Israelite Plain, southwestern Australia, a siliciclastic, late Quaternary Coorong analogue, without dolomite

IF 1.2 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
N. James, J. Clarke, Anita Andrew
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Abstract

Abstract The Israelite Plain, a narrow terrace at the western edge of the Great Australian Bight, is characterised by a series of schizohaline, ephemeral lakes leeward of a marginal marine eolianite dune complex that has many similarities to the Coorong Coastal Plain (CCP). The late Pleistocene and Holocene sediments are a mixture of dominantly quartzose sand and lesser carbonate components. Paleolagoon to shallow marine MIS 5e, mollusc-rich quartzose deposits are capped by calcrete or karst and contain a biota similar to the well-documented, coeval Glanville Formation on the CCP. Holocene sands with minor carbonate are also lagoonal and resemble many modern Coorong Lagoon deposits. Both deposits are interpreted to reflect marine accumulation during sea-level highstands. Lakes today range from dry to water-filled with most floored by calcareous quartzose sand. Microbial influenced sedimentary structures in the form of pustular to laminated mats veneer lake margin bedrock and sediment. Carbonate minerals are mostly calcite with abundant accessory magnesium-calcite, aragonite and traces of magnesite, monohydrocalcite and halite. Gypsum is minor but ubiquitous and floors one of the smaller, marginal-marine lakes. Although having a similar evaporative climate and evidence of groundwater resurgence like Coorong lakes, there is no significant synsedimentary dolomite. This aspect is interpreted to reflect the narrow width of the plain, and the Mg-poor source of groundwater from the nearby karst Nullarbor Plain to the north. The Israelite Plain, together with other coeval, young successions marginal to the Southern Ocean under a semiarid climate now illustrate the depositional variations and early diagenetic differences that can occur in similar environments adjacent to a cool ocean. KEY POINTS The Israelite Plain is a narrow, marginal marine terrace covered by Quaternary, lagoonal, eolian to lacustrine, calcareous siliciclastic sands, similar to several other calcareous terraces along the southern Australia coast. The interpreted sediment ages are late Pleistocene stage MIS 5e with the deposit sporadically overlain by similar Holocene deposits. Most 14C age dates are suspicious because of interpreted diagenesis or MIS 5e age, whereas U/Th age dates appear correct or altered by diagenesis. Pleistocene biota is dominated by the bivalve Anadara trapezia, whereas Holocene deposits contain a varied array of cooler water molluscs. The carbonates are similar to those on the Coorong Coastal Plain but do not contain any dolomite likely because of climate and lack of Mg-groundwater flow.
以色列平原,澳大利亚西南部,硅质碎屑,晚第四纪库荣类似物,无白云岩
以色列平原是位于大澳大利亚湾西部边缘的一个狭窄的阶地,其特点是一系列裂盐性的、短暂的湖泊,背风处是边缘海相风成沙丘复合体,与库荣海岸平原(CCP)有许多相似之处。晚更新世-全新世沉积物以石英砂为主,碳酸盐岩成分较少。古生代至浅海MIS 5e,富含软体动物的石英矿床被钙质或岩溶覆盖,其生物群与CCP上记录良好的同时期Glanville组相似。含少量碳酸盐的全新世砂也是泻湖砂,与许多现代库荣泻湖矿床相似。这两种沉积物被解释为反映海平面高水位期间的海洋堆积。今天的湖泊从干燥到充满水,大部分由钙质石英砂覆盖。微生物对沉积构造的影响主要表现为湖缘基岩和沉积物的脓疱状到层状垫层。碳酸盐矿物以方解石为主,辅之有丰富的镁方解石、文石及微量的菱镁矿、单水方解石和岩盐。石膏数量很少,但无处不在,覆盖着一个较小的边缘海洋湖泊。虽然具有与库容湖相似的蒸发气候和地下水回潮的证据,但没有明显的同沉积白云岩。这方面的解释反映了平原的狭窄宽度,以及从附近的喀斯特纳拉伯平原向北的贫镁地下水来源。以色列平原,连同其他同时期的,在半干旱气候下的南大洋边缘的年轻演替,现在说明了沉积变化和早期成岩差异,这些变化和早期成岩差异可能发生在靠近凉爽海洋的类似环境中。以色列平原是一个狭窄的边缘海相阶地,覆盖着第四纪、泻湖、风成湖、钙质硅质碎屑砂,类似于澳大利亚南部海岸的其他几个钙质阶地。解释的沉积年代为晚更新世MIS 5e,沉积层上偶有类似的全新世沉积层覆盖。由于解释成岩作用或MIS 5e年龄,大多数14C年龄日期是可疑的,而U/Th年龄日期似乎是正确的或因成岩作用而改变。更新世生物群以双壳类Anadara trapezia为主,而全新世沉积物则包含各种各样的冷水软体动物。这些碳酸盐岩与库容滨海平原的碳酸盐岩相似,但不含白云岩,这可能是由于气候和缺乏mg -地下水流动所致。
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来源期刊
Australian Journal of Earth Sciences
Australian Journal of Earth Sciences 地学-地球科学综合
CiteScore
2.80
自引率
8.30%
发文量
45
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.
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