Peraluminous granites: The effect of alumina on melt composition and coexisting minerals

François Holtz; Wilhelm Johannes; Michel Pichavant

doi:10.1017/S0263593300008075

Details

Originalsprache	Englisch
Seiten (von - bis)	409-416
Seitenumfang	8
Fachzeitschrift	Transactions of the Royal Society of Edinburgh: Earth Sciences
Jahrgang	83
Ausgabenummer	1-2
Publikationsstatus	Veröffentlicht - 1992

Abstract

Liquidus phase relationships at H₂O-saturated and -undersaturated conditions and 2 kbar in the systems Qz-Or-Ab (SiO₂-KAlSi₃O₈-NaAlSi₃O₈), Qz-Or-Ab-Al₂O₃, and subsystems are compared and discussed. In the peraluminous systems (i.e. when melts are saturated with respect to mullite) the liquidus temperatures are lowered by 40-55°C for compositions in the quartz primary field and by 15-25°C for cotectic compositions. The composition of the Qz-Ab eutectic and of the minimum are slightly shifted towards more Qz-rich compositions (minimum composition at P(H₂O) = 2 kbar in the system Qz-Or-Ab-A1₂O₃, saturated with respect to mullite: Qz₄₀Or₂₃Ab₃₇). In melts saturated with sillimanite or mullite, the effect of high Al content may be lower for the Qz-Or than for the Qz-Ab eutectic.The depression of the liquidus temperatures may be partly related to the higher H₂O solubility in melts saturated with respect to mullite. The solubility of H₂O in a melt with a composition of Qz₂₈Or₃₄Ab₃₈ at 2 kbar and 800°C is 5·77 ± 0·15 wt% H₂O and 6·36 ± 0·30 wt% H₂O in a melt with the same Qz/Or/Ab proportions but saturated with respect to mullite.The effect of high Al contents on the Mg and Fe contents of Ca-free granite melts was investigated at 775°C-3 kbar (melts coexisting with phlogopite), and at 820°C-2 kbar (melts coexisting with biotite and spinel), under NNO buffer conditions. Less than 0·15 wt% MgO is incorporated in subaluminous melts coexisting with phlogopite, whereas peraluminous melts (2·9 wt% normative corundum) contain 0·6–0·7 wt% MgO. A similar behaviour of the MgO content is observed for melts coexisting with biotite. In contrast, no significant effect of high Al contents on the FeO content of melt coexisting with biotite was observed. This suggests that the Fe/Mg ratio may be significantly lower in peraluminous than in subaluminous granitic melts.

ASJC Scopus Sachgebiete

Erdkunde und Planetologie (insg.)
Erdkunde und Planetologie (sonstige)
Erdkunde und Planetologie (insg.)
Paläontologie

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Peraluminous granites: The effect of alumina on melt composition and coexisting minerals. / Holtz, François; Johannes, Wilhelm; Pichavant, Michel.
in: Transactions of the Royal Society of Edinburgh: Earth Sciences, Jahrgang 83, Nr. 1-2, 1992, S. 409-416.

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review

Holtz, F, Johannes, W & Pichavant, M 1992, 'Peraluminous granites: The effect of alumina on melt composition and coexisting minerals', Transactions of the Royal Society of Edinburgh: Earth Sciences, Jg. 83, Nr. 1-2, S. 409-416. https://doi.org/10.1017/S0263593300008075

Holtz, F., Johannes, W., & Pichavant, M. (1992). Peraluminous granites: The effect of alumina on melt composition and coexisting minerals. Transactions of the Royal Society of Edinburgh: Earth Sciences, 83(1-2), 409-416. https://doi.org/10.1017/S0263593300008075

Holtz F, Johannes W, Pichavant M. Peraluminous granites: The effect of alumina on melt composition and coexisting minerals. Transactions of the Royal Society of Edinburgh: Earth Sciences. 1992;83(1-2):409-416. doi: 10.1017/S0263593300008075

Holtz, François ; Johannes, Wilhelm ; Pichavant, Michel. / Peraluminous granites : The effect of alumina on melt composition and coexisting minerals. in: Transactions of the Royal Society of Edinburgh: Earth Sciences. 1992 ; Jahrgang 83, Nr. 1-2. S. 409-416.

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title = "Peraluminous granites: The effect of alumina on melt composition and coexisting minerals",

abstract = "Liquidus phase relationships at H2O-saturated and -undersaturated conditions and 2 kbar in the systems Qz-Or-Ab (SiO2-KAlSi3O8-NaAlSi3O8), Qz-Or-Ab-Al2O3, and subsystems are compared and discussed. In the peraluminous systems (i.e. when melts are saturated with respect to mullite) the liquidus temperatures are lowered by 40-55°C for compositions in the quartz primary field and by 15-25°C for cotectic compositions. The composition of the Qz-Ab eutectic and of the minimum are slightly shifted towards more Qz-rich compositions (minimum composition at P(H2O) = 2 kbar in the system Qz-Or-Ab-A12O3, saturated with respect to mullite: Qz40Or23Ab37). In melts saturated with sillimanite or mullite, the effect of high Al content may be lower for the Qz-Or than for the Qz-Ab eutectic.The depression of the liquidus temperatures may be partly related to the higher H2O solubility in melts saturated with respect to mullite. The solubility of H2O in a melt with a composition of Qz28Or34Ab38 at 2 kbar and 800°C is 5·77 ± 0·15 wt% H2O and 6·36 ± 0·30 wt% H2O in a melt with the same Qz/Or/Ab proportions but saturated with respect to mullite.The effect of high Al contents on the Mg and Fe contents of Ca-free granite melts was investigated at 775°C-3 kbar (melts coexisting with phlogopite), and at 820°C-2 kbar (melts coexisting with biotite and spinel), under NNO buffer conditions. Less than 0·15 wt% MgO is incorporated in subaluminous melts coexisting with phlogopite, whereas peraluminous melts (2·9 wt% normative corundum) contain 0·6–0·7 wt% MgO. A similar behaviour of the MgO content is observed for melts coexisting with biotite. In contrast, no significant effect of high Al contents on the FeO content of melt coexisting with biotite was observed. This suggests that the Fe/Mg ratio may be significantly lower in peraluminous than in subaluminous granitic melts.",

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author = "Fran{\c c}ois Holtz and Wilhelm Johannes and Michel Pichavant",

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pages = "409--416",

journal = "Transactions of the Royal Society of Edinburgh: Earth Sciences",

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TY - JOUR

T1 - Peraluminous granites

T2 - The effect of alumina on melt composition and coexisting minerals

AU - Holtz, François

AU - Johannes, Wilhelm

AU - Pichavant, Michel

PY - 1992

Y1 - 1992

N2 - Liquidus phase relationships at H2O-saturated and -undersaturated conditions and 2 kbar in the systems Qz-Or-Ab (SiO2-KAlSi3O8-NaAlSi3O8), Qz-Or-Ab-Al2O3, and subsystems are compared and discussed. In the peraluminous systems (i.e. when melts are saturated with respect to mullite) the liquidus temperatures are lowered by 40-55°C for compositions in the quartz primary field and by 15-25°C for cotectic compositions. The composition of the Qz-Ab eutectic and of the minimum are slightly shifted towards more Qz-rich compositions (minimum composition at P(H2O) = 2 kbar in the system Qz-Or-Ab-A12O3, saturated with respect to mullite: Qz40Or23Ab37). In melts saturated with sillimanite or mullite, the effect of high Al content may be lower for the Qz-Or than for the Qz-Ab eutectic.The depression of the liquidus temperatures may be partly related to the higher H2O solubility in melts saturated with respect to mullite. The solubility of H2O in a melt with a composition of Qz28Or34Ab38 at 2 kbar and 800°C is 5·77 ± 0·15 wt% H2O and 6·36 ± 0·30 wt% H2O in a melt with the same Qz/Or/Ab proportions but saturated with respect to mullite.The effect of high Al contents on the Mg and Fe contents of Ca-free granite melts was investigated at 775°C-3 kbar (melts coexisting with phlogopite), and at 820°C-2 kbar (melts coexisting with biotite and spinel), under NNO buffer conditions. Less than 0·15 wt% MgO is incorporated in subaluminous melts coexisting with phlogopite, whereas peraluminous melts (2·9 wt% normative corundum) contain 0·6–0·7 wt% MgO. A similar behaviour of the MgO content is observed for melts coexisting with biotite. In contrast, no significant effect of high Al contents on the FeO content of melt coexisting with biotite was observed. This suggests that the Fe/Mg ratio may be significantly lower in peraluminous than in subaluminous granitic melts.

AB - Liquidus phase relationships at H2O-saturated and -undersaturated conditions and 2 kbar in the systems Qz-Or-Ab (SiO2-KAlSi3O8-NaAlSi3O8), Qz-Or-Ab-Al2O3, and subsystems are compared and discussed. In the peraluminous systems (i.e. when melts are saturated with respect to mullite) the liquidus temperatures are lowered by 40-55°C for compositions in the quartz primary field and by 15-25°C for cotectic compositions. The composition of the Qz-Ab eutectic and of the minimum are slightly shifted towards more Qz-rich compositions (minimum composition at P(H2O) = 2 kbar in the system Qz-Or-Ab-A12O3, saturated with respect to mullite: Qz40Or23Ab37). In melts saturated with sillimanite or mullite, the effect of high Al content may be lower for the Qz-Or than for the Qz-Ab eutectic.The depression of the liquidus temperatures may be partly related to the higher H2O solubility in melts saturated with respect to mullite. The solubility of H2O in a melt with a composition of Qz28Or34Ab38 at 2 kbar and 800°C is 5·77 ± 0·15 wt% H2O and 6·36 ± 0·30 wt% H2O in a melt with the same Qz/Or/Ab proportions but saturated with respect to mullite.The effect of high Al contents on the Mg and Fe contents of Ca-free granite melts was investigated at 775°C-3 kbar (melts coexisting with phlogopite), and at 820°C-2 kbar (melts coexisting with biotite and spinel), under NNO buffer conditions. Less than 0·15 wt% MgO is incorporated in subaluminous melts coexisting with phlogopite, whereas peraluminous melts (2·9 wt% normative corundum) contain 0·6–0·7 wt% MgO. A similar behaviour of the MgO content is observed for melts coexisting with biotite. In contrast, no significant effect of high Al contents on the FeO content of melt coexisting with biotite was observed. This suggests that the Fe/Mg ratio may be significantly lower in peraluminous than in subaluminous granitic melts.

KW - granite

KW - HO

KW - melt

KW - peraluminous

KW - phase relations

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U2 - 10.1017/S0263593300008075

DO - 10.1017/S0263593300008075

M3 - Article

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VL - 83

SP - 409

EP - 416

JO - Transactions of the Royal Society of Edinburgh: Earth Sciences

JF - Transactions of the Royal Society of Edinburgh: Earth Sciences

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Peraluminous granites: The effect of alumina on melt composition and coexisting minerals

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