中新世早期喀尔巴阡山-潘诺尼亚地区爆炸性硅质火山活动的扩散和频率:来自潘诺尼亚盆地西南部和迪纳利山脉的线索

IF 2.4 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY
Mihovil Brlek , Nina Trinajstić , Sean P. Gaynor , Steffen Kutterolf , Folkmar Hauff , Julie Schindlbeck-Belo , Sanja Šuica , Kuo-Lung Wang , Hao-Yang Lee , Elena Watts , Svetoslav V. Georgiev , Vlatko Brčić , Marko Špelić , Ivan Mišur , Duje Kukoč , Blair Schoene , Réka Lukács
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引用次数: 0

摘要

人们越来越认识到,喀尔巴阡山-潘诺尼亚地区(CPR)的爆发性硅质火山活动是整个阿尔卑斯山-地中海地区早、中新世时期的主要表壳来源。然而,这一时期火山活动的表层构造框架仍不完整。我们展示了来自 CPR 西南部和 Dinaride 湖系的下中新世点火岩和火山灰沉积物的新的多代理数据,并将其整合到现有数据集中,以更好地解析 CPR 这些火山爆发的区域范围和规模。根据 CA-ID-TIMS UPb 锆石地质年代学,火山玻璃地球化学研究表明,沉积在 Sinj 盆地的远端落灰凝灰岩与来自 Bükkalja 火山岩场的近端 Ostoros 火成岩具有相关性,表明在 17.295 ± 0.028 Ma 发生过区域性大范围火山活动。根据综合表层构造数据,从位于中央太平洋火山群西南部的卡尔尼克火山碎屑岩群中新发现的 17.064 ± 0.010 Ma 块状流纹状火云母沉积与位于中央太平洋火山群北部的 Bükkalja 火山岩场中发现的 17.062 ± 0.010 Ma Mangó 块状火云母具有相关性。根据对其潜在区域分布和估计厚度的这些新观察结果,这两个广泛分布的 ∼17.1 Ma 火成岩代表了中型到大型的火山口形成火成岩,比以前认为的要大。最后,Dinaridic Sinj 和 Livno-Tomislavgrad 盆地沉积物的火山玻璃地球化学与 Bükkalja 火山带 Bogács 火成岩单元最下部的流纹岩浮渣的火山玻璃地球化学相似。然而,高精度地质年代学表明,这些远端灰屑沉积于 16.9567 ± 0.0074 Ma,大大早于 Bogács 火成岩含岩部分的 16.824 ± 0.028 Ma。这些不同的年龄表明,Bogács单元代表了多次喷发事件,并表明需要进一步的工作来解构CPR火山记录的这一部分。这些数据共同表明,大体积 CPR 火成岩火山活动比以前所了解的更为频繁和广泛,从而加强了这一时期源区现有的火山框架和历史。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Spread and frequency of explosive silicic volcanism of the Carpathian-Pannonian Region during Early Miocene: Clues from the SW Pannonian Basin and the Dinarides

Spread and frequency of explosive silicic volcanism of the Carpathian-Pannonian Region during Early Miocene: Clues from the SW Pannonian Basin and the Dinarides
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 UPb 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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来源期刊
CiteScore
5.90
自引率
13.80%
发文量
183
审稿时长
19.7 weeks
期刊介绍: An international research journal with focus on volcanic and geothermal processes and their impact on the environment and society. Submission of papers covering the following aspects of volcanology and geothermal research are encouraged: (1) Geological aspects of volcanic systems: volcano stratigraphy, structure and tectonic influence; eruptive history; evolution of volcanic landforms; eruption style and progress; dispersal patterns of lava and ash; analysis of real-time eruption observations. (2) Geochemical and petrological aspects of volcanic rocks: magma genesis and evolution; crystallization; volatile compositions, solubility, and degassing; volcanic petrography and textural analysis. (3) Hydrology, geochemistry and measurement of volcanic and hydrothermal fluids: volcanic gas emissions; fumaroles and springs; crater lakes; hydrothermal mineralization. (4) Geophysical aspects of volcanic systems: physical properties of volcanic rocks and magmas; heat flow studies; volcano seismology, geodesy and remote sensing. (5) Computational modeling and experimental simulation of magmatic and hydrothermal processes: eruption dynamics; magma transport and storage; plume dynamics and ash dispersal; lava flow dynamics; hydrothermal fluid flow; thermodynamics of aqueous fluids and melts. (6) Volcano hazard and risk research: hazard zonation methodology, development of forecasting tools; assessment techniques for vulnerability and impact.
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