Unearthing concealed caldera complexes through geophysical methods: the Cretaceous Bumbeni Complex, South Africa

IF 3.6 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
N. Hicks, E. Chirenje, M. Ncume, L. Hoyer, J. W. Bristow, C. Craill, J. Barkhuizen
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Abstract

Unveiling buried volcanic systems has been made easier through the application of high-resolution geophysical datasets in recent times. This improves the elucidation of systems related to caldera formation and collapse. An early Cretaceous bimodal volcanic suite, the Bumbeni Complex, crops out in a limited region of northern KwaZulu-Natal, South Africa and is dominated by felsic ignimbrites and rhyolitic lavas. However, the extent and evolution of the complex has remained ambiguous as much of the sequence is buried beneath recent sedimentary cover. This study has identified five nested caldera systems forming a caldera complex ~ 20 km in diameter through high-resolution aeromagnetic and radiometric surveys. Individual calderas are resolved by prominent positive and negative anomalies ranging from − 200 to + 300 nT based on International Geomagnetic Reference Field (IGRF) corrected Reduced to Pole (RTP) data. Field evidence and borehole core data indicate that caldera formation was accompanied by voluminous ignimbrite deposition with both intra- and extra-caldera volcaniclastic facies developed. Anomaly D, which represents the only exposed caldera structure within the complex, provides insights into the intrusive and extrusive rock types including syenite and granitic ring dykes, and ignimbrite units, resolved in radiometric data. Geophysical interpretations allow for the construction of an approximate relative-time-sequenced evolutionary model for the complex. Susceptibility modelling of the complex has identified circumferential dykes forming the margins of the calderas with a possible magma reservoir developed at ~ 4 km depth. The identification of silicic caldera systems in this region of southern Africa may have causal affiliations to the initiation and propagation of Gondwana rifting along the emergent northern KwaZulu-Natal margin.

Abstract Image

通过地球物理方法发掘隐蔽的火山口复合体:南非白垩纪布姆贝尼复合体
近来,通过应用高分辨率地球物理数据集,揭示埋藏的火山系统变得更加容易。这有助于阐明与火山口形成和坍塌有关的系统。在南非夸祖鲁-纳塔尔省北部的有限区域内,出现了早白垩世的双峰火山群--班贝尼复合火山群,其中主要是长英质火成岩和流纹岩熔岩。然而,由于该复合体的大部分序列被埋藏在新近的沉积覆盖层之下,其范围和演化一直模糊不清。这项研究通过高分辨率航空磁和辐射测量,确定了五个嵌套的破火山口系统,形成了直径约 20 公里的破火山口群。根据国际地磁参考场(IGRF)校正后的还原到极点(RTP)数据,各个破火山口被范围从-200到+300 nT的显著正负异常所分辨。实地证据和钻孔岩芯数据表明,破火山口的形成伴随着大量的火成岩沉积,同时形成了破火山口内和破火山口外的火山碎屑岩面。异常点 D 是该建筑群内唯一暴露的破火山口结构,它提供了对侵入和外侵入岩石类型(包括正长岩和花岗岩环堤)的深入了解,以及通过辐射测量数据解析的火成岩单元。通过地球物理解释,可以为该建筑群构建一个近似的相对时间序列演化模型。该建筑群的易感性模型确定了形成破火山口边缘的环形堤坝,并可能在约 4 公里深处形成岩浆库。南部非洲这一地区硅质破火山口系统的发现可能与冈瓦纳断裂沿夸祖鲁-纳塔尔省北部新兴边缘的启动和传播有因果关系。
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来源期刊
Bulletin of Volcanology
Bulletin of Volcanology 地学-地球科学综合
CiteScore
6.40
自引率
20.00%
发文量
89
审稿时长
4-8 weeks
期刊介绍: Bulletin of Volcanology was founded in 1922, as Bulletin Volcanologique, and is the official journal of the International Association of Volcanology and Chemistry of the Earth’s Interior (IAVCEI). The Bulletin of Volcanology publishes papers on volcanoes, their products, their eruptive behavior, and their hazards. Papers aimed at understanding the deeper structure of volcanoes, and the evolution of magmatic systems using geochemical, petrological, and geophysical techniques are also published. Material is published in four sections: Review Articles; Research Articles; Short Scientific Communications; and a Forum that provides for discussion of controversial issues and for comment and reply on previously published Articles and Communications.
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