Abstract

Tephra layers in marine sediment cores from scientific ocean drilling largely record high‐magnitude silicic explosive eruptions in the Japan arc for up to the last 20 million years. Analysis of the thickness variation with distance of 180 tephra layers from a global data set suggests that the majority of the visible tephra layers used in this study are the products of caldera‐forming eruptions with magnitude (M) > 6, considering their distances at the respective drilling sites to their likely volcanic sources. Frequency of visible tephra layers in cores indicates a marked increase in rates of large magnitude explosive eruptions at ∼8 Ma, 6–4 Ma, and further increase after ∼2 Ma. These changes are attributed to major changes in tectonic plate interactions. Lower rates of large magnitude explosive volcanism in the Miocene are related to a strike‐slip‐dominated boundary (and temporary cessation or deceleration of subduction) between the Philippine Sea Plate and southwest Japan, combined with the possibility that much of the arc in northern Japan was submerged beneath sea level partly due to previous tectonic extension of northern Honshu related to formation of the Sea of Japan. Changes in plate motions and subduction dynamics during the ∼8 Ma to present period led to (1) increased arc‐normal subduction in southwest Japan (and resumption of arc volcanism) and (2) shift from extension to compression of the upper plate in northeast Japan, leading to uplift, crustal thickening and favorable conditions for accumulation of the large volumes of silicic magma needed for explosive caldera‐forming eruptions.

Highlights

  • Visible volcanic tephra layers in marine sediment cores are a major resource to study the history of volcanism at both global and regional scales [Ninkovich and Donn, 1976; Cambray and Cadet, 1994]

  • We investigate the completeness and utility of the marine tephra layer record for understanding the igneous and tectonic processes that control the rates of explosive volcanism using the Japan region as a case study

  • Tectonic Controls on Volcanism Our analysis indicates a marked increase in rates of large magnitude explosive volcanism since 8 Ma

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Summary

Introduction

Visible volcanic tephra layers in marine sediment cores are a major resource to study the history of volcanism at both global and regional scales [Ninkovich and Donn, 1976; Cambray and Cadet, 1994]. In ocean drilling, this record can extend back millions to a few tens of millions of years. Japan is used as the case study area due to the high density of ocean drilling locations, the complex and dynamic tectonic regime, and high quality of land-based tephra studies We calibrate this record against data on tephra layer thickness as a function of distance from source to constrain the bias in terms of magnitude.

Tephra Layers in Marine Sediments Around Japan
Magnitudes of Eruptions Recorded as Visible Tephra Layers
Comparison of Terrestrial Volcanic Versus Ocean Tephra Records
Changes in Visible Ash Layer Occurrence
Conclusions

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