TephraNZ: a major- and trace-element reference dataset for glass-shard analyses from prominent Quaternary rhyolitic tephras in New Zealand and implications for correlation

IF 2.7 Q2 GEOCHEMISTRY & GEOPHYSICS
J. Hopkins, Janine E. Bidmead, D. Lowe, R. Wysoczanski, B. Pillans, L. Ashworth, A. Rees, F. Tuckett
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引用次数: 15

Abstract

Abstract. Although analyses of tephra-derived glass shards have been undertaken in New Zealand for nearly four decades (pioneered by Paul Froggatt), our study is the first to systematically develop a formal, comprehensive, open-access reference dataset of glass-shard compositions for New Zealand tephras. These data will provide an important reference tool for future studies to identify and correlate tephra deposits and for associated petrological and magma-related studies within New Zealand and beyond. Here we present the foundation dataset for TephraNZ, an open-access reference dataset for selected tephra deposits in New Zealand. Prominent, rhyolitic, tephra deposits from the Quaternary were identified, with sample collection targeting original type sites or reference locations where the tephra's identification is unequivocally known based on independent dating and/or mineralogical techniques. Glass shards were extracted from the tephra deposits, and major- and trace-element geochemical compositions were determined. We discuss in detail the data reduction process used to obtain the results and propose that future studies follow a similar protocol in order to gain comparable data. The dataset contains analyses of glass shards from 23 proximal and 27 distal tephra samples characterising 45 eruptive episodes ranging from Kaharoa (636 ± 12 cal yr BP) to the Hikuroa Pumice member (2.0 ± 0.6 Ma) from six or more caldera sources, most from the central Taupō Volcanic Zone. We report 1385 major-element analyses obtained by electron microprobe (EMPA), and 590 trace-element analyses obtained by laser ablation (LA)-ICP-MS, on individual glass shards. Using principal component analysis (PCA), Euclidean similarity coefficients, and geochemical investigation, we show that chemical compositions of glass shards from individual eruptions are commonly distinguished by major elements, especially CaO, TiO2, K2O, and FeOtt (Na2O+K2O and SiO2/K2O), but not always. For those tephras with similar glass major-element signatures, some can be distinguished using trace elements (e.g. HFSEs: Zr, Hf, Nb; LILE: Ba, Rb; REE: Eu, Tm, Dy, Y, Tb, Gd, Er, Ho, Yb, Sm) and trace-element ratios (e.g. LILE/HFSE: Ba/Th, Ba/Zr, Rb/Zr; HFSE/HREE: Zr/Y, Zr/Yb, Hf/Y; LREE/HREE: La/Yb, Ce/Yb). Geochemistry alone cannot be used to distinguish between glass shards from the following tephra groups: Taupō (Unit Y in the post-Ōruanui eruption sequence of Taupō volcano) and Waimihia (Unit S); Poronui (Unit C) and Karapiti (Unit B); Rotorua and Rerewhakaaitu; and Kawakawa/Ōruanui, and Okaia. Other characteristics, including stratigraphic relationships and age, can be used to separate and distinguish all of these otherwise-similar tephra deposits except Poronui and Karapiti. Bimodality caused by K2O variability is newly identified in Poihipi and Tahuna tephras. Using glass-shard compositions, tephra sourced from Taupō Volcanic Centre (TVC) and Mangakino Volcanic Centre (MgVC) can be separated using bivariate plots of SiO2/K2O vs. Na2O+K2O. Glass shards from tephras derived from Kapenga Volcanic Centre, Rotorua Volcanic Centre, and Whakamaru Volcanic Centre have similar major- and trace-element chemical compositions to those from the MgVC, but they can overlap with glass analyses from tephras from Taupō and Okataina volcanic centres. Specific trace elements and trace-element ratios have lower variability than the heterogeneous major-element and bimodal signatures, making them easier to fingerprint geochemically.
TephraNZ:新西兰著名第四纪流纹岩tephras玻璃碎片分析的主要和痕量元素参考数据集及其相关性含义
摘要尽管在新西兰对tephras衍生玻璃碎片的分析已经进行了近四十年(由Paul Froggatt首创),但我们的研究是第一个系统地开发一个正式的,全面的,开放获取的新西兰tephras玻璃碎片成分参考数据集。这些数据将为今后在新西兰及其他地区识别和关联热液矿床以及相关岩石学和岩浆相关研究提供重要的参考工具。在这里,我们展示了TephraNZ的基础数据集,这是一个开放获取的参考数据集,用于新西兰选定的麻药矿床。通过独立的年代测定和/或矿物学技术,确定了第四纪突出的流纹岩麻黄矿床,并收集了针对原始类型遗址或参考地点的样品,在这些地点,麻黄的鉴定是明确的。提取了玻璃碎片,测定了主要元素和微量元素地球化学组成。我们详细讨论了用于获得结果的数据简化过程,并建议未来的研究遵循类似的协议,以获得可比较的数据。该数据集包含对来自23个近端和27个远端样品的玻璃碎片的分析,这些样品描述了从Kaharoa(636±12 calyr BP)到Hikuroa浮石(2.0±0.6 Ma)的45次喷发,这些喷发来自6个或更多的火山口来源,大部分来自中央taupkivolcaniczone。我们报告了1385个主要元素分析的电子探针(EMPA)和590个微量元素分析的激光烧蚀(LA)-ICP-MS对单个玻璃碎片。通过主成分分析(PCA)、欧几里得相似系数(Euclidean similarity coefficient)和地球化学调查,我们发现单个喷发玻璃碎片的化学成分通常由主要元素区分,特别是CaO、TiO2、K2O和FeOtt (Na2O+K2O和SiO2/K2O),但并非总是如此。对于那些具有类似玻璃主元素特征的tephras,有些可以用微量元素(如hfse: Zr, Hf, Nb;LILE: Ba, Rb;REE: Eu, Tm, Dy, Y, Tb, Gd, Er, Ho, Yb, Sm)和微量元素比率(例如:LILE/HFSE: Ba/Th, Ba/Zr, Rb/Zr;HFSE/HREE: Zr/Y, Zr/Yb, Hf/Y;LREE/HREE: La/Yb, Ce/Yb)。单靠地球化学无法区分以下火山群的玻璃碎片:tauphi (tauphi火山-Ōruanuieruption后序列中的Y单元)和Waimihia (S单元);波罗诺伊(单位)和卡拉皮提(单位B);罗托鲁瓦和雷雷瓦卡伊图;kawakawa /Ōruanui和Okaia。除了Poronui和Karapiti外,其他特征,包括地层关系和年龄,可以用来区分和区分其他相似的热砾岩矿床。在Poihipi和tahuna tephras中新发现了由K2O变异引起的双峰性。利用玻璃碎片组成,可以利用SiO2/K2O vs.Na2O+K2O的二元图对来自mtaupkio火山中心(TVC)和Mangakino火山中心(MgVC)的tephra进行分离。来自kapenga火山中心、Rotorua火山中心和Whakamaru火山中心的tephras的玻璃碎片与来自gvc的tephras的玻璃碎片具有相似的主要和微量元素化学成分,但它们可以与来自taupku和dokataina火山中心的tephras的玻璃分析重叠。特异微量元素和微量元素比值比非均质主元素和双峰特征具有更低的可变性,使其更容易进行地球化学指纹。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Geochronology
Geochronology Earth and Planetary Sciences-Paleontology
CiteScore
6.60
自引率
0.00%
发文量
35
审稿时长
19 weeks
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