Characterizing the evolution of slab inputs in the earliest stages of subduction; preliminary evidence from fluid-mobile elements for Izu-Bonin boninites recovered during IODP Expedition 352

Keir Sanatan; Jeffrey Ryan; Li Hongyan; Mark K Reagan; Samuele Agostini; John W Shervais; Julie Prytulak

doi:10.1130/abs/2016AM-285876

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Abstract

Characterizing the evolution of slab inputs in the earliest stages of subduction; preliminary evidence from fluid-mobile elements for Izu-Bonin boninites recovered during IODP Expedition 352

Keir Sanatan, Jeffrey Ryan, Li Hongyan, Mark K Reagan, Samuele Agostini, John W Shervais and Julie Prytulak

Abstracts with programs - Geological Society of America, Vol.48(7)

Geological Society of America, 2016 annual meeting & exposition

2016

DOI: 10.1130/abs/2016AM-285876

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Abstract

IODP Expedition 352 drilled >800 m of boninitic lavas, hyaloclastites and shallow intrusives at two adjacent sites (U1439A-C and U1442A) along the outer margin of the overriding plate in the Izu-Bonin forearc. Given that boninites form as a result of fluid-addition melting in the early stages of subduction, these samples provide an opportunity to examine characteristics of slab-derived fluid omponents at the beginnings of the subduction process. Expedition 352 boninitic lavas at both sites record a transition from low Si to high Si boninite upsection, with major and trace element and radiogenic isotope indications for differences in mantle composition between the low Si and high Si lavas (e.g., Reagan et al 2015; Prytulak et al., 2016 [Goldschmidt Conference]; Shervais et al. 2016, [this meeting]). Fresh boninitic glasses recovered from these cores show a similar dichotomy in their mobile element systematics, with the high-Si boninites showing much greater enrichments in B and other fluid-mobile elements (FMEs; As, Sb, Cs, Li) than low Si boninites. Both types of Exp. 352 boninites display two-component mixing relationships between an FME-poor mantle and a FME enriched slab-derived component, a pattern that is at odds with that of the Izu-Bonin or Mariana volcanic arcs, or that of other arcs globally, in which a second, FME-depleted slab-derived component is universally observed. While the fluid-mobile element enriched components in volcanic arcs are associated with elevated delta 11B signatures, and have thus been argued to reflect inputs from subduction-related serpentinite, preliminary boron isotope results from Exp. 352 boninites point to comparatively low values, suggesting that the fluxes and/or reservoirs for fluid-mobile species are different when subduction initiates, and evolve as it proceeds.

Isotope Geochemistry

Pacific Ocean

andesites

B-11/B-10

boninite

boron

chemical composition

Expedition 352

Igneous and metamorphic petrology

igneous rocks

International Ocean Discovery Program

IODP Site U1439

IODP Site U1442

isotopes

Izu-Bonin Arc

North Pacific

Northwest Pacific

plate tectonics

slabs

stable isotopes

subduction

volcanic rocks

West Pacific

Details

Title: Subtitle: Characterizing the evolution of slab inputs in the earliest stages of subduction; preliminary evidence from fluid-mobile elements for Izu-Bonin boninites recovered during IODP Expedition 352
Creators: Keir Sanatan - University of South Florida
Jeffrey Ryan
Li Hongyan
Mark K Reagan
Samuele Agostini
John W Shervais
Julie Prytulak
Resource Type: Abstract
Publication Details: Abstracts with programs - Geological Society of America, Vol.48(7)
Conference: Geological Society of America, 2016 annual meeting & exposition
Publisher: Geological Society of America (GSA)
DOI: 10.1130/abs/2016AM-285876
ISSN: 0016-7592
Alternative title: Geological Society of America, 2016 annual meeting & exposition
Language: English
Date published: 2016
Academic Unit: Earth and Environmental Sciences
Record Identifier: 9984240804202771

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