Academic Thesis

Basic information

Name Satou Tomohiko
Belonging department
Occupation name
researchmap researcher code B000334895
researchmap agency Okayama University of Science

Title

New isotopic age data constrain the depositional age and accretionary history of the Neoproterozoic-Ordovician Mona Complex (Anglesey-Lleyn, Wales)

Bibliography Type

 

Author

Hisashi Asanuma
Wataru Fujisaki
Tomohiko Sato
Shuhei Sakata
Yusuke Sawaki
Kazumasa Aoki
Yoshihiro Okada
Shigenori Maruyama
Takafumi Hirata
Tetsumaru Itaya
Brian F. Windley

Summary

The Mona Complex in Anglesey-Lleyn, Wales formed by Avalonian subduction and accretion from the latest Neoproterozoic to early Paleozoic. It comprises an ophiolite, high-pressure metamorphic rocks, volcaniclastic sediments and melanges. However, understanding of the tectonic evolution has been held back by the paucity of age constraints, thus only a major geochronological study will be sufficient to decipher the subduction, accretion and exhumation history of this significant Avalonian orogen. We conducted U-Pb dating of detritat zircons in the Monian Supergroup in order to constrain the maximum depositional ages, and undertook K-Ar dating of phengites and U-Pb dating of detrital zircons in the Blueschist unit, the Central Shear Zone (CSZ), and the New Harbour Group to estimate the timing and duration of the metamorphic events, and to constrain the minimum depositional ages of the Gwna Group.
Our geochronological data give minimum (K-Ar) depositional ages of 578-530 Ma on phengites and maximum (U-Pb zircon) depositional ages of 878-550 Ma, which indicates that the sediments in the structurally uppermost Gwna Group were deposited earlier than those in the middle New Harbour Group (maximum depositional ages of 548-515 Ma, this study) and earlier than in the lowermost South Stack Group (maximum depositional ages of 569-522 Ma, this study). Phengite-rich schists in the Blueschist unit and the CSZ show indistinct K-Ar ages ranging from ca. 578 to 530 Ma. However, the K-Ar age of the New Harbour Group is ca. 474 Ma, which we interpret to reflect a later metamorphic event. In a larger perspective, our new ages are broadly contemporaneous with the calc-alkaline continental arc magmatism in NW Wales and Central England that formed by successive eastward subduction from ca.711 to 474 Ma. (C) 2017 Elsevier B.V. All rights reserved.

Magazine(name)

TECTONOPHYSICS

Publisher

ELSEVIER SCIENCE BV

Volume

706

Number Of Pages

 

StartingPage

164

EndingPage

195

Date of Issue

2017-06

Referee

Exist

Invited

Not exist

Language

English

Thesis Type

Research papers (academic journals)

ISSN

 

DOI

10.1016/j.tecto.2017.03.017

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PMID

 

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arXiv ID

 

ORCID Put Code

 

DBLP ID