Boron isotope record of peak metamorphic ultrahigh-pressure and retrograde fluid–rock interaction in white mica (Lago di Cignana, Western Alps)

Halama, Ralf; Konrad‐Schmolke, Matthias; Hoog, Jan C.M. De

doi:10.1007/s00410-020-1661-8

Cited by 23 publications

(13 citation statements)

References 86 publications

(129 reference statements)

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“…3A). These results are compatible with the positive δ 11 B in natural antigorite-bearing serpentinites and metamorphic olivine from high-P veins (e.g., Scambelluri and Tonarini, 2012;De Hoog et al, 2014) and well match with the scenario requiring a serpentinite-derived component in the arc magma region to explain arcs with positive δ 11 B (e.g., Tonarini et al, 2011) and with the δ 11 B signature of serpentinite-derived fluids percolating within the slab at high-P (e.g., Halama et al, 2020). However, considering the δ 11 B atg of -6.2‰ obtained during serpentine phase transition at neutral pH conditions (Fig.…”

Section: Implications For B-isotope Fractionation Of Subducted Serpensupporting

confidence: 82%

“…This positive δ 11 B signature is shared also by shallow forearc serpentinites (Benton et al, 2001), thus reflecting the 11 B-rich nature of the fluids extracted from the subducting slab by early devolatilization reactions. For this reason, δ 11 B is commonly used as a geochemical tracer to unravel chemical exchange between slab lithologies and mantle as well as to estimate the serpentinite contribution to the genesis of arc magmatism characterized by high δ 11 B signatures (e.g., De Hoog and Savov, 2018;Halama et al, 2020;Prigent et al, 2018;Tonarini et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

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Boron isotope fractionation in subducted serpentinites: A modelling attempt

Cannaò

2020

Lithos

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Section: Implications For B-isotope Fractionation Of Subducted Serpensupporting

confidence: 82%

Section: Introductionmentioning

confidence: 99%

Boron isotope fractionation in subducted serpentinites: A modelling attempt

Cannaò

2020

Lithos

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“…The extensive evidence for garnet dissolution presented here is not coupled with concomitant reprecipitation, which implies that the whole process took place under open system conditions, with overall loss of material. The fluids responsible for mineral dissolution were externally derived and likely made available by dehydration of nearby serpentinite (Halama et al., 2020). Because garnet was concentrated into garnetite by dissolution of more soluble interstitial minerals along a fluid pathway, the garnetite can be considered a stylolite.…”

Section: Discussionmentioning

confidence: 99%

“…This evidence suggests the dissolution of a polymineralic component of the system during garnet growth, beyond quartz and carbonates (Frezzotti et al., 2011; Hawkins et al., 2009). Boron concentrations and isotopic ratios in white mica within several lithologies in the LCU area indicate that a fluid derived from partially dehydrated serpentinites was the driver behind fluid–rock interaction in quartzite, but not in eclogite (Halama et al., 2020).…”

Section: Geological Backgroundmentioning

confidence: 99%

“…Angiboust et al., 2017; Hadjzobir et al., 2017; Spry et al., 2000; Vrijmoed et al., 2006), no origin mechanism has been established for the LCU garnetites. Infiltration of external fluids and extensive fluid–rock interaction within this unit have been revealed by detailed fluid‐inclusion and geochemical studies, suggesting influx of locally solute‐rich serpentinite‐derived fluids (Frezzotti et al., 2011; Halama et al., 2020; Hawkins et al., 2009). Therefore, the LCU potentially includes remnants of a large‐scale fluid pathway, which has not yet been identified and described in detail.…”

Section: Introductionmentioning

confidence: 96%

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Extensive fluid–rock interaction and pressure solution in a UHP fluid pathway recorded by garnetite, Lago di Cignana, Western Alps

Lantman

Scambelluri

Gilio

et al. 2021

Journal Metamorphic Geology

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Matrix‐independent boron isotope analysis of silicate and carbonate reference materials by ultraviolet femtosecond laser ablation multi‐collector inductively coupled plasma mass spectrometry with application to the cold‐water coral Desmophyllum dianthus

Steinhoefel

Beck

Benthien

et al. 2023

Rapid Comm Mass Spectrometry

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Rationale: Boron isotopes are a powerful tool for pH reconstruction in marine carbonates and as a tracer for fluid-mineral interaction in geochemistry.Microanalytical approaches based on laser ablation multi-collector inductively coupled plasma mass spectrometry (LA-MC-ICP-MS) often suffer from effects induced by the sample matrix. In this study, we investigate matrix-independent analyses of B isotopic ratios and apply this technique to cold-water corals.Methods: We employ a customized 193 nm femtosecond laser ablation system (Solstice, Spectra-Physics) coupled to a MC-ICP-MS system (Nu Plasma II, Nu Instruments) equipped with electron multipliers for in situ measurements of B isotopic ratios ( 11 B/ 10 B) at the micrometric scale. We analyzed various reference materials of silicate and carbonate matrices using non-matrix matched calibration without employing any correction. This approach was then applied to investigate defined increments in coral samples from a Chilean fjord.Results: We obtained accurate B isotopic ratios with a reproducibility of ±0.9‰(2 SD) for various reference materials including silicate glasses (GOR132-G, StHs6/80-G, ATHO-G and NIST SRM 612), clay (IAEA-B-8) and carbonate (JCp-1) using the silicate glass NIST SRM 610 as calibration standard, which shows that neither laser-induced nor ICP-related matrix effects are detectable. The application to cold-water corals (Desmophyllum dianthus) reveals minor intra-skeleton variations in δ 11 B with average values between 23.01‰ and 25.86‰. Conclusions:Our instrumental set-up provides accurate and precise B isotopic ratios independently of the sample matrix at the micrometric scale. This approach opens a wide field of application in geochemistry, including pH reconstruction in biogenic carbonates and deciphering processes related to fluid-mineral interaction.

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Boron isotope record of peak metamorphic ultrahigh-pressure and retrograde fluid–rock interaction in white mica (Lago di Cignana, Western Alps)

Cited by 23 publications

References 86 publications

Boron isotope fractionation in subducted serpentinites: A modelling attempt

Boron isotope fractionation in subducted serpentinites: A modelling attempt

Extensive fluid–rock interaction and pressure solution in a UHP fluid pathway recorded by garnetite, Lago di Cignana, Western Alps

Matrix‐independent boron isotope analysis of silicate and carbonate reference materials by ultraviolet femtosecond laser ablation multi‐collector inductively coupled plasma mass spectrometry with application to the cold‐water coral Desmophyllum dianthus

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