The geochemistry and petrogenesis of Carnley Volcano, Auckland Islands, SW Pacific

Intraplate volcanism across Zealandia, South Eastern Australia, the Ross Sea Embayment and Marie Byrd Land in Antarctica define a magmatic province characterised by basalts with elevated 206 Pb/ 204 Pb (18.9–22.5), 87 Sr/ 86 Sr = ∼0.7035, Light Rare Earth enrichment [(Ce/Yb) n > 10], and convex-u...

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Bibliographic Details
Main Authors: Gamble, John A., Adams, Chris J., Morris, Paul A., Wysoczanski, Richard J., Handler, Monica, Timm, Christian
Format: Dataset
Language:unknown
Published: Taylor & Francis 2018
Subjects:
Physiology
FOS Biological sciences
Biotechnology
Evolutionary Biology
Geology
FOS Earth and related environmental sciences
39999 Chemical Sciences not elsewhere classified
FOS Chemical sciences
Ecology
20199 Astronomical and Space Sciences not elsewhere classified
FOS Physical sciences
Marine Biology
Inorganic Chemistry
110309 Infectious Diseases
FOS Health sciences
Byrd
Marie Byrd Land
Pacific
Ross Sea
Antarc*
Antarctica
Auckland Islands
Ocean Island
Online Access:https://dx.doi.org/10.6084/m9.figshare.7108760.v1
https://tandf.figshare.com/articles/The_geochemistry_and_petrogenesis_of_Carnley_Volcano_Auckland_Islands_SW_Pacific/7108760/1
Description
Summary:Intraplate volcanism across Zealandia, South Eastern Australia, the Ross Sea Embayment and Marie Byrd Land in Antarctica define a magmatic province characterised by basalts with elevated 206 Pb/ 204 Pb (18.9–22.5), 87 Sr/ 86 Sr = ∼0.7035, Light Rare Earth enrichment [(Ce/Yb) n > 10], and convex-up mantle normalised incompatible multi-element patterns, peaking at Nb-Ta, with negative K and Pb anomalies. Trace element abundances and ratios (e.g. Zr/Nb, Y/Zr) resemble Ocean Island Basalts (OIB), distinct from Mid-Ocean Ridge Basalt (MORB), suggesting derivation from OIB-like reservoirs. Our preferred scenario envisages partial melting across the garnet-spinel stability fields involving asthenospheric and lithospheric mantle components. Melts accumulate in a column where the deep (asthenospheric) source is PM and the shallower source a melange of PM and subcontinental lithospheric mantle (DMM+1) enriched by carbonatite. Evolution of primary and near-primary magmas is controlled by olivine + clinopyroxene fractionation. Trachybasalts, trachytes and rhyolites show isotopic evidence for interaction with continental crust.

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