Maximum and minimum water contents of granitic melts: implications for chemical and physical properties of ascending magmas

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Original languageEnglish
Pages (from-to)149-159
Number of pages11
JournalLithos
Volume32
Issue number1-2
Publication statusPublished - Mar 1994

Abstract

New results obtained by the investigation of liquidus and solidus phase relations in the system Qz-Ab-Or and by the determination of H2O solubility in haplogranitic melts are used to discuss the evolution of granitic (quartzo-feldspathic) magmas during their ascent in the crust. Particular attention is given to the role of H2O and its effect on physical properties of ascending magmas. The evolution of melt fraction, H2O content of the melt and viscosity of melt and magma during ascent are discussed for several examples (adiabatic ascent, ascent with cooling, ascent with crystal fractionation). It is shown that decompression melting processes may be very important (significant increase of the melt proportion), especially at low pressure, in magmas ascending along adiabats or with slow cooling rates. The comparison of the discussed examples shows that melts formed at low T are significantly less viscous than at high T. Although the degree of melting may remain very low in the case of dehydration melting at low temperature, the low viscosity of the generated melts may enhance the extraction of these melts from the source area to produce leucogranites.

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Maximum and minimum water contents of granitic melts: implications for chemical and physical properties of ascending magmas. / Holtz, François; Johannes, Wilhelm.
In: Lithos, Vol. 32, No. 1-2, 03.1994, p. 149-159.

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abstract = "New results obtained by the investigation of liquidus and solidus phase relations in the system Qz-Ab-Or and by the determination of H2O solubility in haplogranitic melts are used to discuss the evolution of granitic (quartzo-feldspathic) magmas during their ascent in the crust. Particular attention is given to the role of H2O and its effect on physical properties of ascending magmas. The evolution of melt fraction, H2O content of the melt and viscosity of melt and magma during ascent are discussed for several examples (adiabatic ascent, ascent with cooling, ascent with crystal fractionation). It is shown that decompression melting processes may be very important (significant increase of the melt proportion), especially at low pressure, in magmas ascending along adiabats or with slow cooling rates. The comparison of the discussed examples shows that melts formed at low T are significantly less viscous than at high T. Although the degree of melting may remain very low in the case of dehydration melting at low temperature, the low viscosity of the generated melts may enhance the extraction of these melts from the source area to produce leucogranites.",
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T2 - implications for chemical and physical properties of ascending magmas

AU - Holtz, François

AU - Johannes, Wilhelm

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PY - 1994/3

Y1 - 1994/3

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AB - New results obtained by the investigation of liquidus and solidus phase relations in the system Qz-Ab-Or and by the determination of H2O solubility in haplogranitic melts are used to discuss the evolution of granitic (quartzo-feldspathic) magmas during their ascent in the crust. Particular attention is given to the role of H2O and its effect on physical properties of ascending magmas. The evolution of melt fraction, H2O content of the melt and viscosity of melt and magma during ascent are discussed for several examples (adiabatic ascent, ascent with cooling, ascent with crystal fractionation). It is shown that decompression melting processes may be very important (significant increase of the melt proportion), especially at low pressure, in magmas ascending along adiabats or with slow cooling rates. The comparison of the discussed examples shows that melts formed at low T are significantly less viscous than at high T. Although the degree of melting may remain very low in the case of dehydration melting at low temperature, the low viscosity of the generated melts may enhance the extraction of these melts from the source area to produce leucogranites.

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