Journal of Petrology
Petri Peltonen, Asko Kontinen, Hannu Huhma
ABSTRACT
The Jormua Ophiolite exposes a unique fragment of Red Sea -type oceanic crust
formed in a setting related to continental break-up 1950 Ma ago. Two distinct
types of basalt are represented: the "early dykes" and the "main basalt suite".
"Early dykes" have fractionated (H)REE patterns, OIB-like trace element patterns,
low Zr/Nb (~6), and eNd(1.95 Ga)~-0.6, indicative of their derivation from an
enriched source. The remaining dykes and all lavas belong to the second, E-MORB
-like "main basalt suite", which is characterised by high Mg# and Cr contents,
flat REE patterns, Zr/Nb=6-17, chondritic Th/Ta, and only moderately depleted
isotopic signatures (eNd(1.95 Ga)~+1.9). Most "main suite" samples cannot be
related solely by fractional crystallization to a common parental magma. Rather,
they represent distinct melt fractions that underwent variable amounts of chromite+olivine
plus or minus plagioclase fractionation during ascent. A significant part of
the compositional diversity of the "main basalt suite" can be explained by mixing
a depleted source with a relatively uniform proportion of an enriched component
similar to that represented by the OIB-like "early dykes". It is probable that
during the latest stages of continental rifting the OIB-type melts metasomatised
the upper part of the depleted asthenospheric mantle, which became the source
of the "main basalt suite" soon after the old continental lithosphere was ruptured.
The complete absence of any evidence for a subduction-related component in the
basalts implies that Jormua is not a back-arc ophiolite.
Keywords:
basalts, geochemistry, ophiolites, Paleoproterozoic, Finland
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