Pargasite is a Ca-amphibole associated to medium- or high-pressure/high-temperature conditions. The occurrence of hydroxyl groups into the amphibole’s structure has proved to be a significant agent in the water cycle within the upper mantle (e.g., Gill 1981). In order to better understand the water cycle in the upper and potentially lower mantle, it is of critical importance to determine the stability of all hydrous minerals subducted into the mantle. However, despite their geological importance, only a few in situ high-pressure (HP) and high-temperature (HT) studies have been performed in order to describe the P-T stability fields, the thermo-elastic behaviour and the P- or T-induced deformation mechanisms of amphiboles at the atomic scale. The compressibility of tremolite, pargasite and glaucophane were investigated by Comodi et al. (1991) on the basis of in situ single-crystal X-ray diffraction experiments with a diamond anvil cell (DAC) up about 4 GPa. However, as pointed out in Welch et al. (2007), there is a need to extend the compressibility measurement to P higher than 10 GPa, in order to improve the accuracy of the refined isothermal bulk modulus values and their P-derivatives. Furthermore, to the best of our knowledge, no simultaneous in situ P-T studies have been conducted on amphiboles so far. This lack of knowledge prevents a detailed description of the behaviour of amphiboles that are stable at HP-HT conditions and consequently it is still difficult to assess their petrological implications. In this light, we have selected crystals of pargasite from the peridotite of the “phlogopite peridotite unit” of the Finero maficultamafic complex (Ivrea-Verbano Formation, Italy) (Cowthorn, 1975), in order to describe: a) the HP elastic behaviour of this amphibole and its deformation mechanisms at the atomic scale up to 20 GPa, by single-crystal synchrotron X-ray diffraction with a diamond anvil cell, b) its HT behaviour, along with its potential de-hydroxilation, by in situ X-ray synchrotron powder diffraction using a hot air blower device (up to 823 K), and c) its phase stability field at simultaneous HP-HT conditions, by single-crystal synchrotron X-ray diffraction with a resistive-heated diamond anvil cell (Pmax = 16.5 GPa, Tmax = 1200 K). The thermal and compressional behaviour of pargasite are now fully described within the P- and T-range investigated and the petrological implications of our experimental findings are discussed. Cawthorn, R.G. (1975): The amphibole peridotite-metagabbro complex, Finero, northern Italy. J. Geol., 83, 437- 454. Comodi, P., Mellini, M., Ungaretti, L., Zanazzi, P.F. (1991): Compressibility and high pressure structure refinement of tremolite, pargasite, and glaucophane. Eur. J. Mineral., 3, 485-500. Gill, J. (1981): Orogenic Andesites and Plate Tectonics. Springer, New York, pp. 390. Welch, M.D., Càmara, F., Della Ventura, G., Iezzi, G. (2007): Non-ambient in situ studies of amphiboles. Rev. Mineral. Geochem., 67, 223-260.
Pargasite at extreme conditions: a comprehensive P-T study / D. Comboni, G.D. Gatta, P. Lotti, M. Merlini, H.P. Liermann, D.J. Frost. ((Intervento presentato al convegno Geosciences: a tool in a changing world tenutosi a Pisa nel 2017.
Pargasite at extreme conditions: a comprehensive P-T study
D. Comboni
;G.D. GattaSecondo
;P. Lotti;M. Merlini;
2017
Abstract
Pargasite is a Ca-amphibole associated to medium- or high-pressure/high-temperature conditions. The occurrence of hydroxyl groups into the amphibole’s structure has proved to be a significant agent in the water cycle within the upper mantle (e.g., Gill 1981). In order to better understand the water cycle in the upper and potentially lower mantle, it is of critical importance to determine the stability of all hydrous minerals subducted into the mantle. However, despite their geological importance, only a few in situ high-pressure (HP) and high-temperature (HT) studies have been performed in order to describe the P-T stability fields, the thermo-elastic behaviour and the P- or T-induced deformation mechanisms of amphiboles at the atomic scale. The compressibility of tremolite, pargasite and glaucophane were investigated by Comodi et al. (1991) on the basis of in situ single-crystal X-ray diffraction experiments with a diamond anvil cell (DAC) up about 4 GPa. However, as pointed out in Welch et al. (2007), there is a need to extend the compressibility measurement to P higher than 10 GPa, in order to improve the accuracy of the refined isothermal bulk modulus values and their P-derivatives. Furthermore, to the best of our knowledge, no simultaneous in situ P-T studies have been conducted on amphiboles so far. This lack of knowledge prevents a detailed description of the behaviour of amphiboles that are stable at HP-HT conditions and consequently it is still difficult to assess their petrological implications. In this light, we have selected crystals of pargasite from the peridotite of the “phlogopite peridotite unit” of the Finero maficultamafic complex (Ivrea-Verbano Formation, Italy) (Cowthorn, 1975), in order to describe: a) the HP elastic behaviour of this amphibole and its deformation mechanisms at the atomic scale up to 20 GPa, by single-crystal synchrotron X-ray diffraction with a diamond anvil cell, b) its HT behaviour, along with its potential de-hydroxilation, by in situ X-ray synchrotron powder diffraction using a hot air blower device (up to 823 K), and c) its phase stability field at simultaneous HP-HT conditions, by single-crystal synchrotron X-ray diffraction with a resistive-heated diamond anvil cell (Pmax = 16.5 GPa, Tmax = 1200 K). The thermal and compressional behaviour of pargasite are now fully described within the P- and T-range investigated and the petrological implications of our experimental findings are discussed. Cawthorn, R.G. (1975): The amphibole peridotite-metagabbro complex, Finero, northern Italy. J. Geol., 83, 437- 454. Comodi, P., Mellini, M., Ungaretti, L., Zanazzi, P.F. (1991): Compressibility and high pressure structure refinement of tremolite, pargasite, and glaucophane. Eur. J. Mineral., 3, 485-500. Gill, J. (1981): Orogenic Andesites and Plate Tectonics. Springer, New York, pp. 390. Welch, M.D., Càmara, F., Della Ventura, G., Iezzi, G. (2007): Non-ambient in situ studies of amphiboles. Rev. Mineral. Geochem., 67, 223-260.File | Dimensione | Formato | |
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