The mechanisms of Ar release from K-feldspar samples in laboratory experiments and during their geological history are assessed here. Modern petrology clearly established that the chemical and isotopic record of minerals is normally dominated by aqueous recrystallization. The laboratory critique is trickier, which explains why so many conflicting approaches have been able to survive long past their expiration date. Current models are evaluated for self-consistency, especially Arrhenian non-linearity which leads to paradoxes. The models' testable geological predictions suggest that temperature-based downslope extrapolations often overestimate observed geological Ar mobility substantially. An updated interpretation is based on the unrelatedness of geological behaviour to laboratory experiments. The isotopic record of K-feldspar in geological samples is not a unique function of temperature, as recrystallization promoted by aqueous fluids is the predominant mechanism controlling isotope transport. K-feldspar should therefore be viewed as a hygrochronometer. Laboratory degassing proceeds from structural rearrangements and phase transitions such as are observed in situ at high temperature in Na and Pb feldspars. These effects violate the mathematics of an inert Fick's Law matrix and preclude downslope extrapolation. The similar upward-concave non-linear shapes of Arrhenius trajectories of many silicates, hydrous and anhydrous, are likely common manifestations of structural rearrangements in silicate structures. © The Geological Society of London 2014.

Villa, I. (2014). Diffusion of ar in k-feldspar: Present and absent. In F. Jourdan, D. Mark, C. Verati (a cura di), Advances in 40 Ar/39 Ar Dating: From Archaeology to Planetary Sciences (pp. 107-116). London : Geological Society of London [10.1144/SP378.4].

Diffusion of ar in k-feldspar: Present and absent

VILLA, IGOR MARIA
2014

Abstract

The mechanisms of Ar release from K-feldspar samples in laboratory experiments and during their geological history are assessed here. Modern petrology clearly established that the chemical and isotopic record of minerals is normally dominated by aqueous recrystallization. The laboratory critique is trickier, which explains why so many conflicting approaches have been able to survive long past their expiration date. Current models are evaluated for self-consistency, especially Arrhenian non-linearity which leads to paradoxes. The models' testable geological predictions suggest that temperature-based downslope extrapolations often overestimate observed geological Ar mobility substantially. An updated interpretation is based on the unrelatedness of geological behaviour to laboratory experiments. The isotopic record of K-feldspar in geological samples is not a unique function of temperature, as recrystallization promoted by aqueous fluids is the predominant mechanism controlling isotope transport. K-feldspar should therefore be viewed as a hygrochronometer. Laboratory degassing proceeds from structural rearrangements and phase transitions such as are observed in situ at high temperature in Na and Pb feldspars. These effects violate the mathematics of an inert Fick's Law matrix and preclude downslope extrapolation. The similar upward-concave non-linear shapes of Arrhenius trajectories of many silicates, hydrous and anhydrous, are likely common manifestations of structural rearrangements in silicate structures. © The Geological Society of London 2014.
Capitolo o saggio
39Ar-40Ar geochronology, Ar diffusion, hygrochronology, K-feldspar, recrystallisation
English
Advances in 40 Ar/39 Ar Dating: From Archaeology to Planetary Sciences
Jourdan, F; Mark, D; Verati, C
2014
978-1-86239-360-8
378
Geological Society of London
107
116
Villa, I. (2014). Diffusion of ar in k-feldspar: Present and absent. In F. Jourdan, D. Mark, C. Verati (a cura di), Advances in 40 Ar/39 Ar Dating: From Archaeology to Planetary Sciences (pp. 107-116). London : Geological Society of London [10.1144/SP378.4].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/45116
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