Off-rift volcanism in rift zones determined by crustal unloading
Off-rift volcanism in rift zones determined by crustal unloading
When continents are stretched over a long period of time, deep elongated rift valleys form at Earth’s surface and zones of ponded magma, centred beneath the rift, form at the crust–mantle boundary1, 2. Ascending magma sometimes erupts within the rift valley3, 4 or, counterintuitively, at volcanic fields away from the rift valley that are offset by tens of kilometres from the source of magma at depth5, 6, 7, 8. The controls on the distribution of this off-rift volcanism are unclear. Here we use a numerical model of magmatic dyke propagation during rifting to investigate why some dykes reach the surface outside the rift valley, whereas others are confined to the valley. We find that the location of magmatism is governed by the competition between tectonic stretching and gravitational unloading pressure, caused by crustal thinning and faulting along the rift borders. When gravitational unloading dominates over tectonic stretching forces, dykes ascending from the ponded magma are steered towards the rift sides, eventually causing off-rift eruptions. Our model also predicts the formation of stacked magma sills in the lower crust above the magma-ponding zone, as well as the along-rift propagation of shallow dykes during rifting events, consistent with observations of magmatism and volcanism in rift zones globally. We conclude that rift topography-induced stress changes provide a fundamental control on the transfer of magma from depth to the surface.
297-300
Maccaferri, Francesco
dee1dbcc-8f3d-4ac3-a51b-7198925f4736
Rivalta, Eleonora
f2c9c3c1-a1bd-459f-a839-d746d331bf7e
Keir, Derek
5616f81f-bf1b-4678-a167-3160b5647c65
Acocella, Valerio
10784b7d-8496-4a40-99e2-c8da28e4c6f4
April 2014
Maccaferri, Francesco
dee1dbcc-8f3d-4ac3-a51b-7198925f4736
Rivalta, Eleonora
f2c9c3c1-a1bd-459f-a839-d746d331bf7e
Keir, Derek
5616f81f-bf1b-4678-a167-3160b5647c65
Acocella, Valerio
10784b7d-8496-4a40-99e2-c8da28e4c6f4
Maccaferri, Francesco, Rivalta, Eleonora, Keir, Derek and Acocella, Valerio
(2014)
Off-rift volcanism in rift zones determined by crustal unloading.
Nature Geoscience, 7, .
(doi:10.1038/NGEO2110).
Abstract
When continents are stretched over a long period of time, deep elongated rift valleys form at Earth’s surface and zones of ponded magma, centred beneath the rift, form at the crust–mantle boundary1, 2. Ascending magma sometimes erupts within the rift valley3, 4 or, counterintuitively, at volcanic fields away from the rift valley that are offset by tens of kilometres from the source of magma at depth5, 6, 7, 8. The controls on the distribution of this off-rift volcanism are unclear. Here we use a numerical model of magmatic dyke propagation during rifting to investigate why some dykes reach the surface outside the rift valley, whereas others are confined to the valley. We find that the location of magmatism is governed by the competition between tectonic stretching and gravitational unloading pressure, caused by crustal thinning and faulting along the rift borders. When gravitational unloading dominates over tectonic stretching forces, dykes ascending from the ponded magma are steered towards the rift sides, eventually causing off-rift eruptions. Our model also predicts the formation of stacked magma sills in the lower crust above the magma-ponding zone, as well as the along-rift propagation of shallow dykes during rifting events, consistent with observations of magmatism and volcanism in rift zones globally. We conclude that rift topography-induced stress changes provide a fundamental control on the transfer of magma from depth to the surface.
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e-pub ahead of print date: 23 March 2014
Published date: April 2014
Organisations:
Geology & Geophysics
Identifiers
Local EPrints ID: 363522
URI: http://eprints.soton.ac.uk/id/eprint/363522
ISSN: 1752-0894
PURE UUID: 0cee9489-4b98-498d-93b6-b210ce08418c
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Date deposited: 26 Mar 2014 14:36
Last modified: 15 Mar 2024 03:38
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Author:
Francesco Maccaferri
Author:
Eleonora Rivalta
Author:
Valerio Acocella
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