Iron isotopic evolution during fractional crystallization of the uppermost Bushveld Complex layered mafic intrusion

Bilenker Laura D.; VanTongeren Jill A.; Lundstrom Craig C.Simon Adam C.

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Iron isotopic evolution during fractional crystallization of the uppermost Bushveld Complex layered mafic intrusion

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We present delta Fe-56 (Fe-56/Fe-54 relative to standard IRMM-014) data from whole rock and magnetite of the Upper and Upper Main Zones (UUMZ) of the Bushveld Complex. With it, we assess the role of fractional crystallization in controlling the Fe isotopic evolution of a mafic magma. The UUMZ evolved by fractional crystallization of a dry tholeiitic magma to produce gabbros and diorites with cumulus magnetite and fayalitic olivine. Despite previous experimental work indicating a potential for magnetite crystallization to drastically change magma delta Fe-56, we observe no change in whole rock delta Fe-56 above and below magnetite saturation. We also observe no systematic change in whole rock delta Fe-56 with increasing stratigraphic height, and only a small variation in delta Fe-56 in magnetite separates above magnetite saturation. Whole rock d56Fe (errors twice standard deviation, +/- 2 sigma) throughout the UUMZ ranges from -20.01 +/- 0.03 parts per thousand to 0.21 +/- 0.09 parts per thousand (delta Fe-56(averageWR) =0.10 +/- 0.09 parts per thousand; n = 21, isotopically light outlier: delta Fe-56(WR) = -0.15 parts per thousand), and magnetites range from 0.28 +/- 0.04 parts per thousand to 0.86 +/- 0.07 parts per thousand(delta Fe-56(averageMgt) = 0.50 +/- 0.15 parts per thousand; n = 20), similar to values previously reported for other layered intrusions. We compare our measured delta(FeWR)-Fe-56 to a model that incorporates the changing normative mineralogy, calculated temperatures, and published fractionation factors of Fe-bearing phases throughout the UUMZ and produces delta(FeWR)-Fe-56 values that evolve only in response to fractional crystallization. Our results show that the Fe isotopic composition of a multiply saturated (multiple phases on the liquidus) magma is unlikely to change significantly during fractional crystallization of magnetite due to the competing fractionation of other Fe-bearing cumulus phases.

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《Geochemistry, geophysics, geosystems》 |2017年第3期|956-972|共17页
作者
Bilenker Laura D.; VanTongeren Jill A.; Lundstrom Craig C.Simon Adam C.;
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Rutgers State Univ, Dept Earth & Planetary Sci, Wright Geol Lab 343, Piscataway, NJ USA;

Univ Illinois, Dept Geol, Champaign, IL 61820 USA;

Univ Michigan, Dept Earth & Environm Sci, Ann Arbor, MI 48109 USA;

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中图分类地球物理学;
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Iron isotopic evolution during fractional crystallization of the uppermost Bushveld Complex layered mafic intrusion

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