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Experimentally Derived Intermediate to Silica-rich Arc Magmas by Fractional and Equilibrium Crystallization at 1.0 GPa: an Evaluation of Phase Relationships, Compositions, Liquid Lines of Descent and Oxygen Fugacity
被引:191
|作者:
Ulmer, Peter
[1
]
Kaegi, Ralf
[1
,2
]
Muntener, Othmar
[3
]
机构:
[1] ETH, Inst Geochem & Petrol, Clausiusstr 25, CH-8092 Zurich, Switzerland
[2] Eawag, Swiss Fed Inst Aquat Sci & Technol, CH-8600 Dubendorf, Switzerland
[3] Inst Earth Sci, Geopolis 4897, CH-1015 Lausanne, Switzerland
基金:
瑞士国家科学基金会;
关键词:
liquid line of descent;
equilibrium and fractional crystallization;
arc magmatism;
lower crustal magma differentiation;
CALC-ALKALINE DIFFERENTIATION;
PISTON-CYLINDER EXPERIMENTS;
LOWER CONTINENTAL-CRUST;
LESSER-ANTILLES ARC;
EXPERIMENTAL CONSTRAINTS;
WATER-CONTENT;
HIGH-PRESSURE;
REDOX STATES;
ISLAND-ARC;
AMPHIBOLE FRACTIONATION;
D O I:
10.1093/petrology/egy017
中图分类号:
P3 [地球物理学];
P59 [地球化学];
学科分类号:
0708 ;
070902 ;
摘要:
Differentiation of hydrous primary, mantle-derived magmas is a fundamental process to generate evolved intermediate to SiO2-rich compositions forming the bulk of the continental and island arc crust. This study focuses on the results of equilibrium and fractional crystallization experiments at 1.0GPa using two different primary magmas representing deep (90 km) and shallow (35 km) mantle extraction depths. Experiments on a hydrous high-Mg basalt were conducted at graphite-saturated and more oxidized conditions (NNO to NNOthorn2, where NNO is nickel-nickel oxide buffer) to exploit the influence of fO2 on phase assemblages and the evolution of derivative liquids. The liquid line of descent (LLD) was simulated from liquidus to near-solidus conditions ranging from 1330 degrees C to 720 degrees C. H2O contents varied from about 2.0 to more than 10wt %. The LLD covers the entire compositional range from high-Mg basalt to high-silica rhyolite and evolves from metaluminous to peraluminous compositions at 56-60wt % SiO2 under oxidizing conditions. The observed crystallization sequences and the LLD reveal contrasting behavior depending on oxidation state, H2O content and equilibrium versus fractional crystallization. Equilibrium crystallization of high-Mg basalt under reducing conditions is initially dominated by olivine fractionation followed by Cr-rich spinel, clinopyroxene (cpx), and orthopyroxene (opx). Finally, between 1060 and 1000 degrees C, amphibole formed by a peritectic reaction consuming cpxthornolivine and forming amphibolethornopx, resulting in 16% silica-undersaturated trachy-basaltic liquid. Equilibrium crystallization of the same composition under oxidizing conditions is characterized by strongly enhanced olivine and cpx fractionation and suppression of opx only occurring as a result of the peritectic amphibole-forming reaction at and below 1040 degrees C. The liquid at 980 degrees C is a peraluminous, alkali-poor, high-Al andesite representing.15% residual liquid. Fractional crystallization of the high-Mg basalt under oxidizing conditions evolves through fractionation of early olivine joined by cpx at 1200 degrees C, followed by opx and hercynitic spinel (1140-1080 degrees C) and amphibole at 1050 degrees C coexisting with cpx (and spinel) to 980 degrees C. At 950 degrees C both garnet and plagioclase (plag) join amphibole as liquidus phases. This paragenesis (plus ilmenite and apatite) persists to 750 degrees C with 16% residual liquid relative to the initial basaltic composition. Liquids evolve continuously from basalt to rhyolite, crossing the metaluminous-peraluminous boundary at about 60wt % SiO2. Fractional crystallization of the basaltic andesite starting material differs at high temperature, where opx and cpx are the liquidus phases (1200-1080 degrees C), followed by amphibole at the expense of opx. Below 950 degrees C the phase assemblage is identical except at the lowest temperature (720 degrees C), where quartz saturates in a high-silica rhyolitic liquid representing 20% of the initial basaltic andesite. Liquid compositions of the two starting compositions converge below 950 degrees C, with the exception of K2O, which behaves incompatibly along the liquid line of descent. The H2O-undersaturated fractional crystallization experiments on the high-Mg basaltic composition under relatively reducing conditions evolve towards tholeiitic or alkalic compositions owing to early plagioclase (at 1140 degrees C) and abundant opx (at 1110 degrees C) crystallization followed by garnet-cpx-plag-ilmenite at 1080 degrees C. Closed-system equilibrium crystallization under relatively oxidized conditions is characterized by significant expansion of the olivine stability field (> 250 degrees C, 1280-1000 degrees C) relative to more reducing conditions, causing depletion of the liquid in ferrous iron and increase of ferric iron. The resulting fO(2) of the coexisting basaltic liquids increases by more than 3 log units from about NNOthorn2 to NNO+5 5 over the temperature range > 1200-1040 degrees C, potentially offering an explanation for the more oxidized character of hydrous arc magmas as opposed to low-H2O tholeiitic magmas.
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页码:11 / 58
页数:48
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