Foredune morphology: Regional patterns and surfzone–beach–dune interactions along the New South Wales coast, Australia

IF 2.8 3区 地球科学 Q2 GEOGRAPHY, PHYSICAL
Thomas B. Doyle, Patrick A. Hesp, Colin D. Woodroffe
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Abstract

Foredunes constitute a fundamental part of the coastal environment, acting as a buffer against storm erosion and natural coastal defence. Foredune size and volume play a pivotal role in determining coastal vulnerability to marine hazards, and the governing processes driving variations in foredune morphology, particularly over regional, or larger spatial scales, are still relatively poorly understood. This paper presents a regional-scale investigation into foredune morphology along the New South Wales (NSW) coast (SE Australia), comprising not only a state-wide inventory of foredune morphology for use in management/hazard assessment, but also testing long-standing hypotheses and conceptual models of the physical processes that are driving, or influencing, foredune size. We applied a remote sensing protocol to 47 foredune environments, covering the length of the NSW coastline, comparing morphology (including dune height, width, shape, and volume) of established and incipient foredunes both along, and between, sandy embayments. Results, at regional spatial scales, show that the largest foredunes (volumes up to 850 m3 m−1) occur along the central coast as large, steep landforms; intermediate-sized dunes (550–650 m3 m−1) were found on both the Mid-north and Far North coast, and the smallest foredunes (334–380 m3 m−1) occur on the south coast as wider dunes with steep stoss slopes. Surfzone–beach state was found to be the most significant factor influencing foredune size and volume. The more energetic and more dissipative/high-energy intermediate surfzone–beach states were correlated with larger foredunes (i.e. greater dune volume, width and crest elevation), whereas the lower-energy surfzone–beach states generally had smaller dunes. Changes in vegetation cover, shoreline orientation and associated onshore (and alongshore) wind systems were also demonstrated to be important factors in determining foredune morphology. The largest foredunes in NSW generally occur to the north of embayments, with dune size decreasing southward with decreasing exposure to wind/wave energy.

Abstract Image

前沿沙丘形态:澳大利亚新南威尔士海岸的区域模式和冲浪区-海滩-沙丘之间的相互作用
前丘是海岸环境的基本组成部分,是抵御风暴侵蚀和天然海岸防御的缓冲区。前沙丘的大小和体积在决定海岸对海洋灾害的脆弱性方面起着举足轻重的作 用,但人们对前沙丘形态变化,特别是区域或更大空间尺度上的前沙丘形态变化的主 导过程还知之甚少。本文介绍了对新南威尔士海岸(澳大利亚东南部)前沙丘形态的区域尺度调查,不仅包括用于管理/灾害评估的全州前沙丘形态清单,而且还检验了长期以来关于驱动或影响前沙丘大小的物理过程的假设和概念模型。我们对 47 个前沙丘环境采用了遥感方案,覆盖了新南威尔士州海岸线的长度,比较了沙堤沿线和沙堤之间已建成和初建前沙丘的形态(包括沙丘高度、宽度、形状和体积)。区域空间尺度的研究结果表明,最大的前沙丘(体积达 850 立方米-1)出现在中部海岸,为大型陡峭地貌;中等大小的沙丘(550-650 立方米-1)出现在中北部和极北部海岸,最小的前沙丘(334-380 立方米-1)出现在南部海岸,为具有陡峭斜坡的较宽沙丘。研究发现,冲浪区-海滩状态是影响前沙丘大小和体积的最重要因素。能量较高和耗散较强/能量较高的中间冲浪区-海滩状态与较大的前沙丘(即较大的沙丘体积、宽度和峰顶高度)相关,而能量较低的冲浪区-海滩状态一般具有较小的沙丘。植被变化、海岸线走向以及相关的陆上(和沿岸)风系统也被证明是决定前沙丘形态的重要因素。新南威尔士州最大的前沙丘一般出现在海湾北部,沙丘面积随着受风能/波能影响的程度减小而向南减小。
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来源期刊
Earth Surface Processes and Landforms
Earth Surface Processes and Landforms 地学-地球科学综合
CiteScore
6.40
自引率
12.10%
发文量
215
审稿时长
4 months
期刊介绍: Earth Surface Processes and Landforms is an interdisciplinary international journal concerned with: the interactions between surface processes and landforms and landscapes; that lead to physical, chemical and biological changes; and which in turn create; current landscapes and the geological record of past landscapes. Its focus is core to both physical geographical and geological communities, and also the wider geosciences
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