荷兰阿梅兰地区事件尺度风沙输送的时空变异

GeoResJ Pub Date : 2015-03-01 DOI:10.1016/j.grj.2014.11.003
A. Poortinga , J.G.S. Keijsers , S.M. Visser , M.J.P.M. Riksen , A.C.W. Baas
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引用次数: 14

摘要

在荷兰,海岸沙丘是保护海岸线免受海洋破坏力侵害的主要防御工事。在这种情况下,风成过程很重要,因为它们有助于沙丘增生,从而保证沿海腹地的安全。在这项研究中,我们分析了荷兰阿梅兰岛宽阔海滩上事件尺度风沙输运的水平和垂直变化。数据是从气象站、地下水监测井和安装在海滩上的摄像机获得的。使用由37个定制的MWAC陷阱组成的综合网格测量了15个风沙运输事件(2个涉及陆上风,7个涉及海岸风,6个涉及海上风)。发现沿岸事件的输沙率最高,变异性最大。地表湿度受地下水支配,是风沙输送速率和垂直通量剖面的重要控制参数。地下水位主要受滩涂淹没的影响,对地下水位的影响持续了两周。在湿输沙事件中,圈闭间垂直通量剖面的变化大于干输沙事件。总体而言,沙输运率在沙丘前滨最高,在沙丘趾最低。沙的输运动力学取决于当地的条件,如海滩尺寸、海滩方向以及气象和地面特征。中等(高频率,低震级)的事件也能够输送大量的沙子。未来的研究应该包括空间上明确的海拔和地表湿度测量,以获得对复杂的沙输运动力学的更完整的理解。
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Temporal and spatial variability in event scale aeolian transport on Ameland, The Netherlands

Coastal dunes are the primary defence protecting the coastline from the destructive forces of the sea in The Netherlands. Aeolian processes are important in this context as they contribute to dune accretion and thus the safety of the coastal hinterland. In this study, we analyze horizontal and vertical variability of event scale aeolian sand transport on a wide beach on the island of Ameland, The Netherlands. Data were obtained from a meteorological station, groundwater monitoring wells and a camera installed on the beach. Fifteen aeolian transport events (two involving onshore winds, seven longshore and six offshore) were measured using a comprehensive grid of 37 customized MWAC traps. The highest sand transport rates and largest variability was found for alongshore events. Surface moisture, governed by groundwater, was found to be an important controlling parameter for aeolian transport rates and vertical flux profiles. Groundwater levels were largely dominated by beach inundation, influencing the groundwater table for a two week period. Variations in vertical flux profiles between traps were larger for wet sand transport events than dry ones. In general, sand transport rates were highest at the foreshore and lowest at the dune toe. Sand transport dynamics are dependent on local conditions such as beach dimensions, beach orientation and also meteorological and surface characteristics. Moderate (high frequency, low magnitude) events are also capable of transporting large amounts of sand. Future studies should include spatially explicit measurements of elevation and surface moisture to obtain a more complete understanding of the complex sand transport dynamics.

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