Temporal Evolution of Boron Flux in the Honshu and Izu Arcs measured by Ion Microprobe from the forearc tephra record.

Lancaster Environment Centre

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https://doi.org/10.1093/petrology/44.7.1211
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Keywords

boron, Pacific, NE Japan, Izu, tephra, subduction

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Temporal Evolution of Boron Flux in the Honshu and Izu Arcs measured by Ion Microprobe from the forearc tephra record. / Clift, Peter D.; Layne, Graham D.; Najman, Yani et al.
In: Journal of Petrology, Vol. 44, No. 7, 07.2003, p. 1211-1236.

Research output: Contribution to Journal/Magazine › Journal article › peer-review

Bibtex

@article{31b3fc6a4d634eb4a6632a5b65f1c9d3,

title = "Temporal Evolution of Boron Flux in the Honshu and Izu Arcs measured by Ion Microprobe from the forearc tephra record.",

abstract = "The enrichment of boron relative to similarly incompatible elements, such as Be, in arc volcanic rocks has been used as a proxy for the involvement of slab flux in petrogenesis. New ion microprobe analyses of single glass shards in tephra layers recovered by the Ocean Drilling Program (ODP) in the Izu and NE Japan forearc basins now allow the temporal variation in slab flux to be charted since 7 and 5 Ma, respectively. B/Be ratios are typically <70 in NE Japan and <130 in Izu, with no single grain exceeding 200. Although moderate to high for modern arcs, these values are much less than those recorded in the Marianas and Tonga at 3–4 Ma, shortly after the start of rifting of their back-arc basins. This observation suggests that the peak B/Be values seen in Tonga and the Marianas are related to the tectonics of slab roll-back and basin opening, rather than changes in the dynamics of the Pacific Plate. There is no temporal trend to enrichment in the high field strength elements (HFSE) or rare earth elements (REE) in either Izu or NE Japan since 7 Ma, although the two elemental groups do show clear positive correlation. A lack of correlation between REE, HFSE and B/Be suggests that slab flux is not the only control on melting in these arcs. 11B values measured in the NE Japan glasses ranged from +4·1 to -8·3, with significant scatter over short periods of time and even between different grains within single tephra layers. Such variations are interpreted to reflect short-term changes in the degree of sediment subduction, as well as heterogeneity in the magma chamber prior to eruption. Greater than 80% of the NE Japan boron budget appears to derive from altered oceanic crust, with additional involvement from continental trench sediments in NE Japan and carbonates in Izu. There is no evidence to support the idea of slab melting in either Izu or NE Japan arcs.",

keywords = "boron, Pacific, NE Japan, Izu, tephra, subduction",

author = "Clift, {Peter D.} and Layne, {Graham D.} and Yani Najman and Achim Kopf and Nobumichi Shimizu and John Hunt",

year = "2003",

month = jul,

doi = "10.1093/petrology/44.7.1211",

language = "English",

volume = "44",

pages = "1211--1236",

journal = "Journal of Petrology",

issn = "1460-2415",

publisher = "Oxford University Press",

number = "7",

}

RIS

TY - JOUR

T1 - Temporal Evolution of Boron Flux in the Honshu and Izu Arcs measured by Ion Microprobe from the forearc tephra record.

AU - Clift, Peter D.

AU - Layne, Graham D.

AU - Najman, Yani

AU - Kopf, Achim

AU - Shimizu, Nobumichi

AU - Hunt, John

PY - 2003/7

Y1 - 2003/7

N2 - The enrichment of boron relative to similarly incompatible elements, such as Be, in arc volcanic rocks has been used as a proxy for the involvement of slab flux in petrogenesis. New ion microprobe analyses of single glass shards in tephra layers recovered by the Ocean Drilling Program (ODP) in the Izu and NE Japan forearc basins now allow the temporal variation in slab flux to be charted since 7 and 5 Ma, respectively. B/Be ratios are typically <70 in NE Japan and <130 in Izu, with no single grain exceeding 200. Although moderate to high for modern arcs, these values are much less than those recorded in the Marianas and Tonga at 3–4 Ma, shortly after the start of rifting of their back-arc basins. This observation suggests that the peak B/Be values seen in Tonga and the Marianas are related to the tectonics of slab roll-back and basin opening, rather than changes in the dynamics of the Pacific Plate. There is no temporal trend to enrichment in the high field strength elements (HFSE) or rare earth elements (REE) in either Izu or NE Japan since 7 Ma, although the two elemental groups do show clear positive correlation. A lack of correlation between REE, HFSE and B/Be suggests that slab flux is not the only control on melting in these arcs. 11B values measured in the NE Japan glasses ranged from +4·1 to -8·3, with significant scatter over short periods of time and even between different grains within single tephra layers. Such variations are interpreted to reflect short-term changes in the degree of sediment subduction, as well as heterogeneity in the magma chamber prior to eruption. Greater than 80% of the NE Japan boron budget appears to derive from altered oceanic crust, with additional involvement from continental trench sediments in NE Japan and carbonates in Izu. There is no evidence to support the idea of slab melting in either Izu or NE Japan arcs.

AB - The enrichment of boron relative to similarly incompatible elements, such as Be, in arc volcanic rocks has been used as a proxy for the involvement of slab flux in petrogenesis. New ion microprobe analyses of single glass shards in tephra layers recovered by the Ocean Drilling Program (ODP) in the Izu and NE Japan forearc basins now allow the temporal variation in slab flux to be charted since 7 and 5 Ma, respectively. B/Be ratios are typically <70 in NE Japan and <130 in Izu, with no single grain exceeding 200. Although moderate to high for modern arcs, these values are much less than those recorded in the Marianas and Tonga at 3–4 Ma, shortly after the start of rifting of their back-arc basins. This observation suggests that the peak B/Be values seen in Tonga and the Marianas are related to the tectonics of slab roll-back and basin opening, rather than changes in the dynamics of the Pacific Plate. There is no temporal trend to enrichment in the high field strength elements (HFSE) or rare earth elements (REE) in either Izu or NE Japan since 7 Ma, although the two elemental groups do show clear positive correlation. A lack of correlation between REE, HFSE and B/Be suggests that slab flux is not the only control on melting in these arcs. 11B values measured in the NE Japan glasses ranged from +4·1 to -8·3, with significant scatter over short periods of time and even between different grains within single tephra layers. Such variations are interpreted to reflect short-term changes in the degree of sediment subduction, as well as heterogeneity in the magma chamber prior to eruption. Greater than 80% of the NE Japan boron budget appears to derive from altered oceanic crust, with additional involvement from continental trench sediments in NE Japan and carbonates in Izu. There is no evidence to support the idea of slab melting in either Izu or NE Japan arcs.

KW - boron

KW - Pacific

KW - NE Japan

KW - Izu

KW - tephra

KW - subduction

U2 - 10.1093/petrology/44.7.1211

DO - 10.1093/petrology/44.7.1211

M3 - Journal article

VL - 44

SP - 1211

EP - 1236

JO - Journal of Petrology

JF - Journal of Petrology

SN - 1460-2415

IS - 7

ER -

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