Jökull


Jökull - 01.01.2019, Page 98

Jökull - 01.01.2019, Page 98
Eyjafjallajökull ankaramites, South Iceland The diffusion modelling gives diffusion time scales in the range 9–37 days (Figure 6). This time frame does not reflect the speed of the ankaramite magma ascent directly, because of the unknown olivine residence time in the lava and the fact that the timing of the magmatic recharge (forming the reverse zoned high-Fo rims) does not necessarily coincide with the beginning of the magma ascent. The mag- matic recharge to the crystal mush did not necessar- ily act as the eruption trigger and may have occurred considerably earlier than agitation and upheaval of the olivine (and clinopyroxene) crystals (see Rae et al., 2016). Nevertheless, as the unknown time of diffusion at the surface and the potential time-delay between magmatic recharge and crystal lift both lengthen the diffusion time, our 9–37-day estimate for diffusive re- equilibration can be viewed as a likely maximum time that elapsed from crystal mush disaggregation to erup- tion. The 9–37-day range may reflect varying olivine residence times in a magma ascent conduit or surfi- cial lava-feeding system after the magmatic recharge event, or be due to olivine sectioning and anisotropy effects (Shea et al., 2015). Moderate-pressure co-crystallization of primitive clinopyroxene and olivine The Brattaskjól and Hvammsmúli ankaramites have abundant olivine and clinopyroxene macrocrysts and only minor plagioclase macrocrysts, Mg#cpx of clinopyroxene being as high as 90. This and the compositional variation in clinopyroxene cores sug- gest olivine- and clinopyroxene-dominated fractiona- tion and a late arrival of plagioclase on the liquidus. Specifically, Ca and Al enrichment with decreas- ing magnesium number in clinopyroxene grains with Mg#cpx 84.5–90.0 suggests fractionation of olivine and clinopyroxene in approximately equal amounts, and the decrease in Ca and Al, which indicates si- multaneous plagioclase fractionation from the host melt, is only seen in clinopyroxene grains with Mg#cpx<84.5 (Figure 4c and d). Variation in crystal- lization conditions (T and P) or disequilibrium crys- tallization processes are unlikely to explain this com- positional variation because of the unchanged Jd con- tent in clinopyroxene cores (Figure 4e), which should be dependent on pressure, temperature and crystal- lization rate (e.g., Mollo et al., 2010; Hammer et al., 2016; Welsch et al., 2016; Ubide et al., 2019). More- over, rapid disequilibrium crystallization is expected to produce anti-correlation between Ca and Al (Mollo et al. 2010), contrary to what is seen in our clinopy- roxene data (Figures 4c and d). MORB melts typically crystallize in the sequence of olivine (±spinel) –> olivine + plagioclase –> olivine + plagioclase + clinopyroxene, leaving be- hind troctolitic or gabbroic cumulates, not wehrlite cumulates, such as in the case of the Brattaskjól and Hvammsmúli ankaramites. In addition, due to the late arrival of clinopyroxene as a crystallizing phase, the most primitive clinopyroxene produced in MORB crystallization experiments typically has Mg#cpx of ∼83 (Grove and Bryan, 1983; Tormey et al., 1987; Yang et al., 1996), not Mg#cpx 90 like in Bratta- skjól ankaramite. Geochemical trends indicative of clinopyroxene fractionation before plagioclase have been noted from lavas in SEVZ and other parts of Iceland (Furman et al., 1991; Thy, 1991a; Maclen- nan et al., 2001; Mattsson and Oskarsson, 2005), and some Iceland lavas do host high-Mg# clinopyroxene (up to Mg#cpx 92 in Borgarhraun lava, Winpenny and Maclennan 2011). In this regard, our findings are in line with earlier studies. Anyhow, clinopyroxene frac- tionation from primitive SEVZ lavas has usually been regarded as indicative of high (>8 kbar) crystallization pressures near Moho or at upper mantle depths (Fur- man et al., 1991; Thy, 1991a, b; Mattsson and Oskars- son, 2005), as the stability of clinopyroxene increases with pressure (Presnall et al., 1978, 2002; Stolper, 1980). The calculated 3.0±1.4 kbar crystallization pressures for the primitive Brattaskjól and Hvamms- múli clinopyroxene macrocrysts (up to Mg#cpx 87) contradicts this contention and suggest that the mildly alkaline SEVZ magmas crystallized clinopyroxene and olivine before plagioclase at depths as shallow as in the mid-crust. This inference is supported by, and is in line with, recent experimental work that shows that "enriched end-member" (Shorttle and Maclen- nan, 2011) Iceland tholeiite melt crystallized clinopy- roxene before plagioclase at 3 kbar (Neave et al., 2019b). Elevated H2O in primitive SEVZ magmas (Thy, 1991a; Moune et al., 2012) and low amounts of JÖKULL No. 69, 2019 97
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