Position-by-position cooling paths within the Toki granite, central Japan; Constraints and the relation with fracture population in a pluton
Yuguchi, Takashi*; Sueoka, Shigeru
; Iwano, Hideki*; Izumino, Yuya*; Ishibashi, Masayuki; Danhara, Toru*; Sasao, Eiji
; Hirata, Takafumi*; Nishiyama, Tadao*
This study presents position-by-position
paths within a granitic pluton based on thermochronological data, including zircon U-Pb, biotite K-Ar, ZFT, and AFT ages, FT length characterization, and FT inverse calculation, and describes their constraints and their relationship with fracture frequency, as an example from the Toki granite, central Japan. The cooling paths have position-specific characteristics; a single
path does not represent the cooling behavior of the entire pluton. Such position-specific
paths enable us to evaluate three-dimensional thermal evolution within the granitic pluton, and thus can clarify the detailed formation history of the entire pluton after the incipient intrusion of the granitic magma into the shallow crust. This study reveals the relationship between position-specific
paths and fracture frequency, and thus provides a criterion for evaluating the fracture population in terms of thermal stress.