Alkaline magmas in shallow arc plutonic roots: a field and experimental investigation of hydrous cumulate melting in the southern Adamello batholith
Alkaline magmas in shallow arc plutonic roots: a field and experimental investigation of hydrous cumulate melting in the southern Adamello batholith
Despite the first-order importance of crystallisation–differentiation for arc magma evolution, several other processes contribute to their compositional diversity. Among them is the remelting of partly crystallised magmas, also known as cumulate melting or ‘petrological cannibalism’. The impact of this process on the plutonic record is poorly constrained. We investigate a nepheline-normative dyke suite close to the Blumone gabbros, a large amphibole-gabbro unit of the Tertiary Southern Alpine Adamello igneous complex. The compositions of the studied dykes are characterised by low SiO2 (43–46 wt. %), MgO (5.0–7.2 wt. %), Ni (18–40 μg/g), and high Al2O3 (20.2–22.0 wt. %) contents. Phenocrystic plagioclase in these dykes exhibits major, trace, and Sr isotope compositions similar to Blumone cumulate plagioclase, suggesting a genetic link between the nepheline-normative dykes and the amphibole-gabbro cumulates. We tested this hypothesis by performing saturation experiments on a nepheline-normative dyke composition in an externally heated pressure vessel at 200 MPa between 975 and 1100 °C at fO2 conditions close to the Ni–NiO buffer. Plagioclase and spinel are near-liquidus phases at and above 1050 °C, contrasting with the typical near-liquidus olivine ± spinel assemblage in hydrous calc-alkaline basalts. The alkaline nature of the dykes results from the abundance of amphibole in the protolith, consistent with melting of amphibole-gabbro cumulates. We modelled the heat budget from the repeated injection of basaltic andesite into a partly crystallised amphibole-gabbro cumulate. The results of this model show that no more than 7% of the cumulate pile reaches temperatures high enough to produce nepheline-normative melts. We propose that such nepheline-normative dykes are a hallmark of hydrous cumulate melting in subvolcanic plumbing systems. Therefore, ne-normative dykes in arc batholiths may indicate periods with high magma fluxes.
Silva, Manuel Pimenta
2a2706d9-80f4-4867-a47f-ca935e7205ae
Marxer, Felix
011ef0bd-7763-497a-99b6-e68e701f7447
Keller, Tobias
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Giuliani, Andrea
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Ulmer, Peter
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Müntener, Othmar
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3 September 2023
Silva, Manuel Pimenta
2a2706d9-80f4-4867-a47f-ca935e7205ae
Marxer, Felix
011ef0bd-7763-497a-99b6-e68e701f7447
Keller, Tobias
d8dfcfa5-89d1-4203-aa2d-8c142c00a169
Giuliani, Andrea
6cebe999-ca3e-4b02-bb57-07a92faa1d41
Ulmer, Peter
11d3bf91-6c60-4465-957d-c3e0a87d2216
Müntener, Othmar
f3190980-f0ee-493f-9f3e-b006e0b3f8ff
Silva, Manuel Pimenta, Marxer, Felix, Keller, Tobias, Giuliani, Andrea, Ulmer, Peter and Müntener, Othmar
(2023)
Alkaline magmas in shallow arc plutonic roots: a field and experimental investigation of hydrous cumulate melting in the southern Adamello batholith.
Contributions to Mineralogy and Petrology, 178, [64].
(doi:10.1007/s00410-023-02047-3).
Abstract
Despite the first-order importance of crystallisation–differentiation for arc magma evolution, several other processes contribute to their compositional diversity. Among them is the remelting of partly crystallised magmas, also known as cumulate melting or ‘petrological cannibalism’. The impact of this process on the plutonic record is poorly constrained. We investigate a nepheline-normative dyke suite close to the Blumone gabbros, a large amphibole-gabbro unit of the Tertiary Southern Alpine Adamello igneous complex. The compositions of the studied dykes are characterised by low SiO2 (43–46 wt. %), MgO (5.0–7.2 wt. %), Ni (18–40 μg/g), and high Al2O3 (20.2–22.0 wt. %) contents. Phenocrystic plagioclase in these dykes exhibits major, trace, and Sr isotope compositions similar to Blumone cumulate plagioclase, suggesting a genetic link between the nepheline-normative dykes and the amphibole-gabbro cumulates. We tested this hypothesis by performing saturation experiments on a nepheline-normative dyke composition in an externally heated pressure vessel at 200 MPa between 975 and 1100 °C at fO2 conditions close to the Ni–NiO buffer. Plagioclase and spinel are near-liquidus phases at and above 1050 °C, contrasting with the typical near-liquidus olivine ± spinel assemblage in hydrous calc-alkaline basalts. The alkaline nature of the dykes results from the abundance of amphibole in the protolith, consistent with melting of amphibole-gabbro cumulates. We modelled the heat budget from the repeated injection of basaltic andesite into a partly crystallised amphibole-gabbro cumulate. The results of this model show that no more than 7% of the cumulate pile reaches temperatures high enough to produce nepheline-normative melts. We propose that such nepheline-normative dykes are a hallmark of hydrous cumulate melting in subvolcanic plumbing systems. Therefore, ne-normative dykes in arc batholiths may indicate periods with high magma fluxes.
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s00410-023-02047-3
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Accepted/In Press date: 16 August 2023
Published date: 3 September 2023
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Local EPrints ID: 488350
URI: http://eprints.soton.ac.uk/id/eprint/488350
ISSN: 0010-7999
PURE UUID: 8875acfd-f88e-49cd-a0d4-f5f321862585
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Date deposited: 20 Mar 2024 18:10
Last modified: 21 Mar 2024 03:16
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Author:
Manuel Pimenta Silva
Author:
Felix Marxer
Author:
Tobias Keller
Author:
Andrea Giuliani
Author:
Peter Ulmer
Author:
Othmar Müntener
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