Reaction between mid-ocean ridge basalt and lower oceanic crust: an experimental study

Yang, Alexandra Yang, Wang, Chunguang, Liang, Yan and Lissenberg, C. Johan ORCID: https://orcid.org/0000-0001-7774-2297 2019. Reaction between mid-ocean ridge basalt and lower oceanic crust: an experimental study. Geochemistry, Geophysics, Geosystems 20 (9) , 4390 - 4407. 10.1029/2019GC008368

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Abstract

Reaction between mid‐ocean ridge basalt (MORB) and crystal mush in the lower oceanic crust has been invoked to explain chemical variations of both MORB and minerals in the lower oceanic crust. Nonetheless, such reactions have been little studied experimentally. We conducted experiments to investigate the mechanisms and chemical consequences of melt‐mush interaction by reacting molten MORB with troctolite at 0.5 GPa. Isothermal experiments demonstrate that melt infiltrates into troctolite with dissolution of plagioclase and olivine. The reacted melts have higher MgO and Al2O3 and lower TiO2 and Na2O contents and crystallize more primitive olivine and plagioclase compared to those crystallized from the unreacted melts, suggesting melt‐mush reaction could result in the formation of high‐Al basalt. The melt compositional variations induced by reaction also significantly affect the calculated pressures for MORB fractionation, indicating that major element‐based barometers for MORB fractionation can only be used reliably if reaction can be ruled out. After reaction, the troctolite contains olivine with plagioclase inclusions and poikilitic clinopyroxene with partially resorbed olivine and plagioclase chadacrysts, indicating that melt‐mush interaction occurs through dissolution‐reprecipitation mechanisms. Clinopyroxene has high Mg# (>83) and elevated Na2O and TiO2 contents, and olivine has different Fo versus Ni correlations from fractional crystallization models, which provide testable parameters for the effect of melt‐mush reaction in the rock record. By comparison with samples from lower oceanic crust and layered intrusions, we propose that melt‐mush reaction plays an important role during magma transport in the crystal mush in both oceanic and continental magma systems.

Item Type:	Article
Date Type:	Publication
Status:	Published
Schools:	Earth and Environmental Sciences
Additional Information:	This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) licence
Publisher:	American Geophysical Union (AGU)
ISSN:	1525-2027
Date of First Compliant Deposit:	18 September 2019
Date of Acceptance:	20 August 2019
Last Modified:	21 Nov 2024 09:00
URI:	https://orca.cardiff.ac.uk/id/eprint/125519

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