Tsunami or storm? A high-level coastal boulder field on the southern tip of Eyre Peninsula, South Australia

IF 1.2 4区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY

Australian Journal of Earth Sciences Pub Date : 2023-11-02 DOI:10.1080/08120099.2023.2272678

R. P. Bourman, C. V. Murray-Wallace, D. Panda, S. Buckman, D. Banerjee, D. D. Ryan, L. T. White

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引用次数: 0

Abstract

A high-level coastal boulder field at Whalers Way, southern Eyre Peninsula, South Australia, occurs at elevations of 20–30 m above present sea-level on a gently seaward-sloping, karst-weathered calcrete-capped structural bench, formed on the Upper Pleistocene Bridgewater Formation and underlying Carnot Gneisses (Archean–Paleoproterozoic Sleaford Complex). More than 1000 ex situ boulders, cobbles and pebbles of gneiss and mafic igneous rocks, as well as fragments of calcrete, occur within the boulder field and cover an area >6000 m2. All the crystalline rock clasts are derived locally from bedrock outcrops along the adjacent coastline, where metasedimentary granulite-facies of the Carnot Gneisses crop out along shore platforms and their backing cliffs, close to present sea-level. The boulder field is younger than Marine Isotope Sub-Stage 5a (MIS 5a; ca 80 ka) based on amino acid racemisation ‘whole-rock’ analyses of calcarenite of the Bridgewater Formation, which forms the calcrete bench on which the boulder field rests. The boulder field wraps around the western extremity of cliff-top dunes dated at 18–17 ka by optically stimulated luminescence, implying that the boulder deposit post-dates the formation of the cliff-top dunes. Given that the clasts in the boulder field show minimal weathering rinds, sea-level during the Last Glacial Maximum was some 125 m lower than present and that between 80 and 7 ka ago, sea-level never attained present levels within the region, emplacement of the boulder field by a high-energy wave event in the Holocene highstand, following the 7000 years BP culmination of post-Glacial sea-level rise, is suggested. Storm waves, rather than a tsunami, most likely explain the emplacement of the boulder field.

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海啸还是风暴?位于南澳大利亚艾尔半岛南端的高水平海岸巨石场

南澳大利亚Eyre半岛南部的Whalers Way有一个高水平的海岸巨石场，位于海拔20-30米的海面上，形成于上更新世Bridgewater组和卡诺片岩(太古宙-古元古代Sleaford杂岩)下的一个缓慢向海倾斜的岩溶风化钙质盖层构造台地。在巨石场内，有1000多个片麻岩和基性火成岩的非原位巨石、鹅卵石和鹅卵石，以及钙质碎片，占地面积超过6000平方米。所有的结晶岩石碎屑都来自邻近海岸线的基岩露头，卡诺片麻岩的变质沉积岩麻粒岩相沿着海岸台地及其背后的悬崖生长，接近现在的海平面。岩石田比海洋同位素5a亚阶段(MIS 5a)年轻;大约80 ka)，基于桥水组钙砾岩的氨基酸外消旋“全岩”分析，桥水组形成了巨石场所在的钙砾岩台阶。根据光激发光法测定，崖顶沙丘的形成时间为18 ~ 17 ka，在其西端包裹着砾石场，表明该砾石沉积时间晚于崖顶沙丘的形成。考虑到末次盛冰期的海平面比现在低125 m，而80 ~ 7 ka以前，该地区的海平面从未达到现在的水平，因此，在距今7000年的冰期后海平面上升高潮之后，全新世高地发生了一次高能波事件，导致了巨石场的就位。风暴波，而不是海啸，最有可能解释巨石场的位置。

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来源期刊

Australian Journal of Earth Sciences 地学-地球科学综合

CiteScore

2.80

自引率

8.30%

发文量

审稿时长

6-12 weeks

期刊介绍： Australian Journal of Earth Sciences publishes peer-reviewed research papers as well as significant review articles of general interest to geoscientists. The Journal covers the whole field of earth science including basin studies, regional geophysical studies and metallogeny. There is usually a thematic issue each year featuring a selection of papers on a particular area of earth science. Shorter papers are encouraged and are given priority in publication. Critical discussion of recently published papers is also encouraged.