Methods for Quantifying Interactions Between Groundwater and Surface Water

Rui Ma; Kewei Chen; Charles B. Andrews; Steven P. Loheide; Audrey H. Sawyer; Xue Jiang; Martin A. Briggs; Peter G. Cook; Steven M. Gorelick; Henning Prommer; Bridget R. Scanlon; Zhilin Guo; Chunmiao Zheng

doi:10.1146/annurev-environ-111522-104534

Methods for Quantifying Interactions Between Groundwater and Surface Water

Rui Ma, Kewei Chen, Charles B. Andrews, Steven P. Loheide, Audrey H. Sawyer, Xue Jiang, Martin A. Briggs, Peter G. Cook, Steven M. Gorelick, Henning Prommer, Bridget R. Scanlon, Zhilin Guo, Chunmiao Zheng

Research output: Contribution to journal › Review article › peer-review

23 Scopus citations

Abstract

Driven by the need for integrated management of groundwater (GW) and surface water (SW), quantification of GW–SW interactions and associated contaminant transport has become increasingly important. This is due to their substantial impact on water quantity and quality. In this review, we provide an overview of the methods developed over the past several decades to investigate GW–SW interactions. These methods include geophysical, hydrometric, and tracer techniques, as well as various modeling approaches. Different methods reveal valuable information on GW–SW interactions at different scales with their respective advantages and limitations. Interpreting data from these techniques can be challenging due to factors like scale effects, heterogeneous hydrogeological conditions, sediment variability, and complex spatiotemporal connections between GW and SW. To facilitate the selection of appropriate methods for specific sites, we discuss the strengths, weaknesses, and challenges of each technique, and we offer perspectives on knowledge gaps in the current science.

Original language	English
Pages (from-to)	623-653
Number of pages	31
Journal	Annual Review of Environment and Resources
Volume	49
Issue number	1
DOIs	https://doi.org/10.1146/annurev-environ-111522-104534
State	Published - Oct 18 2024
Externally published	Yes

Funding

This work was funded by the Ministry of Education of China (grants B18049 and D20020). M.A.B. was supported by the US Geological Survey Next Generation Water Observing System. A.H.S. acknowledges funding from the US National Science Foundation (EAR-1752995).

Keywords

catchment
groundwater–surface water interactions
measurement techniques
numerical models
scale effects
tracer methods
watershed

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10.1146/annurev-environ-111522-104534

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title = "Methods for Quantifying Interactions Between Groundwater and Surface Water",

abstract = "Driven by the need for integrated management of groundwater (GW) and surface water (SW), quantification of GW–SW interactions and associated contaminant transport has become increasingly important. This is due to their substantial impact on water quantity and quality. In this review, we provide an overview of the methods developed over the past several decades to investigate GW–SW interactions. These methods include geophysical, hydrometric, and tracer techniques, as well as various modeling approaches. Different methods reveal valuable information on GW–SW interactions at different scales with their respective advantages and limitations. Interpreting data from these techniques can be challenging due to factors like scale effects, heterogeneous hydrogeological conditions, sediment variability, and complex spatiotemporal connections between GW and SW. To facilitate the selection of appropriate methods for specific sites, we discuss the strengths, weaknesses, and challenges of each technique, and we offer perspectives on knowledge gaps in the current science.",

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AU - Chen, Kewei

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AU - Jiang, Xue

AU - Briggs, Martin A.

AU - Cook, Peter G.

AU - Gorelick, Steven M.

AU - Prommer, Henning

AU - Scanlon, Bridget R.

AU - Guo, Zhilin

AU - Zheng, Chunmiao

PY - 2024/10/18

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N2 - Driven by the need for integrated management of groundwater (GW) and surface water (SW), quantification of GW–SW interactions and associated contaminant transport has become increasingly important. This is due to their substantial impact on water quantity and quality. In this review, we provide an overview of the methods developed over the past several decades to investigate GW–SW interactions. These methods include geophysical, hydrometric, and tracer techniques, as well as various modeling approaches. Different methods reveal valuable information on GW–SW interactions at different scales with their respective advantages and limitations. Interpreting data from these techniques can be challenging due to factors like scale effects, heterogeneous hydrogeological conditions, sediment variability, and complex spatiotemporal connections between GW and SW. To facilitate the selection of appropriate methods for specific sites, we discuss the strengths, weaknesses, and challenges of each technique, and we offer perspectives on knowledge gaps in the current science.

AB - Driven by the need for integrated management of groundwater (GW) and surface water (SW), quantification of GW–SW interactions and associated contaminant transport has become increasingly important. This is due to their substantial impact on water quantity and quality. In this review, we provide an overview of the methods developed over the past several decades to investigate GW–SW interactions. These methods include geophysical, hydrometric, and tracer techniques, as well as various modeling approaches. Different methods reveal valuable information on GW–SW interactions at different scales with their respective advantages and limitations. Interpreting data from these techniques can be challenging due to factors like scale effects, heterogeneous hydrogeological conditions, sediment variability, and complex spatiotemporal connections between GW and SW. To facilitate the selection of appropriate methods for specific sites, we discuss the strengths, weaknesses, and challenges of each technique, and we offer perspectives on knowledge gaps in the current science.

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KW - measurement techniques

KW - numerical models

KW - scale effects

KW - tracer methods

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Methods for Quantifying Interactions Between Groundwater and Surface Water

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Keywords

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