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Paleozoic ophiolites and blueschists in Japan and Russian Primorye in the tectonic framework of East Asia: A synthesis (2003)

Ishiwatari, Akira ; Tsujimori, Tatsuki

Melbourne, Australia : Blackwell Science Pty

The @island arc 12 (2003), S. 0

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ISSN: 1440-1738

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Geosciences

Notes: Abstract Ophiolites and high-pressure (HP) metamorphic rocks are studied to test continuation of Paleozoic and early Mesozoic geological units from Japan to Primorye over the Japan Sea. The early Paleozoic ophiolites are present on both sides, and the late Paleozoic ophiolite of south-western Japan may also have its counterpart in Primorye. The Shaiginskiy HP schist and the associated Avdakimov gneiss in Primorye, both tectonically underlying the early Paleozoic ophiolitic complex, yield a 250-Ma phengite and hornblende K–Ar age, which is intermediate between those of the Renge (280–330 Ma) and Suo (170–220 Ma) blueschists in south-western Japan. This age also coincides with that of the coesite-bearing eclogites in the Sulu–Dabie suture in China and several medium-pressure metamorphic rocks in East Asia. On the basis of these results and other geological data, the authors propose the ‘Yaeyama promontory’ model for an eastward extension of the Sulu–Dabie suture. The collision suture warps southward into the Yellow Sea and detours around Korea, turns to the north at Ishigaki Island in the Yaeyama Archipelago of Ryukyu, where it changes into a subduction zone and further continues toward south-western Japan and Primorye. Most ophiolites from this area represent crust–mantle fragments of an island arc–back-arc basin system, and the repeated formation of ophiolite–blueschist associations may be due to the repetition of the Mariana-type non-accreting subduction and Nankai-type accreting subduction.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1440-1738.2003.00390.x

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Petrochemical evidence for off-ridge magmatism in a back-arc setting from the Yakuno ophiolite, Japan (2004)

Ichiyama, Yuji ; Ishiwatari, Akira

Melbourne, Australia : Blackwell Science Pty

The @island arc 13 (2004), S. 0

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ISSN: 1440-1738

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Geosciences

Notes: Abstract The Permian ophiolite emplaced in the Yakuno area, Kyoto Prefecture, consists of metavolcanic sequences, metagabbro and a troctolitic intrusion. The metavolcanics are associated with thick mudstone through a contact that shows the flowage of lava over unconsolidated mud layers on the sea floor. The metavolcanics and metagabbro have rare earth element (REE) patterns that are similar to enriched (E)- and transitional (T)-types ([La/Yb]N = 0.77–11.2) of mid-oceanic ridge basalts (MORB), whereas their Nb/La ratios (0.40–1.20) are as low as those of back-arc basin basalts (BABB). Cr-spinels in the metavolcanic rocks have Cr♯ of 40–73 and an Fe3+♯ of 9–24, numbers which are comparable to the values of BABB. These lines of evidence suggest that the Yakuno ophiolite originated more likely from an early stage back-arc basin rather than from an oceanic plateau, as has been suggested by some researchers. The troctolitic body that intrudes as a 0.5-km long lens in the metagabbro is composed of troctolite, olivine gabbro and microgabbro. The troctolite is marked by an olivine–plagioclase crystallization sequence, different from the commonly observed olivine–clinopyroxene sequence in other mafic/ultramafic cumulates of the Yakuno ophiolite. The microgabbro, with a composition close to that of the parental magma of the troctolite, is depleted in light REE ([La/Yb]N = 0.18–0.55) so that it has an REE pattern that mimics normal (N)-type MORB. The interstitial clinopyroxene of the troctolite has highly variable TiO2 contents (0.2–1.4 wt%), which is interpreted to result from postcumulus crystallization of heterogeneous intercumulus melts. The troctolitic intrusion may represent a late stage intrusion that formed in an off-ridge environment during sea floor spreading of the back-arc basin. The geochemical variation observed in the Yakuno ophiolite, ranging from N- to E-MORB affinities, reflects the changes in both mantle source compositions and processes involved in magma generation during the evolution of the back-arc basin.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1440-1738.2003.00411.x

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Corrections to Vesicle layering in solidified intrusive magma bodies: a newly recognized type of igneous structure (1997)

Toramaru, Atsushi ; Ishiwatari, Akira ; Matsuzawa, Maki ; [et al.]

Springer

Bulletin of volcanology 58 (1997), S. 655-656

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ISSN: 1432-0819

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004450050169

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Vesicle layering in solidified intrusive magma bodies: a newly recognized type of igneous structure (1996)

Toramaru, Atsushi ; Ishiwatari, Akira ; Matsuzawa, Maki ; [et al.]

Springer

Bulletin of volcanology 58 (1996), S. 393-400

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ISSN: 1432-0819

Keywords: Key words Vesicle layering ; Liesegang ring ; Igneous layering ; Bubble nucleation ; Diffusion

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract We report a novel type of layering structure in igneous rocks. The layering structure in the Ogi picrite sill in Sado Island, Japan, is spatially periodic, and appears to be caused by the variation in vesicle volume fraction. The gas phase forming the vesicles apparently exsolved from the interstitial melt at the final stage of solidification of the magma body. We call this type of layering caused by periodic vesiculation in the solidifying magma body "vesicle layering." The presence of vesicle layering in other basic igneous bodies (pillow lava at Ogi and dolerite sill at Atsumi, Japan) implies that it may be a fairly common igneous feature. The width of individual layers slightly, but regularly, increases with distance from the upper contact. The layering plane is perpendicular to the long axes of columnar joints, regardless of gravitational direction, suggesting that the formation of vesicles is mainly controlled by the temperature distribution in the cooling magma body. We propose a model of formation of vesicle layering which is basically the same as that for Liesegang rings. The interplay between the diffusion of heat and magmatic volatiles in melt, and the sudden vesiculation upon supersaturation, both play important roles.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004450050147

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