment. In regions of the CVL unaffected by Cretaceous extension associated with the breakup of Gondwana (e.g., the Garoua rift), Vp/Vs ratios are markedly low (network average ?1.74) compared to hot spots elsewhere, providing no evidence for either melt or cooled mafic crustal intrusions due to CVL magmatism. The character of P-to-S conversions from beneath the CVL also indicates that lower-crustal intrusions (often termed underplate) are not present beneath the region. Our observations thus corroborate earlier petrological studies that show CVL alkaline magmas fractionate in the mantle, not the crust, prior to eruption. Hypotheses for the formation of the CVL should not include markedly elevated upper-mantle potential temperatures, or large volumes of partial melt, both of which can explain observations at hot spots and rifts worldwide. The protracted, yet sporadic, development of small-volume alkali melts beneath the CVL may instead be explained better by lower melt volume mechanisms such as shear zone reactivation or lithospheric delamination.
Cameroon, crust, intraplate volcanism, receiver function, seismology
TC3018
Gallacher, R.J.
689f755f-b4a0-4a3b-9959-93c2fae0ac2c
Bastow, I.D.
fa3f4d3f-8ec5-4dee-8de5-57d987d8d7ed
27 June 2012
Gallacher, R.J.
689f755f-b4a0-4a3b-9959-93c2fae0ac2c
Bastow, I.D.
fa3f4d3f-8ec5-4dee-8de5-57d987d8d7ed
Gallacher, R.J. and Bastow, I.D.
(2012)
The development of magmatism along the Cameroon Volcanic Line: Evidence from teleseismic receiver functions.
Tectonics, 31 (3), .
(doi:10.1029/2011TC003028).
Abstract
[1] The Cameroon Volcanic Line (CVL) in West Africa is a chain of Cenozoic volcanism with no clear age progression. The reasons for its existence are unclear, and the nature of its magmatic plumbing system is poorly understood. Specifically, whether or not the CVL crust presently contains melt and/or mafic intrusions, as is often observed at hot spots and rifts elsewhere, is presently unknown. To address this issue, we present a receiver function study of crustal structure using earthquakes recorded by the Cameroon Broadband Seismic Experiment. In regions of the CVL unaffected by Cretaceous extension associated with the breakup of Gondwana (e.g., the Garoua rift), Vp/Vs ratios are markedly low (network average ?1.74) compared to hot spots elsewhere, providing no evidence for either melt or cooled mafic crustal intrusions due to CVL magmatism. The character of P-to-S conversions from beneath the CVL also indicates that lower-crustal intrusions (often termed underplate) are not present beneath the region. Our observations thus corroborate earlier petrological studies that show CVL alkaline magmas fractionate in the mantle, not the crust, prior to eruption. Hypotheses for the formation of the CVL should not include markedly elevated upper-mantle potential temperatures, or large volumes of partial melt, both of which can explain observations at hot spots and rifts worldwide. The protracted, yet sporadic, development of small-volume alkali melts beneath the CVL may instead be explained better by lower melt volume mechanisms such as shear zone reactivation or lithospheric delamination.
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The Development of Magmatism Along the CVL Evidence from Teleseismic Receiver Functions.pdf
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Published date: 27 June 2012
Keywords:
Cameroon, crust, intraplate volcanism, receiver function, seismology
Organisations:
Geology & Geophysics
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Local EPrints ID: 368271
URI: http://eprints.soton.ac.uk/id/eprint/368271
ISSN: 0278-7407
PURE UUID: 3249f0b2-905c-4a56-a5fb-33eaadae328d
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Date deposited: 26 Aug 2014 08:45
Last modified: 14 Mar 2024 17:45
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Author:
R.J. Gallacher
Author:
I.D. Bastow
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