Carbonate Beach Sand of Abaiang Atoll, Kiribati: Geochemistry, Biogenic Sources, and Properties

Q3 Earth and Planetary Sciences

Atoll Research Bulletin Pub Date : 2019-03-20 DOI:10.5479/SI.0077-5630.621

J. Ellison, P. Han, T. Lewis

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引用次数: 3

Abstract

Sandy beaches are critical resources for low-lying Pacific atoll communities, providing protection during storms, and land area for many coastal villages. Information on the nature of atoll beach sediment, its geochemistry and composition, can help to establish priorities to effectively protect the sources of Pacific island beach sediment. To understand sand sources, this study evaluated its physical characteristics including grain-size, geochemistry and composition, from windward and leeward beach profiles around Abaiang Atoll, Kiribati. Beach sand was >99% carbonate, averaging 37% coral fragments, 30% mollusc shells, 12% foraminifera, and 20% calcareous algae. Significant differences were found between reef and lagoonal sites in proportions of coral and mollusc fragments and foraminifera tests, with lagoon beaches having higher mollusc and coral proportions and lower foraminifera relative to reef beaches. This is attributed to high foraminiferal productivity offshore of reef beaches, and taphonomic durability of coral fragments in longshore drift into the lagoon. Mean sediment diameter increased from the upper to lower beaches at all sites, but fine sediment was lacking, attributed to its dissolution by rainfall and groundwater outflow. Geochemical analysis showed a mean of 84% Ca-Mg carbonates, of which 80% was calcium carbonate. There was no significant difference in the mean calcium percentage or calcium carbonate composition of the sediment between lagoon and reef beach sediment sources. Magnesium and magnesium carbonate content were significantly higher at reef sites relative to lagoon sites, attributed to higher proportions of foraminifera. Sediment-producing near shore habitats are critical to village protection through provision of beach sand, and this study shows the need to better conserve and manage coral reefs and habitats such as lagoon seagrass beds, to ensure continued atoll beach sand supply.

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基里巴斯阿巴扬环礁碳酸盐滩砂:地球化学、生物成因及性质

沙滩是低洼的太平洋环礁社区的重要资源，在风暴期间提供保护，也是许多沿海村庄的陆地面积。关于环礁海滩沉积物的性质、地球化学和成分的信息有助于确定优先事项，以有效保护太平洋岛屿海滩沉积物的来源。为了了解沙的来源，本研究根据基里巴斯阿拜昂环礁周围的向风和背风海滩剖面，评估了其物理特征，包括粒度、地球化学和成分。海滩沙中99%以上为碳酸盐，平均37%为珊瑚碎片，30%为软体动物外壳，12%为有孔虫，20%为钙质藻类。珊瑚和软体动物碎片的比例以及有孔虫测试在珊瑚礁和泻湖地点之间发现了显著差异，相对于珊瑚礁海滩，泻湖海滩的软体动物和珊瑚比例较高，有孔虫数量较低。这归因于珊瑚礁海滩近海有孔虫的高生产力，以及沿岸珊瑚碎片漂移到泻湖中的埋藏耐久性。所有地点的平均沉积物直径从上到下海滩都有所增加，但由于其被降雨和地下水流出溶解，因此缺乏细沉积物。地球化学分析显示，平均84%的Ca-Mg碳酸盐，其中80%为碳酸钙。泻湖和礁滩沉积物来源的沉积物的平均钙百分比或碳酸钙组成没有显著差异。与泻湖遗址相比，珊瑚礁遗址的镁和碳酸镁含量显著较高，这归因于有孔虫的比例较高。产生沉积物的近岸栖息地对通过提供海滩沙来保护村庄至关重要，这项研究表明，有必要更好地保护和管理珊瑚礁和泻湖海草床等栖息地，以确保环礁海滩沙的持续供应。

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

Atoll Research Bulletin Earth and Planetary Sciences-Oceanography

CiteScore

1.70

自引率

0.00%

发文量