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Basement Geochemistry and Geochronology of Central Malaita, Solomon Islands, with Implications for the Origin and Evolution of the Ontong Java Plateau

Sections of Ontong Java Plateau basalt basement in central Malaita (Solomon Islands) are 0·5–3·5 km thick and resemble a much-expanded version of that recovered at Ocean Drilling Program Site 807. 40Ar–39Ar ages (121–125 Ma) are identical to those for Site 807, southern Malaita, Ramos Island, parts...

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Published in:	Journal of petrology 2002-03, Vol.43 (3), p.449-484
Main Authors:	TEJADA, M. L. G., MAHONEY, J. J., NEAL, C. R., DUNCAN, R. A., PETTERSON, M. G.
Format:	Article
Language:	English
Subjects:	eruptive stratigraphy geochemistry mantle sources Ontong Java Plateau petrogenesis
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container_title	Journal of petrology
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creator	TEJADA, M. L. G. MAHONEY, J. J. NEAL, C. R. DUNCAN, R. A. PETTERSON, M. G.
description	Sections of Ontong Java Plateau basalt basement in central Malaita (Solomon Islands) are 0·5–3·5 km thick and resemble a much-expanded version of that recovered at Ocean Drilling Program Site 807. 40Ar–39Ar ages (121–125 Ma) are identical to those for Site 807, southern Malaita, Ramos Island, parts of the island of Santa Isabel, and Deep Sea Drilling Project Site 289; the ∼90 Ma eruptive episode seen in Santa Isabel, San Cristobal, and at drill sites 803 and 288 is not represented. The central Malaitan basalts provide further evidence of two distinct ocean-island-like mantle sources, and the combined data preclude a significant contribution from normal ocean-ridge-type mantle. As at Site 807, two geochemically distinct stratigraphic groups are present, the Singgalo Formation (∼750 m thick in central Malaita) and the Kwaimbaita Formation (>2700 m thick). Both a peridotite plume-head and eclogite-bearing plume-head may account for the geochemical characteristics, but the observed stratigraphic succession requires special conditions for the latter model. A number of first-order features of the Ontong Java Plateau do not obviously fit the predictions of any plume-head model: for example, at least two important, geochemically similar eruptive episodes ∼30 my apart, the lack of an obvious plume-tail trace, and lack of evidence for emergence or significant uplift.
doi_str_mv	10.1093/petrology/43.3.449
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The central Malaitan basalts provide further evidence of two distinct ocean-island-like mantle sources, and the combined data preclude a significant contribution from normal ocean-ridge-type mantle. As at Site 807, two geochemically distinct stratigraphic groups are present, the Singgalo Formation (∼750 m thick in central Malaita) and the Kwaimbaita Formation (>2700 m thick). Both a peridotite plume-head and eclogite-bearing plume-head may account for the geochemical characteristics, but the observed stratigraphic succession requires special conditions for the latter model. 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Petrology</addtitle><date>2002-03-01</date><risdate>2002</risdate><volume>43</volume><issue>3</issue><spage>449</spage><epage>484</epage><pages>449-484</pages><issn>0022-3530</issn><issn>1460-2415</issn><eissn>1460-2415</eissn><abstract>Sections of Ontong Java Plateau basalt basement in central Malaita (Solomon Islands) are 0·5–3·5 km thick and resemble a much-expanded version of that recovered at Ocean Drilling Program Site 807. 40Ar–39Ar ages (121–125 Ma) are identical to those for Site 807, southern Malaita, Ramos Island, parts of the island of Santa Isabel, and Deep Sea Drilling Project Site 289; the ∼90 Ma eruptive episode seen in Santa Isabel, San Cristobal, and at drill sites 803 and 288 is not represented. The central Malaitan basalts provide further evidence of two distinct ocean-island-like mantle sources, and the combined data preclude a significant contribution from normal ocean-ridge-type mantle. As at Site 807, two geochemically distinct stratigraphic groups are present, the Singgalo Formation (∼750 m thick in central Malaita) and the Kwaimbaita Formation (>2700 m thick). Both a peridotite plume-head and eclogite-bearing plume-head may account for the geochemical characteristics, but the observed stratigraphic succession requires special conditions for the latter model. A number of first-order features of the Ontong Java Plateau do not obviously fit the predictions of any plume-head model: for example, at least two important, geochemically similar eruptive episodes ∼30 my apart, the lack of an obvious plume-tail trace, and lack of evidence for emergence or significant uplift.</abstract><pub>Oxford University Press</pub><doi>10.1093/petrology/43.3.449</doi><tpages>36</tpages></addata></record>
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subjects	eruptive stratigraphy geochemistry mantle sources Ontong Java Plateau petrogenesis
title	Basement Geochemistry and Geochronology of Central Malaita, Solomon Islands, with Implications for the Origin and Evolution of the Ontong Java Plateau
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