日本地球惑星科学連合2016年大会

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セッション記号 S (固体地球科学) » S-IT 地球内部科学・地球惑星テクトニクス

[S-IT09] Hard-Rock Drilling: Oceanic Lithosphere to Continental Crust Formation

2016年5月23日(月) 10:45 〜 12:15 コンベンションホールA (2F)

コンビーナ:*田村 芳彦(海洋研究開発機構 海洋掘削科学研究開発センター)、森下 知晃(金沢大学理工研究域自然システム学系)、Straub Susanne(コロンビア大学ラモント地球科学研究所)、佐野 貴司(国立科学博物館地学研究部)、海野 進(金沢大学理工研究域自然システム学系)、高澤 栄一(新潟大学理学部地質科学科)、道林 克禎(静岡大学学術院理学領域)、座長:高澤 栄一(新潟大学理学部地質科学科)、佐野 貴司(国立科学博物館地学研究部)

11:00 〜 11:15

[SIT09-08] The effect of melt density, assimilation, and eruption location on volatile and halogen contents in MORB glasses: an example from IODP Site 1256

*佐野 貴司1山下 茂2 (1.国立科学博物館地学研究部、2.岡山大学地球物質科学研究センター)

キーワード:IODP, volatile, melt density

A continuous section of ~700 m-thick lava pile at Integrated Ocean Drilling Program Site 1256 provides important depth variation of volatile (H2O, CO2, S) and halogen (Cl) contents in fresh glasses to understand style of eruption, condition of magma storage, and degree of hydrothermal assimilation. The lava pile is divided into two groups based on eruption location: off-axis basalts of upper portion (250–534 m beneath seafloor, mbsf) and on-axis basalts of lower portion (534–941 mbsf). Majority of the lava pile is composed of pillow, sheet, and massive lavas, but both groups have short (1–2 m) intervals of hyaloclastite layers (e.g., Wilson et al., 2006, Science).
H2O contents of hyaloclastite samples are distinctly higher than those of lavas, suggesting that the high H2O would induce explosive eruption to produce the hyaloclastite materials. CO2/Nb and S/Dy in most fresh glasses are smaller than degassed ratios (e.g., Saal et al., 2002, Nature), and these facts indicate shallow degassing and CO2 and S losses during transport to the seafloor. Saturation pressures calculated by dissolved H2O and CO2 contents are wide range from pressure of seafloor (~25 MPa) to pressure of magma chamber (~60 MPa). The saturation pressure positively correlates with melt density, but obvious differences between off-axis and on-axis samples are not identified. These observations may imply that the melt density is important factor to estimate degassed pressure. When the melt density is low, the melt can ascent from melt lens (top of magma chamber) to shallow place within oceanic crust and highly degassed before reach to seafloor. Conversely, dense melt would not ascent to the shallow place and less degassed at deep level near the melt lens.
The most distinctive character for the Site 1256 glasses is higher Cl/Nb and Cl/K than any other MORB glasses. The strong Cl enrichment is explained by assimilation of highly hydrothermally influenced crust (e.g., Sano et al., 2008, 2011, G-cubed). Beneath the Site 1256, melt lens was very shallow (<1.5 km) and hydrothermal circulation of high-salinity brines would easily reach to roof crust of the melt lens.