Brlek, Mihovil, Trinajstić, Nina, Gaynor, Sean P., Kutterolf, Steffen , Hauff, Folkmar , Schindlbeck-Belo, Julie , Šuica, Sanja, Wang, Kuo-Lung, Lee, Hao-Yang, Watts, Elena, Georgiev, Svetoslav V., Brčić, Vlatko, Špelić, Marko, Mišur, Ivan, Kukoč, Duje, Schoene, Blair and Lukács, Réka (2024) Spread and frequency of explosive silicic volcanism of the Carpathian-Pannonian Region during Early Miocene: Clues from the SW Pannonian Basin and the Dinarides. Journal of Volcanology and Geothermal Research, 455 . Art.Nr. 108215. DOI 10.1016/j.jvolgeores.2024.108215.

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Abstract

Highlights

• Volcanic history of the Carpathian-Pannonian Region during Early Miocene is refined.
• Distal Dinaridic fallout tuffs mark the regionally blanketing volcanism at ~17.3 Ma.
• Caldera-forming ~17.1 Ma ignimbrites show a wide spread across the region.
• Distal ashfalls suggest multiple eruptive events during ~16.8–17.0 Ma.
• Larger spread, volume and frequency of ignimbrite-forming eruptions is implied.

Abstract

Explosive silicic volcanism of the Carpathian-Pannonian Region (CPR) is increasingly recognized as the primary source of tephra across the Alpine-Mediterranean region during the Early and Middle Miocene. However, the tephrostratigraphic framework for this period of volcanic activity is still incomplete. We present new multi-proxy data from Lower Miocene ignimbrites and tephra fallout deposits from the southwestern CPR and the Dinaride Lake System and integrate them into existing datasets to better resolve the regional extent and scale of these eruptions of the CPR. Volcanic glass geochemistry indicates distal fallout tuffs deposited in the Sinj Basin are correlative with the proximal Ostoros ignimbrites from the Bükkalja Volcanic Field, indicative of regionally extensive volcanism at 17.295 ± 0.028 Ma, based on CA-ID-TIMS Usingle bondPb zircon geochronology. Based on integrated tephrostratigraphic data, newly identified 17.064 ± 0.010 Ma massive rhyolitic ignimbrite deposits from the Kalnik Volcaniclastic Complex located in the southwestern CPR are correlative with the 17.062 ± 0.010 Ma Mangó massive ignimbrite found in the Bükkalja Volcanic Field located in the northern CPR. Based on these new observations of its potential areal distribution and estimated thicknesses, these two widespread ~17.1 Ma ignimbrites represent intermediate to large caldera-forming ignimbrites, larger than previously suggested. Finally, volcanic glass geochemistry of fallout deposits from the Dinaridic Sinj and Livno-Tomislavgrad Basins have similar volcanic glass geochemistry as the rhyolitic pumices from the lowermost part of the Bogács ignimbrite unit of the Bükkalja Volcanic Field. However, high-precision geochronology indicates that these distal ashfalls were deposited at 16.9567 ± 0.0074 Ma, significantly predating the 16.824 ± 0.028 Ma emplacement of the fiamme-bearing part of the Bogács ignimbrite. These distinct ages suggest that the Bogács unit represents multiple eruptive events and indicating that further work is required to deconvolve this portion of the CPR volcanic record. Together, these data suggest that large volume CPR ignimbrite volcanism was more frequent and widespread than previously understood, enhancing the existing volcanic framework and history of the source region for this time period.

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