U-series Isotope Data on Lau Basin Glasses: the Role of Subduction-related Fluids during Melt Generation in Back-arc Basins

doi:10.1093/petrology/42.8.1449

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Journal of Petrology Volume 42 Number 8 Pages 1449-1470 2001
© Oxford University Press 2001

U-series Isotope Data on Lau Basin Glasses: the Role of Subduction-related Fluids during Melt Generation in Back-arc Basins

DAVID W. PEATE¹^,*, THOMAS F. KOKFELT¹^,, CHRIS J. HAWKESWORTH¹^,, PETER W. VAN CALSTEREN¹, JANET M. HERGT² and JULIAN A. PEARCE³

¹DEPARTMENT OF EARTH SCIENCES, THE OPEN UNIVERSITY, WALTON HALL, MILTON KEYNES MK7 6AA, UK
²SCHOOL OF EARTH SCIENCES, THE UNIVERSITY OF MELBOURNE, MELBOURNE, VIC. 3010, AUSTRALIA
³DEPARTMENT OF EARTH SCIENCES, CARDIFF UNIVERSITY, MAIN COLLEGE, PARK PLACE, P.O. BOX 914, CARDIFF CF1 3YE, UK

New thermal ionization mass spectrometry U-series disequilibriumdata are presented for 24 basaltic to dacitic glasses from activespreading centres in the back-arc Lau Basin (SW Pacific), togetherwith additional inductively coupled plasma mass spectrometrytrace element analyses and Sr–Nd–Pb isotope data.Valu Fa Ridge samples, adjacent to the arc front, have highU/Th and (²³⁰Th/²³⁸U) <1, implying a recent (<<350ka) addition of a U-rich slab-derived fluid. The Valu Fa datacan be combined with existing ²³⁰Th–²³⁸U data for theCentral Tonga arc to infer a fluid addition event at $~$ 50 ka.The similar sources and time scales for fluid transfer beneaththe Valu Fa Ridge and beneath the arc itself suggest that theValu Fa Ridge is propagating into the arc-front region. CentralLau Basin samples, further behind the arc, have lower U/Th and(²³⁰Th/²³⁸U) $>=$ 1, similar to typical mid-ocean ridge basalts (MORB).Within the Central Lau Basin, a water-rich subduction componentis seen only in samples closest to the arc, and this fluid doesnot have the high-U/Th composition of the fluid at Valu Fa.Melt generation in the Central Lau Basin appears to be dominatedby normal ridge-type processes, but the relatively low (²³⁰Th/²³⁸U)for these shallow ridges compared with global MORB could bea consequence of increased melt productivity as a result ofthe elevated water contents. The transition from ²³⁸U to ²³⁰Thexcesses within the back-arc basin is not a smooth functionof decreasing addition of a U-rich fluid moving away from thearc front, but also reflects the complex dynamics between twomajor mantle domains within the mantle wedge (‘Pacific’beneath Valu Fa Ridge, ‘Indian’ beneath the CentralLau Basin).

KEY WORDS: back-arc basins; U-series disequilibrium; fluids; subduction zones; melting

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