Herbert Fournier scite author profile

Herbert Fournier

5Publications

64Citation Statements Received

386Citation Statements Given

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Queen's University

Publications

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Retrogression of eclogite-facies shear zones by short-lived fluid infiltration during the Caledonian orogeny, Lofoten islands, Norway

Fournier

Lee

Camacho

et al. 2013

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Norwegian eclogite-facies shear zones in the Lofoten islands served as major pathways for short-lived pulses of both 40Ar-rich and 40Ar-poor hot fluids during eclogitization and retrogression events related to the Caledonian orogeny. The open system for Ar affected most of the minerals leading to old 40Ar/39Ar ages, particularly in trioctahedral micas. 40Ar concentration in the fluids appears to decrease during the amphibolite-facies retrogression and Ca-rich amphiboles yield 40Ar/39Ar ages of c. 415 Ma (Scandian event). Late- and post-Caledonian 40Ar/39Ar muscovite and K-feldspar ages and Rb/Sr biotite ages coincide with multiple extensional events, fluid infiltration and thermal activity during the final exhumation of the crustal rocks, potentially reflecting major tectonic episodes such as rifting of Pangaea and seafloor spreading between Europe and North America.Supplementary material:Sample coordinates from all the rocks, analytical methods, complete 40Ar/39Ar step-heating descriptions and electron microprobe results are available at http://www.geolsoc.org.uk/SUP18687.

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Short-lived reheating events in the Sommartuva shear zone hosted in cold crust: Ar-diffusion modelling constraints for the exhumation of eclogites in Flakstadøy, Lofoten Islands, Norway

2016

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High-strain deformation and fluid infiltration diachronism of the middle crust: New Devonian–Permian Alice Springs ages (365–290 Ma) of shear zones in the Strangways Metamorphic Complex, Central Australia

2016

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The tectonothermal evolution of the Venezuelan Caribbean Mountain System: 40Ar/39Ar age insights from a Rodinian-related rock, the Cordillera de la Costa and Margarita Island

Fournier

Lee

Urbani

et al. 2017

Journal of South American Earth Sciences

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Slow cooling versus episodic fluid injections: Deciphering the Caledonian orogeny in Vestvågøy, Lofoten islands, Norway

Fournier

Lee

Camacho

2019

Journal Metamorphic Geology

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The determination of the thermal (temperature-time) histories of highpressure metamorphic terranes has been commonly based on the concepts of slow cooling and closure temperatures. In this paper, we find that this approach cannot reconcile a geochronological data set obtained from the amphibolite-facies allochthonous Leknes Group of the Lofoten islands, Norway, which reveals an extremely complex thermal history. Using detailed results from several different geochronometers such as 40 Ar/ 39 Ar, Rb-Sr, and U-Pb, we show that a model invoking multiple, short-lived thermal pulses related to hot-fluid Accepted ArticleThis article is protected by copyright. All rights reserved. infiltration channelized by shear zones can reconcile this complicated data set. This model suggests that hot fluids infiltrated throughout basement shear zones and affected the overlying cold allochthon, partially resetting U/Pb titanite and rutile ages, crystallizing new zircon, and produced identical 40 Ar/ 39 Ar and Rb/Sr ages in muscovite, biotite, and amphibole in various rocks throughout the region. This paper shows the enormous potential of coupling laser Ar-spot data with thermal modelling to identify and constrain the duration of short-lived events.An optimal P-T-t history has been derived by modelling the age data from a previously dated large muscovite crystal (Hames & Andresen, 1996) and using Zr-in-rutile thermometry which is consistent with all geochronological data and geological constraints from the basement zones and allochthon cover. This tectonothermal model history suggests that there has been three episodic hot-fluid and 40 Ar-free infiltration events, resulting in the total resetting of Ar ages during the Scandian (425 Ma) for 1 Ma at 650°C, and two reheating events at 415 Ma for 400 ka at 650°C and at 365 Ma for 50 ka at 600°C, which are modelled as thermal spikes above an ambient temperature of 300°C. Independent confirmation of these parameters was provided by Pb-diffusion modelling in rutile and titanite. The model suggest that the amphibolite-facies rocks of the Leknes Group probably remained cold before being exhumed for at least 60 Ma (425-365 Ma) and successfully explains the presence of different minerals that crystallised or were totally/partially reset in the allochthon and in the basement. The migration of hot fluids for short period of times within conduits extending through the basement and allochthon rock units is likely associated with episodic seismic activity.

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