Igneous activity of the Daito granodiorite in the Un-nan area, San'in zone, Southwest Japan

The Daito granodiorite is a large plutonic mass in the San'in Batholith, southwest Japan. In this study, the igneous activity that formed the Daito granodiorite was investigated based on field and petrographic descriptions, magnetic susceptibility measurements, and whole-rock chemical analyses....

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Published inChishitsugaku zasshi Vol. 127; no. 8; pp. 461 - 478
Main Authors Suzuki, Hiromi, Noguchi, Masashi, Kobayashi, Natsuko, Kamei, Atsushi
Format Journal Article
LanguageEnglish
Japanese
Published Tokyo The Geological Society of Japan 15.08.2021
Japan Science and Technology Agency
Subjects
Batholiths
Biotite
Chemical analysis
Crystallization
Crystals
Geologic mapping
Geological maps
Igneous activity
Lithology
Magnetic susceptibility
Magnetite
Palaeocene
Paleocene
Plagioclase
San'in zone
SW Japan
the Daito granodiorite
Japan
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ISSN0016-7630
1349-9963
DOI10.5575/geosoc.2021.0016

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Abstract The Daito granodiorite is a large plutonic mass in the San'in Batholith, southwest Japan. In this study, the igneous activity that formed the Daito granodiorite was investigated based on field and petrographic descriptions, magnetic susceptibility measurements, and whole-rock chemical analyses. The granodiorite is characterized by: 1) a ubiquitous distribution of mafic magmatic enclaves; 2) euhedral hornblende and biotite crystals; 3) abundant magnetite associated with mafic minerals; and 4) high magnetic susceptibility (>5 × 10-3). The lithology varies from medium- to coarse-grained hornblende-biotite granodiorite to medium-grained biotite granite. These variations resulted mainly from the fractional crystallization of plagioclase, hornblende, and biotite. Significant revision of the geological map of the Daito granodiorite suggests that the intrusion occurred at ca. 57 Ma. This and previous studies show that the Daito granodiorite is an important product of Paleocene activity in the Younger Inbi intrusive group (68-53 Ma) of the San'in batholith.
AbstractList The Daito granodiorite is a large plutonic mass in the San'in Batholith, southwest Japan. In this study, the igneous activity that formed the Daito granodiorite was investigated based on field and petrographic descriptions, magnetic susceptibility measurements, and whole-rock chemical analyses. The granodiorite is characterized by: 1) a ubiquitous distribution of mafic magmatic enclaves; 2) euhedral hornblende and biotite crystals; 3) abundant magnetite associated with mafic minerals; and 4) high magnetic susceptibility (>5 × 10-3). The lithology varies from medium- to coarse-grained hornblende-biotite granodiorite to medium-grained biotite granite. These variations resulted mainly from the fractional crystallization of plagioclase, hornblende, and biotite. Significant revision of the geological map of the Daito granodiorite suggests that the intrusion occurred at ca. 57 Ma. This and previous studies show that the Daito granodiorite is an important product of Paleocene activity in the Younger Inbi intrusive group (68-53 Ma) of the San'in batholith.
ArticleNumber 2021.0016
Author Kamei, Atsushi
Suzuki, Hiromi
Kobayashi, Natsuko
Noguchi, Masashi
Author_xml – sequence: 1
  fullname: Suzuki, Hiromi
  organization: Noguchi Ophthalmology/Internal Medicine/Cardiovascular Medicine
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  fullname: Noguchi, Masashi
  organization: Present address: Oriental Consultants Co., Ltd
– sequence: 1
  fullname: Kobayashi, Natsuko
  organization: OYO Corporation Co., Ltd
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  fullname: Kamei, Atsushi
  organization: Department of Earth Sciences, Shimane University
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Snippet The Daito granodiorite is a large plutonic mass in the San'in Batholith, southwest Japan. In this study, the igneous activity that formed the Daito...
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SubjectTerms Batholiths
Biotite
Chemical analysis
Crystallization
Crystals
Geologic mapping
Geological maps
Igneous activity
Lithology
Magnetic susceptibility
Magnetite
Palaeocene
Paleocene
Plagioclase
San'in zone
SW Japan
the Daito granodiorite
Title Igneous activity of the Daito granodiorite in the Un-nan area, San'in zone, Southwest Japan
URI https://www.jstage.jst.go.jp/article/geosoc/127/8/127_2021.0016/_article/-char/en
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Volume 127
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ispartofPNX The Journal of the Geological Society of Japan, 2021/08/15, Vol.127(8), pp.461-478
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