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Quartz zoning and the pre-eruptive evolution of the ~340-ka Whakamaru magma systems, New Zealand

Authors :
Colin J. N. Wilson
Vincent J. van Hinsberg
Christian Huber
N. E. Matthews
David M. Pyle
Victoria C. Smith
Source :
Contributions to Mineralogy and Petrology. 163:87-107
Publication Year :
2011
Publisher :
Springer Science and Business Media LLC, 2011.

Abstract

Cathodoluminescence (CL) zoning in quartz crystals from rhyolitic pumices in two ignimbrite members of the ~340-ka Whakamaru super-eruption deposits, Taupo Volcanic Zone, New Zealand, is investigated in conjunction with the analysis of Ti concentration in quartz to reconstruct the history of changing magma chamber conditions and to elucidate the eruption-triggering processes. CL intensity images are taken as a proxy for Ti concentration and thus temperature and/or pressure and/or compositional variations during crystal growth history. Estimates of the maximum temperature changes (i.e., assuming other factors influencing Ti uptake remain constant) are made using the TitaniQ geothermometer based on the Ti concentration in quartz. These results are reviewed in comparison with Fe–Ti oxide, feldspar-melt and amphibole geothermometry. Core-to-rim quartz Ti profiles record a marked change in conditions (temperature increase and/or pressure decrease and/or change in melt composition) causing and then following a significant resorption horizon in the outer parts of the crystals. Two alternative models that could explain the quartz Ti zonation invoke a temperature increase caused by mafic recharge and/or a pressure decrease due to magma ponding and re-equilibration at shallow crustal levels. Concomitant changes in melt composition and Ti activity may, however, also have strongly influenced Ti uptake into the quartz. Some crystals also show other marked increases in CL brightness internally, but any accompanying magmatic changes did not result in eruption. Diffusion modelling indicates that this significant change in conditions occurred over ~10–85 years prior to caldera-forming eruption. This rapid thermal pulse or pressure change is interpreted as evidence for open-system processes, and appears to record a magma chamber recharge event that rejuvenated the Whakamaru magma system (melt-dominant magma plus crystal mush), and potentially acted as a trigger for processes that led to eruption.

Details

ISSN :
14320967 and 00107999
Volume :
163
Database :
OpenAIRE
Journal :
Contributions to Mineralogy and Petrology
Accession number :
edsair.doi...........ab583f90b1e1c5c669a02820ee1c38e2
Full Text :
https://doi.org/10.1007/s00410-011-0660-1