Nd-Sr isotopic constraint to the formation of metatexite and diatexite migmatites, Higo metamorphic terrane, central Kyushu, Japan

Kenshi Suga, Tzen Fu Yui, J.g  Shellnutt, Tsay Way Wu, Yasushi Mori, Kazuhiro Miyazaki, Bor Ming Jahn

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Abstract

Metatexite and diatexite migmatites are widely distributed within the upper amphibolite and granulite-facies zones of the Higo low-P/high-T metamorphic terrane. Here we report Nd-Sr isotopic and whole rock composition data from an outcrop in the highest-grade part of the granulite-facies zone, in which diatexite occurs as a 3 m-thick layer between 2 m-thick layers of stromatic-structured metatexite within pelitic gneiss. The metatexite has Nd-Sr isotopes and whole rock compositions similar to those of the gneiss, but the diatexite shows the reverse. The diatexite has a higher εNd(t) and 147Sm/144Nd ratio (ε Nd(t) = -0.5; 147Sm/144Nd = 0.1636) than the gneiss (ε Nd(t) = -2.1; 147Sm/144Nd = 0.1287) and metatexite (ε Nd(t) = -3.1; 147Sm/144Nd = 0.1188). The (87Sr/86Sr) initial and 87Rb/86Sr of the diatexite ((87Sr/86Sr) initial = 0.70568; 87Rb/86Sr = 0.416) are lower than those of the gneiss ((87Sr/86Sr) initial = 0.70857; 87Rb/86Sr = 1.13) and metatexite ((87Sr/86Sr) initial = 0.70792; 87Rb/86Sr = 1.11). The metatexite and gneiss show enrichment of Th and depletion of P and Eu and have a similar chondrite-normalized REE pattern, which shows steep LREE-MREE-enriched and gently declining HREE patterns and negative Eu anomalies, whereas the diatexite shows enrichment of Sr and depletion of Th and Y, and exhibits gently declining LREE and steeply declining HREE pattern and weak Eu depletion. The metatexite migmatite is interpreted to have formed by in situ partial melting in which the melt did not migrate from the source, whereas the diatexite migmatite included an externally derived melt with a juvenile component. The Cretaceous high-temperature metamorphism of the Higo metamorphic terrane is interpreted to reflect emplacement of mantle-derived basalts under a volcanic arc along the eastern margin of the Eurasian continent, and mass transfer and advection of heat via hybrid silicic melts from the lower crust.

Original languageEnglish
Pages (from-to)405-423
Number of pages19
JournalInternational Geology Review
Volume58
Issue number4
DOIs
Publication statusPublished - 2016 Mar 11

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gneiss
terrane
migmatite
melt
granulite facies
amphibolite facies
chondrite
rock
lower crust
partial melting
island arc
mass transfer
advection
emplacement
outcrop
rare earth element
metamorphism
basalt
isotope
Cretaceous

Keywords

  • Nd-Sr isotopes
  • chemical mass balance analysis
  • melt
  • migmatites
  • trace elements

ASJC Scopus subject areas

  • Geology

Cite this

Nd-Sr isotopic constraint to the formation of metatexite and diatexite migmatites, Higo metamorphic terrane, central Kyushu, Japan. / Suga, Kenshi; Yui, Tzen Fu;  Shellnutt, J.g; Wu, Tsay Way; Mori, Yasushi; Miyazaki, Kazuhiro; Jahn, Bor Ming.

In: International Geology Review, Vol. 58, No. 4, 11.03.2016, p. 405-423.

Research output: Contribution to journalArticle

Suga, Kenshi ; Yui, Tzen Fu ;  Shellnutt, J.g ; Wu, Tsay Way ; Mori, Yasushi ; Miyazaki, Kazuhiro ; Jahn, Bor Ming. / Nd-Sr isotopic constraint to the formation of metatexite and diatexite migmatites, Higo metamorphic terrane, central Kyushu, Japan. In: International Geology Review. 2016 ; Vol. 58, No. 4. pp. 405-423.
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AU - Suga, Kenshi

AU - Yui, Tzen Fu

AU -  Shellnutt, J.g

AU - Wu, Tsay Way

AU - Mori, Yasushi

AU - Miyazaki, Kazuhiro

AU - Jahn, Bor Ming

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N2 - Metatexite and diatexite migmatites are widely distributed within the upper amphibolite and granulite-facies zones of the Higo low-P/high-T metamorphic terrane. Here we report Nd-Sr isotopic and whole rock composition data from an outcrop in the highest-grade part of the granulite-facies zone, in which diatexite occurs as a 3 m-thick layer between 2 m-thick layers of stromatic-structured metatexite within pelitic gneiss. The metatexite has Nd-Sr isotopes and whole rock compositions similar to those of the gneiss, but the diatexite shows the reverse. The diatexite has a higher εNd(t) and 147Sm/144Nd ratio (ε Nd(t) = -0.5; 147Sm/144Nd = 0.1636) than the gneiss (ε Nd(t) = -2.1; 147Sm/144Nd = 0.1287) and metatexite (ε Nd(t) = -3.1; 147Sm/144Nd = 0.1188). The (87Sr/86Sr) initial and 87Rb/86Sr of the diatexite ((87Sr/86Sr) initial = 0.70568; 87Rb/86Sr = 0.416) are lower than those of the gneiss ((87Sr/86Sr) initial = 0.70857; 87Rb/86Sr = 1.13) and metatexite ((87Sr/86Sr) initial = 0.70792; 87Rb/86Sr = 1.11). The metatexite and gneiss show enrichment of Th and depletion of P and Eu and have a similar chondrite-normalized REE pattern, which shows steep LREE-MREE-enriched and gently declining HREE patterns and negative Eu anomalies, whereas the diatexite shows enrichment of Sr and depletion of Th and Y, and exhibits gently declining LREE and steeply declining HREE pattern and weak Eu depletion. The metatexite migmatite is interpreted to have formed by in situ partial melting in which the melt did not migrate from the source, whereas the diatexite migmatite included an externally derived melt with a juvenile component. The Cretaceous high-temperature metamorphism of the Higo metamorphic terrane is interpreted to reflect emplacement of mantle-derived basalts under a volcanic arc along the eastern margin of the Eurasian continent, and mass transfer and advection of heat via hybrid silicic melts from the lower crust.

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