1997
DOI: 10.1016/s0016-7037(97)00281-0
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238U230Th disequilibria, magma petrogenesis, and flux rates beneath the depleted Tonga-Kermadec island arc

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Cited by 371 publications
(335 citation statements)
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“…The sediment veneer on the incoming Pacific Plate, changes in thickness and composition from B200 m of pelagic sediments near B25°S (that is, DSDP Site 204; for example, ref. 24; Fig. 1) to Z500 m of predominantly terrigeneous sediments near B36°S (ref.…”
Section: Resultsmentioning
confidence: 99%
“…The sediment veneer on the incoming Pacific Plate, changes in thickness and composition from B200 m of pelagic sediments near B25°S (that is, DSDP Site 204; for example, ref. 24; Fig. 1) to Z500 m of predominantly terrigeneous sediments near B36°S (ref.…”
Section: Resultsmentioning
confidence: 99%
“…Both were sampled during the R/V Tangaroa NZAPLUME III expedition in 2004. Lavas from Ata, however, have elevated (La/Sm) N Z0.9, indicating either a lower degree of partial melting, or a local source enrichment in the mantle wedge 26 . Back-arc lavas show similar elevations in (La/Sm) N , which increases from B0.6 at the eastern Lau-spreading centre, to Z1.0 at the southern tip of the Valu Fa ridge (for example, refs 33,35-37).…”
Section: Resultsmentioning
confidence: 98%
“…therefore, be alternatively explained through partial melting of a locally enriched mantle with ocean-island-type affinities ( ± a sedimentary component), similar to the interpretation of Todd et al 41 The lack of a Louisville signature in the lavas north of Ata suggests that such a signature can only be detected in more recent lavas in the vicinity of the subducting Louisville seamounts. There is uncertainty about the age of Ata Island but, based on moderate 238 U excess in Ata lavas and the lack of recent activity, it could be a few hundred thousand years old 26 (Fig. 3a-d) 41 .…”
Section: Resultsmentioning
confidence: 99%
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“…Significant components of arc magmas are derived from mantle wedge (Hochstaedter, Kepezhinskas, Defant, Drummond, & Koloskov, 1996), metasomatised by fluids (from altered oceanic crust or subducted sediments) (Elliott et al, 1997;Smith, Holm, & Thirlwall, 2008;Tatsumi et al, 1986;Turner et al, 1997). Arc magmas result from the partial melting of the metasomatised lithospheric mantle with the effect of the subducted oceanic crust and fluids (Greene, Debari, Kelemen, Blusztajn, & Clift, 2006).…”
Section: Partial Meltingmentioning
confidence: 99%