Pb isotope composition of recycled mantle pyroxenites: insights into the HIMU source of oceanic basalts?”
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Data di Pubblicazione:
2019
Citazione:
Pb isotope composition of recycled mantle pyroxenites: insights into the HIMU source of oceanic basalts?” / A. Montanini, A. Secchiari, D.&.T.R. Bosch. ((Intervento presentato al convegno CONGRESSO SIMP-SGI-SOGEI PARMA 2019 tenutosi a Parma nel 2019.
Abstract:
Recycled mantle pyroxenites are believed to play a key role in the magma genesis contributing to the
radiogenic Pb signatures within the sources of oceanic basalts. In particular, a garnet pyroxenite component
derived from recycling of aged oceanic crust is widely advocated to explain the HIMU end-member in the OIB
sources. However, natural examples of recycled pyroxenites are rare and the known examples do not meet the
required Nd-Hf-Pb isotope characteristics of this component (e.g., Varas Reus et al., 2018). Here, we present
Pb isotope systematics of garnet clinopyroxenites and websterites enclosed in fertile mantle sequences of the
External Ligurian ophiolites (Northern Apennine). The garnet clinopyroxenite layers have gabbroic crustal
precursors that experienced a long-lived evolution of recycling into the mantle (1.5-1.0 Ga), as inferred from
Sm-Nd and Lu-Hf isotope systematics, which in addition point to a HIMU affinity (Montanini & Tribuzio,
2015). The garnet clinopyroxenites originated by crystallization of melts produced by partial melting of
gabbro-derived eclogites, whereas the websterites were interpreted as secondary pyroxenites with a crustal
geochemical fingerprint and a peridotite contribution.
Highly radiogenic present-day Pb isotope compositions were obtained for bulk rocks and clinopyroxene
separates from garnet clinopyroxenites. In Pb isotope diagrams, samples exhibit a good positive correlation,
with 206Pb/204Pb extending from MORB field toward the most extreme HIMU components (i.e., St. Helena
and Mangaia hotspots). In particular, the pyroxenites and the clinopyroxene separates display somewhat
higher 207Pb/204Pb and lower 208Pb/204Pb for a given 206Pb/204Pb than HIMU-type basalts. The less radiogenic
values are shown by the websterites containing a peridotite component. Age-corrected Pb isotope compositions
of clinopyroxene separates, assuming a melting event at 220 Ma as inferred from Nd-Hf isotopes, are strikingly
similar to the most extreme HIMU-type basalts. High-precision LA-ICP-MS analyses of elemental Pb were
also performed on the primary HP assemblage of the garnet clinopyroxenites (Al-rich clinopyroxene, garnet
and Fe-Ni-Cu sulfides). The results show that clinopyroxene is the main carrier of Pb, whereas Pb is typically
below detection limits in sulfides, in contrast with recent measurements on sulfides from abyssal peridotites
and pyroxenites (e.g. D’Errico et al., 2019).
The Pb isotope compositions of studied pyroxenites require a long-term evolution of recycled MORB-type
gabbros with high and variable U/Pb and Th/Pb ratios. We conclude that these rocks represent a special and
rare combination of age and composition of subduction-modified recycled oceanic crust.
Tipologia IRIS:
14 - Intervento a convegno non pubblicato
Elenco autori:
A. Montanini, A. Secchiari, D.&.T.R. Bosch
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