Abstract
Building super-eruptive magma reservoirs in the cold, upper parts of Earth’s crust requires a significant influx of magma over an extended period, sufficient to allow the magma to accumulate, differentiate and periodically erupt. Some models favour magma storage in a cold non-eruptible state, requiring extensive reactivation of the reservoirs before eruption, whereas others suggest storage at higher temperature and lower crystallinity, implying that magma in such reservoirs is readily eruptible. Consequently, constraining volcanic hazards requires observations directly linking magma residence timescales to the thermal state and crystallinity of storage. Here we simultaneously determine crystallization temperatures and ages of magmatic crystals of zircon and titanite in the 900 km3 Kneeling Nun Tuff (New Mexico, USA), which allows us to place tight constraints on the long-term thermal evolution of the magma reservoir. We show that zircon and titanite crystals record more than 600,000 years of magma assembly and constrain the dominant storage conditions to low temperatures, set between the granitic solidus (680 to 700 °C) and the temperature of the onset of titanite crystallization (about 720 to 730 °C). We apply the zircon–titanite systematics to a suite of other super-eruptions and suggest that protracted low-temperature storage culminating in late-stage reheating is a widespread feature of large crystal-rich eruptions.
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Acknowledgements
This work was supported by Swiss National Science Foundation grant 200021_155923. J.F.W. acknowledges support through the ETH Zurich Postdoctoral Fellowship Program. The authors are grateful to J. Sliwinski for FCT and MPT zircon trace element data and Y. Buret for help with Hf isotopic analyses. Special thanks are due to C. Klemp and K. Cook from Freeport-McMoRan Inc. for facilitating access to outcrops near Chino Mine, New Mexico.
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D.S. and B.S.E. designed the study; D.S., J.F.W. and M.G. performed the analyses; A.v.Q. provided access to laboratory and analytical facilities; D.S., J.F.W., B.S.E. and O.B. co-wrote the manuscript; all authors contributed to interpretation and analysis of the data.
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Szymanowski, D., Wotzlaw, JF., Ellis, B. et al. Protracted near-solidus storage and pre-eruptive rejuvenation of large magma reservoirs. Nature Geosci 10, 777–782 (2017). https://doi.org/10.1038/ngeo3020
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DOI: https://doi.org/10.1038/ngeo3020
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