In search of Gondwana heritage in the Outer Melanesian Arc: no pre-upper Eocene detrital zircons in Viti Levu river sands (Fiji Islands)

In search of Gondwana heritage in the Outer Melanesian Arc: no pre-upper Eocene detrital zircons in Viti Levu river sands (Fiji Islands)

Volcanic arcs of the Southwest Pacific, collectively referred to as the Outer Melanesian Arc, are generally thought to result from subduction of the Pacific Plate since the Late Cretaceous. Meanwhile, it is largely accepted that eastward roll-back of the old and dense oceanic plate allowed opening o...

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Bibliographic Details
Published in:Australian journal of earth sciences Vol. 66; no. 2; pp. 265 - 277
Main Authors: Cluzel, D., Meffre, S.
Format: Journal Article
Language:English
Published: Hoboken Taylor & Francis 17-02-2019
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Subjects:
Abandonment
Basins
Cretaceous
Eocene
Evolution
Fiji
Fragments
Geochemistry
Geochronology
Geochronometry
Geological time
Gondwana
Lava
Magma
Marginal basins
Miocene
Ocean basins
Palaeocene
Paleocene
Plates (tectonics)
Pliocene
Radiometric dating
Ratios
Rifting
River banks
Rivers
Sandbanks
Southwest Pacific
Subduction
Trace elements
U-Pb
volcanic arc
Zircon
Fiji
Gondwana
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Summary:Volcanic arcs of the Southwest Pacific, collectively referred to as the Outer Melanesian Arc, are generally thought to result from subduction of the Pacific Plate since the Late Cretaceous. Meanwhile, it is largely accepted that eastward roll-back of the old and dense oceanic plate allowed opening of marginal basins, which isolated large blocks of the former Gondwana margin. Incidentally, some 'intra-oceanic' volcanic arcs may have been nucleated on small continental fragments. Detrital zircons collected from sand banks in the mid-reaches of rivers from Viti Levu Island have been analysed for U-Pb geochronology and geochemistry, in order to search for a possible ancient continental arc basement, remnants of a Late Cretaceous arc, and determine the timing and evolution of Fiji arc magmatism. In contrast with some other places of the Outer Melanesian Arc (Solomon, Vanuatu), no pre-upper Eocene zircons have been found. Thus, Gondwana-derived fragments or Late Cretaceous-Paleocene arc remnants are unlikely to form the basement of Viti Levu. Zircon geochemistry confirms the purely intra-oceanic character of volcanic-arc magmatism as well. Variations in some trace-element ratios closely reflect the evolution of Viti Levu Arc from upper Eocene inception to upper Miocene climax and finally Pliocene intra-arc rifting and abandonment.
ISSN:0812-0099
1440-0952
DOI:10.1080/08120099.2019.1531924