澳大利亚东海岸Tuggerah湖河口发展的全新世记录:沉积对海平面波动和气候变率的响应

GeoResJ Pub Date : 2015-03-01 DOI:10.1016/j.grj.2015.01.002
Peter I. Macreadie , Timothy C. Rolph , Claudia Schröder-Adams , Ron Boyd , Charles G. Skilbeck
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引用次数: 6

摘要

本文研究了澳大利亚东南海岸图格拉湖堰洲河口全新世古环境记录,以确定局部、区域和全球环境变化对河口发育的影响。利用多代理方法,我们确定了沉积物岩心的显著下核变化与海平面上升和区域气候变化有关。在冰期后海侵期间,随着先前陆地表面的侵蚀,沉积物在距今约8500年前开始在更靠海的位置积聚,比屏障就位早约1500年,比向陆点早约4000年。向陆点沉积物堆积的延迟是在屏障就位前受到波浪作用的结果,也是在全新世中期屏障就位后河水流速高的结果。由于全新世中期河流流量的减少,加上海平面的适度下降,湖泊在距今约4000年经历了重大变化。连接湖泊和海洋的入口通道周期性地收缩,在河流和海洋主导的条件间隔之间产生循环交替。总体而言,本研究对图格拉湖的物理演化进行了详细的、多代理的调查,其中包括影响河口发育的环境过程。
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Holocene record of Tuggerah Lake estuary development on the Australian east coast: Sedimentary responses to sea-level fluctuations and climate variability

We investigated the Holocene palaeo-environmental record of the Tuggerah Lake barrier estuary on the south-east coast of Australia to determine the influence of local, regional and global environmental changes on estuary development. Using multi-proxy approaches, we identified significant down-core variation in sediment cores relating to sea-level rise and regional climate change. Following erosion of the antecedent land surface during the post-glacial marine transgression, sediment began to accumulate at the more seaward location at ∼8500 years before present, some 1500 years prior to barrier emplacement and ∼4000 years earlier than at the landward site. The delay in sediment accumulation at the landward site was a consequence of exposure to wave action prior to barrier emplacement, and due to high river flows of the mid-Holocene post-barrier emplacement. As a consequence of the mid-Holocene reduction in river flows, coupled with a moderate decline in sea-level, the lake experienced major changes in conditions at ∼4000 years before present. The entrance channel connecting the lake with the ocean became periodically constricted, producing cyclic alternation between intervals of fluvial- and marine-dominated conditions. Overall, this study provides a detailed, multi-proxy investigation of the physical evolution of Tuggerah Lake with causative environmental processes that have influenced development of the estuary.

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