Hydrothermal chloritization processes from biotite in the Toki granite, Central Japan: Temporal variations of of the compositions of hydrothermal fluids associated with chloritization

Yuguchi, Takashi; Sasao, Eiji; Ishibashi, Masayuki; Nishiyama, Tadao

doi:10.2138/am-2015-5126

Cited by 40 publications

(47 citation statements)

References 37 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The calculated range of temperatures (200–350°C) is also consistent with hydrothermal conditions typically associated with the appearance of prehnite and titanite in the cleavages of biotite (e.g. Eggleton & Banfield, ; Morad, Sirat, El‐Ghali, & Mansurbeg, ; Yuguchi et al, ) and with temperatures calculated for the overlying sediments, suggesting that fluids were freely circulating between the basement and the overlying sediments. In detail, thermometric results indicate that the pre‐kinematic greenschist facies metamorphism occurred at a higher temperature (270–350°C) than later syn‐kinematic fluid–rock interaction (200–280°C, Figure b), with spatial variations (east and west of Lake Urdiceto, Figure a) due to local variations in fluid composition.…”

Section: Discussionsupporting

confidence: 81%

“…Static or quasi‐static hydrothermal alteration is also observed in granites and has been widely documented, especially in large igneous provinces (e.g. Cathelineau, ; Parneix, Beaufort, Dudoignon, & Meunier, ; Yuguchi, Sasao, Ishibashi, & Nishiyama, ). However, static alteration is rarely characterized, and hardly ever dated and placed in a regional orogenic context.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Pre‐orogenic upper crustal softening by lower greenschist facies metamorphic reactions in granites of the central Pyrenees

Airaghi

Bellahsen

Dubacq

et al. 2020

Journal Metamorphic Geology

View full text Add to dashboard Cite

Pre-kinematic greenschist facies metamorphism is often observed in granites and basement units of mountain belts, but rarely dated and accounted for in orogenic cycle reconstructions. Studying pre-kinematic alteration is challenging because of its usual obliteration by subsequent syn-kinematic metamorphism often occurring at conditions typical of the brittle-ductile transition. It is, however, to be expected that pre-kinematic alteration has major implications for the rheology of the upper crust. In the 305 Ma-old Variscan basement of the Bielsa massif (located in the Axial Zone of the Pyrenees), successive fluid-rock interaction events are recorded in granites below 350°C. Combined microstructural and petrographic analysis, low-T thermobarometry and in situ U-Th/Pb dating of anatase, titanite and monazite show extensive pre-orogenic (pre-Alpine) and pre-kinematic alteration related to feldspar sericitization and chloritization of biotite and amphibole at temperatures of 270-350°C at 230-300 Ma. This event is followed by a second fluid-rock interaction stage marked by new crystallization of phyllosilicates at 200-280°C and is associated with the formation of mylonitic shear zones and fractures parallel to the shear planes. U-Pb anatase and monazite ages as well as the microtextural relationships of accessory minerals suggest an age for this event at 40-70 Ma, consistent with independent regional geology constraints. The Variscan basement was therefore softened at late to post-Variscan time, at least 150-200 Ma before the main Alpine shortening while Alpine-age compression (c. 35-50 Ma) leads to the formation of a dense net of mylonites. The associated deformation, both distributed at the scale of the Bielsa massif and localized at decametric scale in mylonitic corridors, precedes the strain localization along the major thrusts of the Axial Zone. The Bielsa massif is a good example where inherited, pre-orogenic upper crustal softening controls the deformation patterns in granitic basement units through low-grade metamorphic reactions. K E Y W O R D SAxial Zone, Bielsa, chlorite-white mica thermobarometry, mylonites, U-Th/Pb anatase-titanitemonazite dating 184 | AIRAGHI et Al.

show abstract

Section: Discussionsupporting

confidence: 81%

Section: Introductionmentioning

confidence: 99%

Pre‐orogenic upper crustal softening by lower greenschist facies metamorphic reactions in granites of the central Pyrenees

Airaghi

Bellahsen

Dubacq

et al. 2020

Journal Metamorphic Geology

View full text Add to dashboard Cite

show abstract

“…Table 6 shows the results for the SiO 2 -AF-FM system. It should be noted that a row consisting of molar volumes of corresponding minerals was added to the composition matrix for SVD analysis to ensure the constant solid volume condition, as per the method in Yuguchi et al (2015). The molar volume data were taken from Helgeson et al (1978), considering the chlorite as clinochlore and the garnet as grossular.…”

Section: Interplay Of Irreversible Reactions and Hydrofracturingmentioning

confidence: 99%

“…Because the isocon is occasionally difficult to define in the isocon plot, this method is not universally applicable. The analysis of reaction relations among minerals by the singular value decomposition (SVD) method is an alternative way by means of determining the mass transfer due to metasomatism (Fisher 1989;Lang et al 2004;Shigeno et al 2012;Yuguchi et al 2015). The SVD method is a type of least square method that systematically surveys reaction relations among minerals.…”

Section: Introductionmentioning

confidence: 99%

Interplay of irreversible reactions and deformation: a case of hydrofracturing in the rodingite–serpentinite system

Nishiyama

Shiosaki

Mori

et al. 2017

Prog. in Earth and Planet. Sci.

Self Cite

View full text Add to dashboard Cite

The interplay of irreversible reactions and deformation during regional metamorphism was analyzed in the reaction zones between rodingite and serpentinite. Rodingites are leucocratic rocks found commonly in serpentinites and are considered metasomatic products of Ca-rich fluid. Rodingites occur ubiquitously in serpentinite from the Nomo metamorphic rocks, western Kyushu, a Cretaceous accretionary complex of greenschist to epidote-amphibolite facies condition. We used the singular value decomposition (SVD) method to analyze rodingitization reactions based on mineral compositions of a rodingite sample and a possible protolith (clinopyroxene gabbro). The resultant reaction implied that the rodingite was formed due to the addition of considerable amounts of CaO and H 2 O to the protolith, whereas other components such as SiO 2 , AF (Al 2 O 3 + Fe 2 O 3 ), and FM (FeO + MgO) were conserved. The Nomo rodingites are associated with reaction zones between serpentinite. A careful study on the compositional variations of diopside and chlorite in the rodingite, serpentinite, and the reaction zones between them showed a disequilibrium crystallization of diopside in the reaction zone. Diopside shows a serrated variation in composition across the reaction zone together with disequilibrium signature within grains (composite grain consisting of Fe-rich and Fe-poor parts). These features clearly indicate that diopside crystallized in a relatively short period compared to the metamorphism by irreversible reactions. Another conspicuous feature is that perovskite occurs in some reaction zones, whereas titanite is common in rodingites; this indicates that the reaction zone is poorer in SiO 2 . The tremolite veins are typically derived from the reaction zone into serpentinite; showing this is a good example of hydrofracturing associated with the formation of the reaction zone. All the reactions obtained by the SVD method that contribute to the formation of the reaction zones consumed CaO and evolved H 2 O, strongly suggesting that the hydrofracturing is caused by a rapid increment of fluid pressure during the progression of the reactions. The reactions consumed considerable amounts of SiO 2 in the reaction zone, which is consistent with the occurrence of perovskite, and the conservation of AF and FM components.

show abstract

“…Fluids responsible for the quartz dissolution are little known. Hydrothermal chloritization of biotite during the subsolidus cooling of the Toki granitic pluton has been reported [34]. Mineralogical effects of hydrothermal alteration, such as partial dissolution of plagioclase, biotite dissolution, and illite precipitation, were also investigated.…”

Section: Methodsmentioning

confidence: 99%

Enhancement of Permeability Activated by Supercritical Fluid Flow through Granite

2019

View full text Add to dashboard Cite

This geological study utilized electron probe microanalysis of granitic rocks to evaluate traces of hydrothermal fluid activity. Amphibole-plagioclase thermometry was applied to estimate the temperature of a glassy vein as approximately 700°C. The results of mesoscopic and microscopic observations of the rock core obtained through borehole investigations revealed that the track of supercritical fluid flow was microfracture filling with hornblende and plagioclase. Grain-boundary microfractures and parallel microfractures were recognized as traces formed by the limited activity of the supercritical fluid immediately after granite setting in the Late Cretaceous. The current high permeability of a borehole in and around the track of supercritical fluid flow was recognized to be related to the microfracture network. In order to investigate the enhancement of permeability activated by the supercritical fluid flow through granite, the results of this geological study and existing data from in situ permeability tests were analysed. Various fractures in and around the trace of a self-sealing zone were investigated for another borehole rock core. The trace of the self-sealing zone, which was composed of filling textures associated with the supercritical fluid, corresponded to the current low-permeability section of the borehole. Representative types were proposed for simple classification based on the characteristics of fractures and the permeability data of each test section. A high-angle fracture of chlorite filling in combination with an open fracture and the development of a sericite-filling fracture network including a low-angle open fracture were recognized as characteristics of high-permeability types. The results of this study indicate that the enhancement of permeability was activated by supercritical fluid flow through granite.

show abstract

Hydrothermal chloritization processes from biotite in the Toki granite, Central Japan: Temporal variations of of the compositions of hydrothermal fluids associated with chloritization

Cited by 40 publications

References 37 publications

Pre‐orogenic upper crustal softening by lower greenschist facies metamorphic reactions in granites of the central Pyrenees

Pre‐orogenic upper crustal softening by lower greenschist facies metamorphic reactions in granites of the central Pyrenees

Interplay of irreversible reactions and deformation: a case of hydrofracturing in the rodingite–serpentinite system

Enhancement of Permeability Activated by Supercritical Fluid Flow through Granite

Contact Info

Product

Resources

About