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Zoned crystal records of transcrustal magma transport, storage and differentiation: insights from the Shatsky Rise oceanic plateau
van Gerve, T.D.; Neave, D.A.; Almeev, R.R.; Holtz, F.; Namur, O. (2020). Zoned crystal records of transcrustal magma transport, storage and differentiation: insights from the Shatsky Rise oceanic plateau. J. Petrol. 61(8): egaa080. https://hdl.handle.net/10.1093/petrology/egaa080
In: Journal of Petrology. Clarendon: Oxford. ISSN 0022-3530; e-ISSN 1460-2415, more
Peer reviewed article  

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Author keywords
    crystal mush; plagioclase; crystal zoning; crystal textures; oceanic crust

Authors  Top 
  • van Gerve, T.D., more
  • Neave, D.A.
  • Almeev, R.R.
  • Holtz, F.
  • Namur, O., more

Abstract
    Magmatic processes occurring in the deepest parts of sub-volcanic plumbing systems remain poorly constrained. However, crystal mush fragments incorporated into ascending magmas can provide valuable insights into the processes and conditions of transcrustal magma transport, storage and differentiation. Here we use lava samples drilled from Tamu Massif, Shatsky Rise, to understand the magmatic processes taking place in a region of thickened oceanic crust. We observe correlations between crystal textures and compositional zones in plagioclase that reveal relationships between mechanisms of magmatic differentiation and the crustal depths at which they occurred. When combined with geothermobarometric models, our observations indicate that deep crustal crystal storage took place in high-crystallinity mushes at two discrete levels (∼17 and ∼27 km depth). Diffusive constraints from crystal zoning lengthscales indicate that the lifetime of crystals within the mushes exceeded several thousand years. Magmatic recharge was frequent and produced various dissolution textures in plagioclase. In contrast, shallow crystal storage (∼2·4 km depth) took place in a liquid-dominated domain where crystal residence times were much shorter. Crystal zoning patterns indicate that magmas transporting crystals from the deepest environment to the surface sometimes accumulated additional crystals from mid-crustal storage regions and sometimes did not, highlighting the complexity of magma assembly processes. Temperature contrasts in the lower crust at Shatsky Rise are probably low, owing to extensive magma input and a paucity of hydrothermal cooling at depth. Crystal growth morphologies are consequently relatively simple. Crystallization in thick and thermally mature crusts may therefore lead to less complexity in crystal textures than crystallization in thinner crusts where temperature contrasts are higher. Our observations indicate that combining thermobarometry with studies of crystal textures and crystal compositions is a powerful approach for improving our understanding of magmatic differentiation and magma ascent paths.

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