爱沙尼亚Hiiumaa岛背风处全新世快速后退的滩平原边缘的各种侵蚀指标

Pub Date : 2023-01-01 DOI:10.5200/baltica.2023.1.7
I. Buynevich, H. Tõnisson, Ü. Suursaar, D. Pupienis, Oleksiy V. Davydov, A. Kont, V. Palginõmm, Oliver Koit, Katre Luik
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引用次数: 0

摘要

Lehtma(爱沙尼亚Hiiumaa岛)海岸线上的各种侵蚀特征被用来评估它们的形态动力学背景和保护潜力。全新世沿东(背风)海岸线的滨带平原由于人为引起的泥沙缺失而经历了快速退缩。研究地点位于侵蚀-沉积支点段的上浮位置,南向的海岸运输导致侵蚀砂沿漂流方向堆积。最显著的侵蚀指标是成熟松树在不同阶段的剥蚀、倾倒、破碎和掩埋。形态特征包括古海滩/沙丘脊的陡崖(高度:1 ~ 10 ~ 1 m)和现代的护堤陡崖。矿物学指标以不同厚度(约50 ~ 2 cm)和浓度的重矿物浓度(hmc)为例。代表性样品显示,整体低场磁化率大幅增加,范围从附近全新世海岸岩石体常见的< 10 μ SI到堤道富集带内第二旋回hmc的bb0 8,000 μ SI。提出了一个概念性的形态-沉积模型,描述了该系统最近和目前的状态,以及特定结构的保存潜力和地质研究中的识别(例如,埋藏树木和hmc的地质雷达特征)。本研究提出的方法可用于评估波罗的海沿岸和矿物学不均匀的森林沙质海岸线侵蚀指标的分布和保存潜力。
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Diverse erosional indicators along a rapidly retreating Holocene strandplain margin, leeward Hiiumaa Island, Estonia
A diverse suite of erosional features along the shoreline of Lehtma (Hiiumaa Island, Estonia) is used to assess their morphodynamic context and preservation potential. The Holocene strandplain along the east-facing (leeward) shoreline has experienced rapid retreat due to the anthropogenically induced sediment deficit. The study site is located just updrift of the erosional-depositional fulcrum segment, with southerly longshore transport resulting in the accumulation of eroded sand along a drift-aligned spit. The most prominent erosional indicators are mature pine trees in different stages of undercutting, toppling, fragmentation, and burial. Morphological features include scarps in paleo-beach/dune ridges (height: > 1 m), as well as modern berm scarps. Mineralogical indicators are exemplified by heavy-mineral concentrations (HMCs) of variable thickness (some > 2 cm) and concentration. Representative samples show a substantial increase in bulk low-field magnetic susceptibility ranging from < 10 µSI common to the nearby Holocene coastal lithosomes to > 8,000 µSI in second-cycle HMCs within berm enrichment zones. A conceptual morphosedimentary model describing the recent and current state of the system, as well as the preservation potential of specific structures and recognition in geological research (e.g., georadar signatures of buried trees and HMCs) is proposed. The approach presented in this study can be used to assess the distribution and preservation potential of erosional indicators along the Baltic Sea coast and mineralogically heterogeneous, forested sandy shorelines worldwide.
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