Contrasting magmatic cannibalism forms evolved phonolitic magmas in the Canary Islands

Volcanic sequences on ocean islands record the temporal evolution of underlying magmatic systems and provide insights into how silicic crust is produced away from convergent margins. Assimilation has often been suspected to contribute, but the detection of such a process and its evolving maturity du...

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Bibliographic Details
Published in:Geology (Boulder) 2017-02, Vol.45 (2), p.147-150
Main Authors: Turner, Simon, Kokfelt, T, Hoernle, K, Johansen, T. S, Hauff, F, Lundstrom, C, van den Bogaard, P, Klügel, A
Format: Article
Language:English
Subjects:
actinides
alkaline earth metals
assimilation
Atlantic Ocean Islands
basanite
Canary Islands
Cenozoic
geochemistry
igneous and metamorphic rocks
Igneous rocks
Islands
isotope ratios
Isotopes
lead
Magma
magmas
magmatic differentiation
magmatism
metals
Pa-231/U-235
Pb-206/Pb-204
Petrology
phonolites
protactinium
Quaternary
radioactive isotopes
radium
stable isotopes
Tenerife
Th-230/Ra-226
thorium
Trace elements
U-238/Th-230
uranium
volcanic rocks
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Summary:Volcanic sequences on ocean islands record the temporal evolution of underlying magmatic systems and provide insights into how silicic crust is produced away from convergent margins. Assimilation has often been suspected to contribute, but the detection of such a process and its evolving maturity during migration across a mantle plume is less well documented. Here we present new major and trace element and Sr-Nd-Pb-U-Th-Ra-Pa isotope data that facilitate comparison of basanite to phonolite evolution on Tenerife (Canary Islands) with that shown by published data from La Palma. On both islands, (230Th/238U) ratios decrease with differentiation from parental magmas with 230Th excess toward different, silicic contaminants in secular equilibrium. On La Palma, this is inferred to reflect assimilation of small amounts of mafic wall rock. On Tenerife, both (230Th/238U) and (231Pa/235U) ratios decrease toward 1 with increasing differentiation, and this is accompanied by a subtle increase in Pb isotope ratios. At the same time, (226Ra/230Th) ratios change from 1 (a hitherto unreported magnitude). The Tenerife assimilant is thus constrained to be a partial melt of syenite formed in equilibrium with residual feldspar. The differences reflect a primarily deeper, more mafic magma system beneath La Palma during its late shield-building stage, whereas recent magmatic evolution at Tenerife occurs primarily at lower temperatures in small, shallower magma systems formed during its post-basaltic shield stage. Differentiation takes millennia or less.
ISSN:0091-7613
1943-2682
DOI:10.1130/G38566.1