对河道化低洼地溪流沿岸的溪流-蓄水层相互作用实地评估方法进行全面、多尺度的评估

IF 3.2 3区 地球科学 Q1 Environmental Science
Benjamin Ledesma, Rodrigo Villalpando-Vizcaino, Daniel Larsen, Scott Schoefernacker, Brian Waldron, Claudio Meier
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引用次数: 0

摘要

溪流与含水层的相互作用(SAIs)在有效的地下水管理中起着至关重要的作用,但人们对渠道化低洼地常年溪流的复杂动态仍然知之甚少。本研究采用多尺度、多技术方法,对美国田纳西州两条溪流的 SAIs 进行了调查。目的是确定一种合适的方法来描述这种特定水文环境中的 SAI,并以此为起点,开发出一种更加标准化和可复制的方法。该方法包括对各种实地技术进行初步评估,然后使用电位计、电磁感应(EMI)、垂直温度剖面仪(VTP)以及渗流计、堤岸测试和井数据分析等补充方法进行广泛调查。研究结果表明,溪流两岸的水文地质行为截然不同,这对地下水模型中通常假定的 SAI 均质性概念提出了挑战。Nonconnah 溪呈现出河床胶结和可忽略不计的水力梯度,导致在低流量时与含水层断开连接,只有一条 300 米长的流失河段具有较高的向下梯度。相比之下,Loosahatchie 河显示出相对均匀的河床特性和较小的向上水力梯度,表明勘测河段沿线的 SAI 一致。事实证明,EMI 对于快速绘制河床沉积物图非常有效,而电位计则能准确测量对了解 SAI 动态至关重要的微小水头差。VTP 由于需要较长的数据采集时间以及易受洪水影响而不太实用。这项研究强调了使用多种技术进行多尺度调查以准确描述低地溪流中的 SAI 的重要性,同时突出了地质构造、人为改变和沉积过程对地下水-地表水相互作用的干扰影响。研究结果有助于完善当地的水量平衡,为地下水管理战略提供信息,并强调了将当地尺度的实地数据纳入区域地下水模型的必要性。所提出的方法可作为制定标准化方法的基础,用于描述低地渠道化常年溪流中的 SAI,并适用于全球类似的溪流系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Comprehensive, Multi-Scale Evaluation of Field Methods for Assessing Stream–Aquifer Interactions Along Channelised Lowland Streams

Comprehensive, Multi-Scale Evaluation of Field Methods for Assessing Stream–Aquifer Interactions Along Channelised Lowland Streams

Stream–aquifer interactions (SAIs) play a critical role in effective groundwater management, yet their complex dynamics remain poorly understood in channelized lowland perennial streams. This study presents a multi-scale, multi-technique investigation of SAIs along two long-stream reaches in Tennessee, United States. The goal is to define a suitable methodology for characterising SAIs in this specific hydrological setting, serving as a starting point for developing a more standardised and replicable approach. The methodology includes an initial evaluation of various field techniques, followed by extensive surveys using potentiomanometers, electromagnetic induction (EMI), vertical temperature profilers (VTPs) and complementary methods such as seepage meters, bank tests and well-data analyses. Results reveal distinct hydrogeomorphic behaviours across and along the streams, challenging the SAI-homogeneity notions typically assumed in groundwater models. Nonconnah Creek exhibited streambed colmation and negligible hydraulic gradients, resulting in disconnection from the aquifer during low flows, except for a 300-m losing reach with high downward gradients. In contrast, the Loosahatchie River displayed relatively homogeneous streambed properties and small, upward hydraulic gradients, suggesting uniform SAIs along the surveyed reaches. EMI proved highly effective for mapping streambed sediments quickly, while potentiomanometers accurately measured small head differences critical for understanding SAI dynamics. VTPs were less practical due to the extended data-collection times required and their vulnerability to flooding. This study emphasises the importance of multi-scale investigations using diverse techniques to accurately characterise SAIs in lowland streams, highlighting the confounding influences of geological formations, anthropogenic alterations and depositional processes on groundwater–surface water interactions. The findings contribute to refining local water balances, informing groundwater management strategies and underscoring the need for incorporating local-scale field data into regional groundwater models. The proposed methodology serves as a foundation for developing a standardised approach for characterising SAIs in lowland channelized perennial streams, adaptable for similar stream systems worldwide.

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来源期刊
Hydrological Processes
Hydrological Processes 环境科学-水资源
CiteScore
6.00
自引率
12.50%
发文量
313
审稿时长
2-4 weeks
期刊介绍: Hydrological Processes is an international journal that publishes original scientific papers advancing understanding of the mechanisms underlying the movement and storage of water in the environment, and the interaction of water with geological, biogeochemical, atmospheric and ecological systems. Not all papers related to water resources are appropriate for submission to this journal; rather we seek papers that clearly articulate the role(s) of hydrological processes.
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