Data di Pubblicazione:
2018
Citazione:
Building new crust in a nascent arc setting: the example of the New Caledonia gabbronorites / A. Secchiari, A. Montanini, D. Bosch, D. Cluzel, P. Macera. - In: GEOPHYSICAL RESEARCH ABSTRACTS. - ISSN 1607-7962. - 20:(2018), pp. EGU2018-13200,.1-EGU2018-13200,.1. ((Intervento presentato al convegno EGU General Assembly tenutosi a Wien nel 2018.
Abstract:
Ancient domains of intra-oceanic arc lithosphere preserved in ophiolites provide the unique opportunity to investigate
the first phases of crust generation in nascent arcs. The New Caledonia ophiolite hosts a mafic-ultramafic
igneous sequence overlying ultra-depleted harzburgitic rocks, which experienced high melting degrees in a forearc
setting (Secchiari, 2016). This sequence has been interpreted to represent a crust-mantle transect formed in
a nascent arc environment (Marchesi et al., 2009; Pirard et al., 2013). The ultramafic rocks (mainly dunites and
wehrlites) resulted from melt-peridotite reactions involving primitive arc tholeiites and boninitic magmas. By constrast,
the mafic rocks bear a cumulitic origin and occur as metre-sized sills in the upper part of the sequence.
In this contribution, a comprehensive geochemical and isotopic (Sr, Nd, Pb) characterization of the New Caledonia
mafic intrusives will be presented. The mafic rocks are olivine gabbronorites. They are mainly composed ('50-80
vol.%) by subhedral Ca-rich plagioclase (An up to 96 mol%). Mg-rich olivine (5-15 vol.%, Fo = 87-89 mol%) is
present as irregularly shaped, resorbed crystals. Clinopyroxene (15-20 vol.%) is generally rimmed by interstitial
or poikilitic orthopyroxene (5-15 vol.%). Fe-Ti oxides and hydrous phases are remarkably absent. Clinopyroxene
shows high Mg# (88-92), coupled with low Al2O3 (1.5-2.4 wt%) and negligible TiO2 and Na2O contents. Whole
rock (WR) compositions are characterised by high Mg# (86-92) and concentrations of incompatible trace elements
one order of magnitude lower than arc rocks worldwide. They display LREE-depleted patterns, with nearly flat
(0.82 DyN/YbN 1.00), low (YbN= 0.2-0.9) HREE and positive Eu anomalies. Cpx trace element chemistry
mirrors the extreme depleted nature of the WR. By constrast, extended trace element diagrams highlight an enrichment
for the most incompatible, fluid mobile elements (FME), namely Pb and Sr, both in WR and Cpx.
Geochemical modelling shows that the putative liquids in equilibrium with the gabbroic rocks are primitive (Mg#=
71.3-75.5) ultra-depleted melts, deriving from melting of a refractory mantle source. The parental melts share some
affinities with the most primitive boninites, but they invariably display lower LREE-MREE and FME contents, no
Nb depletion and the remarkable absence of Zr-Hf positive anomalies. FME enrichments and high FME/immobile
elements ratios recorded by these melts hint the involvement of a subduction-related fluid in the magma genesis
of these rock-types. Nd isotopes (+8.2 epsilonNdi +9.2) coupled with Pb isotopic data, extending from DM
to Pacific sediments compositions, further support an origin from a subarc depleted reservoir, modified by slab derived
fluids.
Tipologia IRIS:
01 - Articolo su periodico
Elenco autori:
A. Secchiari, A. Montanini, D. Bosch, D. Cluzel, P. Macera
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