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Volatile and light lithophile elements in high-anorthite plagioclase-hosted melt inclusions from Iceland

Volatile and light lithophile elements in high-anorthite plagioclase-hosted melt inclusions from Iceland


Titill: Volatile and light lithophile elements in high-anorthite plagioclase-hosted melt inclusions from Iceland
Höfundur: Neave, David A.
Hartley, Margaret E.
Maclennan, John
Edmonds, Marie
Thordarson, Thorvaldur   orcid.org/0000-0003-4011-7185
Útgáfa: 2017-05
Tungumál: Enska
Umfang: 100-118
Háskóli/Stofnun: Háskóli Íslands
University of Iceland
Svið: Verkfræði- og náttúruvísindasvið (HÍ)
School of Engineering and Natural Sciences (UI)
Deild: Jarðvísindadeild (HÍ)
Faculty of Earth Sciences (UI)
Birtist í: Geochimica et Cosmochimica Acta;205
ISSN: 0016-7037
DOI: 10.1016/j.gca.2017.02.009
Efnisorð: Plagioclase-hosted melt inclusions; Volatiles; Primitive basalt; Diffusion; Magma mixing; Iceland; Jarðmöttull; Gosefni; Basalt; Bergkvika
URI: https://hdl.handle.net/20.500.11815/599

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Tilvitnun:

Neave, D. A., Hartley, M. E., Maclennan, J., Edmonds, M., & Thordarson, T. (2017). Volatile and light lithophile elements in high-anorthite plagioclase-hosted melt inclusions from Iceland. Geochimica et Cosmochimica Acta, 205, 100-118. doi:https://doi.org/10.1016/j.gca.2017.02.009

Útdráttur:

Melt inclusions formed during the early stages of magmatic evolution trap primitive melt compositions and enable the volatile contents of primary melts and the mantle to be estimated. However, the syn-and post-entrapment behaviour of volatiles in primitive high-anorthite plagioclase-hosted melt inclusions from oceanic basalts remains poorly constrained. To address this deficit, we present volatile and light lithophile element analyses from a well-characterised suite of nine matrix glasses and 102 melt inclusions from the 10 ka Gri'msvotn tephra series (i.e., Saksunarvatn ash) of Iceland's Eastern Volcanic Zone (EVZ). High matrix glass H2O and S contents indicate that eruption-related exsolution was arrested by quenching in a phreatomagmatic setting; Li, B, F and Cl did not exsolve during eruption. The almost uniformly low CO2 content of plagioclase-hosted melt inclusions cannot be explained by either shallow entrapment or the sequestration of CO2 into shrinkage bubbles, suggesting that inclusion CO2 contents were controlled by decrepitation instead. High H2O/Ce values in primitive plagioclase-hosted inclusions (182-823) generally exceed values expected for EVZ primary melts (similar to 180), and can be accounted for by diffusive H2O gain following the entrainment of primitive macrocrysts into evolved and H2O-rich melts a few days before eruption. A strong positive correlation between H2O and Li in plagioclase-hosted inclusions suggests that diffusive Li gain may also have occurred. Extreme F enrichments in primitive plagioclase-hosted inclusions (F/Nd= 51216 versus similar to 15 in matrix glasses) possibly reflect the entrapment of inclusions from high-Al/(Al + Si) melt pools formed by dissolution-crystallisation processes (as indicated by HFSE depletions in some inclusions), and into which F was concentrated by uphill diffusion since F is highly soluble in Al-rich melts. The high S/Dy of primitive inclusions (similar to 300) indicates that primary melts were S-rich in comparison with most oceanic basalts. Cl and B are unfractionated from similarly compatible trace elements, and preserve records of primary melt heterogeneity. Although primitive plagioclase-hosted melt inclusions from the 10 ka Gri'msvotn tephra series record few primary signals in their volatile contents, they nevertheless record information about crustal magma processing that is not captured in olivine-hosted melt inclusions suites.

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