The New Caledonia mantle section: tracking source depletion and contamination processes in a supra-subduction setting
Altro Prodotto di Ricerca
Data di Pubblicazione:
2020
Citazione:
The New Caledonia mantle section: tracking source depletion and contamination processes in a supra-subduction setting / A. Montanini, A. Secchiari, D. Bosch, D. Cluzel, P. Macera. ((Intervento presentato al convegno Goldschmidt Conference 2020 tenutosi a Hawaii (online) nel 2020.
Abstract:
The New Caledonia Ophiolite (NCO) hosts one of the
largest obducted mantle sections worldwide, offering a
unique opportunity to investigate key mantle processes. The
ophiolite includes refractory harzburgites, locally overlain by
mafic-ultramafic cumulates, and minor lherzolites. Here we
present the results of our recent geochemical and Sr-Nd-Pb
isotopic studies on fresh or slightly serpentinized peridotites.
The lherzolites display a moderately depleted, abyssal-type
signature which may be reproduced by small amounts of
fractional melting of a garnet lherzolite precursor (~4%),
followed by 4%–5% melting in the spinel peridotite field. Nd
isotope compositions are consistent with derivation from an
asthenospheric mantle source that experienced a recent
MORB-producing depletion event. The harzburgites are Cpxfree
highly refractory rocks characterised by remarkably low
REE concentrations (<0.1xCh) and "U-shaped" REE profiles.
HREE composition can be reproduced by a first phase of melt
depletion in dry conditions (15% fractional melting),
followed by hydrous melting in a subduction zone setting (up
to 15%-18%). Nd isotopic ratios range from unradiogenic to
radiogenic and negatively correlate with Sr isotopes. Pb
isotopes cover a wide range, trending from DMM toward
enriched, sediment-like, compositions. Enrichment in FME,
LREE-MREE and Nb, Zr, Hf, coupled with the presence of
secondary interstitial phases, may be explained by syn- and
post-melting interactions with different subduction-related
components. Contamination may have occurred both as result
of fluid influx from the subducted slab and through
subsequent interaction with subduction-related melts carrying
a component of sedimentary origin. A recent HSE and Os
isotope study [1] provides additional insights on the
evolution of the NCO mantle section.
Tipologia IRIS:
14 - Intervento a convegno non pubblicato
Elenco autori:
A. Montanini, A. Secchiari, D. Bosch, D. Cluzel, P. Macera
Link alla scheda completa:
Link al Full Text: