The missing half of the subduction factory: shipboard results from the Izu rear arc, IODP Expedition 350

Cathy J. Busby; Yoshihiko Tamura; Peter Blum; Gilles Guèrin; Graham D.M. Andrews; Abigail K. Barker; Julien L.R. Berger; Everton M. Bongiolo; Manuela Bordiga; Susan M. DeBari; James B. Gill; Cedric Hamelin; Jihui Jia; Eleanor H. John; Ann Sophie Jonas; Martin Jutzeler; Myriam A.C. Kars; Zachary A. Kita; Kevin Konrad; Susan H. Mahony; Michelangelo Martini; Takashi Miyazaki; Robert J. Musgrave; Debora B. Nascimento; Alexander R.L. Nichols; Julia M. Ribeiro; Tomoki Sato; Julie C. Schindlbeck; Axel K. Schmitt; Susanne M. Straub; Maryline J. Mleneck-Vautravers; Alexandra Yang Yang

doi:10.1080/00206814.2017.1292469

The missing half of the subduction factory: shipboard results from the Izu rear arc, IODP Expedition 350

Cathy J. Busby^*
, Yoshihiko Tamura
, Peter Blum
, Gilles Guèrin
, Graham D.M. Andrews
, Abigail K. Barker
, Julien L.R. Berger
, Everton M. Bongiolo
, Manuela Bordiga
, Susan M. DeBari
, James B. Gill
, Cedric Hamelin
, Jihui Jia
, Eleanor H. John
, Ann Sophie Jonas
, Martin Jutzeler
, Myriam A.C. Kars
, Zachary A. Kita
, Kevin Konrad
, Susan H. Mahony

Michelangelo Martini, Takashi Miyazaki, Robert J. Musgrave, Debora B. Nascimento, Alexander R.L. Nichols, Julia M. Ribeiro, Tomoki Sato, Julie C. Schindlbeck, Axel K. Schmitt, Susanne M. Straub, Maryline J. Mleneck-Vautravers, Alexandra Yang Yang

^*Corresponding author for this work

University of California at Davis
Japan Agency for Marine-Earth Science and Technology
Texas A&M University
Columbia University
West Virginia University
Uppsala University
Ird
Universidade Federal do Rio de Janeiro
Western Washington University
University of California at Santa Cruz
University of Bergen
Kyoto University
University of the South Pacific
Kiel University
University of Tasmania
Center for Advanced Marine Core Research
Kochi University
University of Nebraska-Lincoln
Oregon State University
University of Bristol
Universidad Nacional Autónoma de México
University of Sydney
University of Canterbury
Rice University
Helmholtz Centre for Ocean Research Kiel
Heidelberg University
University of Cambridge
CAS - Guangzhou Institute of Geochemistry

Research output: Contribution to journal › Article › peer-review

Abstract

IODP Expedition 350 was the first to be drilled in the rear part of the Izu-Bonin, although several sites had been drilled in the arc axis to fore-arc region; the scientific objective was to understand the evolution of the Izu rear arc, by drilling a deep-water volcaniclastic section with a long temporal record (Site U1437). The Izu rear arc is dominated by a series of basaltic to dacitic seamount chains up to ~100-km long roughly perpendicular to the arc front. Dredge samples from these are geochemically distinct from arc front rocks, and drilling was undertaken to understand this arc asymmetry. Site U1437 lies in an ~20-km-wide basin between two rear arc seamount chains, ~90-km west of the arc front, and was drilled to 1804 m below the sea floor (mbsf) with excellent recovery. We expected to drill a volcaniclastic apron, but the section is much more mud-rich than expected (~60%), and the remaining fraction of the section is much finer-grained than predicted from its position within the Izu arc, composed half of ashes/tuffs, and half of lapilli tuffs of fine grain size (clasts <3 cm). Volcanic blocks (>6.4 cm) are only sparsely scattered through the lowermost 25% of the section, and only one igneous unit was encountered, a rhyolite peperite intrusion at ~1390 mbsf. The lowest biostratigaphic datum is at 867 mbsf (~6.5 Ma), the lowest palaeomagnetic datum is at ~1300 mbsf (~9 Ma), and the rhyolite peperite at ~1390 mbsf has yielded a U–Pb zircon concordia intercept age of (13.6 + 1.6/−1.7) Ma. Both arc front and rear arc sources contributed to the fine-grained (distal) tephras of the upper 1320 m, but the coarse-grained (proximal) volcaniclastics in the lowest 25% of the section are geochemically similar to the arc front, suggesting arc asymmetry is not recorded in rocks older than ~13 Ma.

Original language	English
Pages (from-to)	1677-1708
Number of pages	32
Journal	International Geology Review
Volume	59
Issue number	13
DOIs	https://doi.org/10.1080/00206814.2017.1292469
Publication status	Published - 3 Oct 2017
Externally published	Yes

ASJC Scopus subject areas

Geology

Keywords

International Ocean Discovery Program
island arcs
Izu-Bonin-Marianas arc
Japanese volcanoes
magmatic arcs
rear arc

Access to Document

10.1080/00206814.2017.1292469

Cite this

Busby, C. J., Tamura, Y., Blum, P., Guèrin, G., Andrews, G. D. M., Barker, A. K., Berger, J. L. R., Bongiolo, E. M., Bordiga, M., DeBari, S. M., Gill, J. B., Hamelin, C., Jia, J., John, E. H., Jonas, A. S., Jutzeler, M., Kars, M. A. C., Kita, Z. A., Konrad, K., ... Yang Yang, A. (2017). The missing half of the subduction factory: shipboard results from the Izu rear arc, IODP Expedition 350. International Geology Review, 59(13), 1677-1708. https://doi.org/10.1080/00206814.2017.1292469

@article{dab7af5e6aa840eca225c8238353bf43,

title = "The missing half of the subduction factory: shipboard results from the Izu rear arc, IODP Expedition 350",

abstract = "IODP Expedition 350 was the first to be drilled in the rear part of the Izu-Bonin, although several sites had been drilled in the arc axis to fore-arc region; the scientific objective was to understand the evolution of the Izu rear arc, by drilling a deep-water volcaniclastic section with a long temporal record (Site U1437). The Izu rear arc is dominated by a series of basaltic to dacitic seamount chains up to \textasciitilde{}100-km long roughly perpendicular to the arc front. Dredge samples from these are geochemically distinct from arc front rocks, and drilling was undertaken to understand this arc asymmetry. Site U1437 lies in an \textasciitilde{}20-km-wide basin between two rear arc seamount chains, \textasciitilde{}90-km west of the arc front, and was drilled to 1804 m below the sea floor (mbsf) with excellent recovery. We expected to drill a volcaniclastic apron, but the section is much more mud-rich than expected (\textasciitilde{}60\%), and the remaining fraction of the section is much finer-grained than predicted from its position within the Izu arc, composed half of ashes/tuffs, and half of lapilli tuffs of fine grain size (clasts <3 cm). Volcanic blocks (>6.4 cm) are only sparsely scattered through the lowermost 25\% of the section, and only one igneous unit was encountered, a rhyolite peperite intrusion at \textasciitilde{}1390 mbsf. The lowest biostratigaphic datum is at 867 mbsf (\textasciitilde{}6.5 Ma), the lowest palaeomagnetic datum is at \textasciitilde{}1300 mbsf (\textasciitilde{}9 Ma), and the rhyolite peperite at \textasciitilde{}1390 mbsf has yielded a U–Pb zircon concordia intercept age of (13.6 + 1.6/−1.7) Ma. Both arc front and rear arc sources contributed to the fine-grained (distal) tephras of the upper 1320 m, but the coarse-grained (proximal) volcaniclastics in the lowest 25\% of the section are geochemically similar to the arc front, suggesting arc asymmetry is not recorded in rocks older than \textasciitilde{}13 Ma.",

keywords = "International Ocean Discovery Program, island arcs, Izu-Bonin-Marianas arc, Japanese volcanoes, magmatic arcs, rear arc",

author = "Busby, \{Cathy J.\} and Yoshihiko Tamura and Peter Blum and Gilles Gu{\`e}rin and Andrews, \{Graham D.M.\} and Barker, \{Abigail K.\} and Berger, \{Julien L.R.\} and Bongiolo, \{Everton M.\} and Manuela Bordiga and DeBari, \{Susan M.\} and Gill, \{James B.\} and Cedric Hamelin and Jihui Jia and John, \{Eleanor H.\} and Jonas, \{Ann Sophie\} and Martin Jutzeler and Kars, \{Myriam A.C.\} and Kita, \{Zachary A.\} and Kevin Konrad and Mahony, \{Susan H.\} and Michelangelo Martini and Takashi Miyazaki and Musgrave, \{Robert J.\} and Nascimento, \{Debora B.\} and Nichols, \{Alexander R.L.\} and Ribeiro, \{Julia M.\} and Tomoki Sato and Schindlbeck, \{Julie C.\} and Schmitt, \{Axel K.\} and Straub, \{Susanne M.\} and Mleneck-Vautravers, \{Maryline J.\} and \{Yang Yang\}, Alexandra",

note = "Publisher Copyright: {\textcopyright} 2017 Informa UK Limited, trading as Taylor \& Francis Group.",

year = "2017",

month = oct,

day = "3",

doi = "10.1080/00206814.2017.1292469",

language = "English",

volume = "59",

pages = "1677--1708",

journal = "International Geology Review",

issn = "0020-6814",

publisher = "Taylor and Francis Ltd.",

number = "13",

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Busby, CJ, Tamura, Y, Blum, P, Guèrin, G, Andrews, GDM, Barker, AK, Berger, JLR, Bongiolo, EM, Bordiga, M, DeBari, SM, Gill, JB, Hamelin, C, Jia, J, John, EH, Jonas, AS, Jutzeler, M, Kars, MAC, Kita, ZA, Konrad, K, Mahony, SH, Martini, M, Miyazaki, T, Musgrave, RJ, Nascimento, DB, Nichols, ARL, Ribeiro, JM, Sato, T, Schindlbeck, JC, Schmitt, AK, Straub, SM, Mleneck-Vautravers, MJ & Yang Yang, A 2017, 'The missing half of the subduction factory: shipboard results from the Izu rear arc, IODP Expedition 350', International Geology Review, vol. 59, no. 13, pp. 1677-1708. https://doi.org/10.1080/00206814.2017.1292469

TY - JOUR

T1 - The missing half of the subduction factory

T2 - shipboard results from the Izu rear arc, IODP Expedition 350

AU - Busby, Cathy J.

AU - Tamura, Yoshihiko

AU - Blum, Peter

AU - Guèrin, Gilles

AU - Andrews, Graham D.M.

AU - Barker, Abigail K.

AU - Berger, Julien L.R.

AU - Bongiolo, Everton M.

AU - Bordiga, Manuela

AU - DeBari, Susan M.

AU - Gill, James B.

AU - Hamelin, Cedric

AU - Jia, Jihui

AU - John, Eleanor H.

AU - Jonas, Ann Sophie

AU - Jutzeler, Martin

AU - Kars, Myriam A.C.

AU - Kita, Zachary A.

AU - Konrad, Kevin

AU - Mahony, Susan H.

AU - Martini, Michelangelo

AU - Miyazaki, Takashi

AU - Musgrave, Robert J.

AU - Nascimento, Debora B.

AU - Nichols, Alexander R.L.

AU - Ribeiro, Julia M.

AU - Sato, Tomoki

AU - Schindlbeck, Julie C.

AU - Schmitt, Axel K.

AU - Straub, Susanne M.

AU - Mleneck-Vautravers, Maryline J.

AU - Yang Yang, Alexandra

PY - 2017/10/3

Y1 - 2017/10/3

N2 - IODP Expedition 350 was the first to be drilled in the rear part of the Izu-Bonin, although several sites had been drilled in the arc axis to fore-arc region; the scientific objective was to understand the evolution of the Izu rear arc, by drilling a deep-water volcaniclastic section with a long temporal record (Site U1437). The Izu rear arc is dominated by a series of basaltic to dacitic seamount chains up to ~100-km long roughly perpendicular to the arc front. Dredge samples from these are geochemically distinct from arc front rocks, and drilling was undertaken to understand this arc asymmetry. Site U1437 lies in an ~20-km-wide basin between two rear arc seamount chains, ~90-km west of the arc front, and was drilled to 1804 m below the sea floor (mbsf) with excellent recovery. We expected to drill a volcaniclastic apron, but the section is much more mud-rich than expected (~60%), and the remaining fraction of the section is much finer-grained than predicted from its position within the Izu arc, composed half of ashes/tuffs, and half of lapilli tuffs of fine grain size (clasts <3 cm). Volcanic blocks (>6.4 cm) are only sparsely scattered through the lowermost 25% of the section, and only one igneous unit was encountered, a rhyolite peperite intrusion at ~1390 mbsf. The lowest biostratigaphic datum is at 867 mbsf (~6.5 Ma), the lowest palaeomagnetic datum is at ~1300 mbsf (~9 Ma), and the rhyolite peperite at ~1390 mbsf has yielded a U–Pb zircon concordia intercept age of (13.6 + 1.6/−1.7) Ma. Both arc front and rear arc sources contributed to the fine-grained (distal) tephras of the upper 1320 m, but the coarse-grained (proximal) volcaniclastics in the lowest 25% of the section are geochemically similar to the arc front, suggesting arc asymmetry is not recorded in rocks older than ~13 Ma.

AB - IODP Expedition 350 was the first to be drilled in the rear part of the Izu-Bonin, although several sites had been drilled in the arc axis to fore-arc region; the scientific objective was to understand the evolution of the Izu rear arc, by drilling a deep-water volcaniclastic section with a long temporal record (Site U1437). The Izu rear arc is dominated by a series of basaltic to dacitic seamount chains up to ~100-km long roughly perpendicular to the arc front. Dredge samples from these are geochemically distinct from arc front rocks, and drilling was undertaken to understand this arc asymmetry. Site U1437 lies in an ~20-km-wide basin between two rear arc seamount chains, ~90-km west of the arc front, and was drilled to 1804 m below the sea floor (mbsf) with excellent recovery. We expected to drill a volcaniclastic apron, but the section is much more mud-rich than expected (~60%), and the remaining fraction of the section is much finer-grained than predicted from its position within the Izu arc, composed half of ashes/tuffs, and half of lapilli tuffs of fine grain size (clasts <3 cm). Volcanic blocks (>6.4 cm) are only sparsely scattered through the lowermost 25% of the section, and only one igneous unit was encountered, a rhyolite peperite intrusion at ~1390 mbsf. The lowest biostratigaphic datum is at 867 mbsf (~6.5 Ma), the lowest palaeomagnetic datum is at ~1300 mbsf (~9 Ma), and the rhyolite peperite at ~1390 mbsf has yielded a U–Pb zircon concordia intercept age of (13.6 + 1.6/−1.7) Ma. Both arc front and rear arc sources contributed to the fine-grained (distal) tephras of the upper 1320 m, but the coarse-grained (proximal) volcaniclastics in the lowest 25% of the section are geochemically similar to the arc front, suggesting arc asymmetry is not recorded in rocks older than ~13 Ma.

KW - International Ocean Discovery Program

KW - island arcs

KW - Izu-Bonin-Marianas arc

KW - Japanese volcanoes

KW - magmatic arcs

KW - rear arc

UR - https://www.scopus.com/pages/publications/85015672977

U2 - 10.1080/00206814.2017.1292469

DO - 10.1080/00206814.2017.1292469

M3 - Article

AN - SCOPUS:85015672977

SN - 0020-6814

VL - 59

SP - 1677

EP - 1708

JO - International Geology Review

JF - International Geology Review

IS - 13

ER -

The missing half of the subduction factory: shipboard results from the Izu rear arc, IODP Expedition 350

Abstract

ASJC Scopus subject areas

Keywords

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