Hyporheic Flows in Stratified Sediments: Implications on Residence Time Distributions

IF 4.6 1区地球科学 Q2 ENVIRONMENTAL SCIENCES

Water Resources Research Pub Date : 2024-01-05 DOI:10.1029/2023wr035625

Alessandra Marzadri, Valentina Ciriello, Felipe P. J. de Barros

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引用次数: 0

Abstract

The fate of nutrients and contaminants in fluvial ecosystems is strongly affected by the mixing dynamics between surface water and groundwater within the hyporheic zone, depending on the combination of the sediment's hydraulic heterogeneity and dune morphology. This study examines the effects of hydraulic conductivity stratification on steady-state, two-dimensional, hyporheic flows and solute residence time distribution. First, we derive an integral transform-based semi-analytical solution for the flow field, capable of accounting for the effects of any functional shape of the vertically varying hydraulic conductivity. The solution considers the uneven distribution of pressure at the water-sediment interface (i.e., the pumping process) dictated by the presence of dune morphology. We then simulate solute transport using particle tracking. Our modeling framework is validated against numerical and tracer data from flume experiments and used to explore the implication of hydraulic conductivity stratification on the statistics and pdf of the residence time. Finally, reduced-order models are used to enlighten the dependence of key residence time statistics on the parameters characterizing the hydraulic conductivity stratification.

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分层沉积物中的隙流：对停留时间分布的影响

营养物质和污染物在河川生态系统中的归宿受到地表水和地下水在下垫面区混合动力学的强烈影响，这取决于沉积物的水力异质性和沙丘形态的组合。本研究探讨了水力传导分层对稳态二维透水流和溶质停留时间分布的影响。首先，我们推导出基于积分变换的流场半解析解法，该解法能够考虑垂直变化的水力传导性的任何函数形状的影响。该解决方案考虑了沙丘形态决定的水沙界面压力分布不均（即抽水过程）。然后，我们利用颗粒跟踪模拟了溶质迁移。我们的建模框架通过水槽实验的数值和示踪数据进行了验证，并用于探索水力传导分层对停留时间的统计和pdf的影响。最后，我们使用降阶模型来揭示主要停留时间统计量与水力传导分层特征参数的关系。

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

Water Resources Research 环境科学-湖沼学

CiteScore

8.80

自引率

13.00%

发文量

599

审稿时长

3.5 months

期刊介绍： Water Resources Research (WRR) is an interdisciplinary journal that focuses on hydrology and water resources. It publishes original research in the natural and social sciences of water. It emphasizes the role of water in the Earth system, including physical, chemical, biological, and ecological processes in water resources research and management, including social, policy, and public health implications. It encompasses observational, experimental, theoretical, analytical, numerical, and data-driven approaches that advance the science of water and its management. Submissions are evaluated for their novelty, accuracy, significance, and broader implications of the findings.