Depth-limiting resistant layers restrict dimensions and positions of estuarine channels and bars

IF 1.9 3区 地球科学 Q1 GEOLOGY
Harm Jan Pierik, Jasper R. F. W. Leuven, Freek S. Busschers, Marc P. Hijma, Maarten G. Kleinhans
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引用次数: 3

Abstract

Estuaries comprise channels vital for economic activity and bars as valuable habitats. They are increasingly under human-induced pressures (e.g. sea-level rise and dredging), resulting in morphological changes that affect navigability, flood safety and ecology. Antecedent geology may strongly steer how estuary channels will adapt to these pressures, but is surprisingly absent in most models. Here geological data and a unique bathymetry dataset covering 200 years from the Ems-Dollard estuary (Netherlands/Germany) were used to demonstrate how local resistant layers force the position and dimensions of confluences and bars on the scale of an entire estuary. These layers limit channel depth and consequently cause widening, resulting in mid-channel bar formation and increased channel curvature. This could lead to unexpected estuary widening and may cause land loss in densely populated areas. With increasing channel volume (as may happen again under future sea-level rise), resistant layers in the estuary's substrate become more exposed, which enhances their effects. Many systems around the world contain shallow resistant layers that potentially constrain estuary channel dimensions and steer bank erosion. This highlights that resistant layer effects are important to consider as part of mixed depositional processes in coastal environments. It is therefore necessary to globally account for the effects of inherited resistant layers in the possible response of estuaries to sea-level rise and increased tidal penetration.

Abstract Image

深度限制阻力层限制河口河道和坝的尺寸和位置
河口包括对经济活动至关重要的河道和作为宝贵栖息地的沙洲。它们越来越多地受到人为压力(如海平面上升和疏浚)的影响,从而导致影响通航、洪水安全和生态的形态变化。以前的地质可能会强烈地引导河口航道如何适应这些压力,但令人惊讶的是,在大多数模型中都没有。在这里,地质数据和独特的水深测量数据集涵盖了200年的Ems - Dollard河口(荷兰/德国),以证明当地的抵抗层如何在整个河口的尺度上强迫汇合处和沙洲的位置和尺寸。这些层限制了河道深度,从而导致河道加宽,导致河道中部沙洲的形成和河道曲率的增加。这可能会导致意想不到的河口拓宽,并可能导致人口稠密地区的土地流失。随着河道体积的增加(在未来海平面上升的情况下可能会再次发生),河口底物中的抵抗层变得更加暴露,这增强了它们的作用。世界上许多系统都含有浅层抵抗层,这可能会限制河口航道的规模,并引导河岸侵蚀。这突出表明,作为海岸环境中混合沉积过程的一部分,抵抗层效应是很重要的。因此,有必要在全球范围内考虑在河口对海平面上升和潮汐渗透增加的可能反应中遗传抗性层的影响。
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
CiteScore
4.10
自引率
16.70%
发文量
42
审稿时长
16 weeks
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