Geophysics as a hypothesis‐testing tool for critical zone hydrogeology

Dumont, Marc; Singha, Kamini

doi:10.1002/wat2.1732

WIREs Water

2024

DOI: 10.1002/wat2.1732

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Geophysics as a hypothesis‐testing tool for critical zone hydrogeology

Marc Dumont,

Kamini Singha

Abstract: Geophysical methods have long been used in earth and environmental science for the characterization of subsurface properties. While imaging the subsurface opens the “black box” of subsurface heterogeneity, we argue here that these tools can be used in a more powerful way than characterization, which is to develop and test hypotheses. Critical zone science has opened new questions and hypotheses in the hydrologic sciences holistically around controls on water fluxes between surface, biological, and underground … Show more

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Cited by 2 publications

References 181 publications

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Study on the release of LNAPLs in the capillary zone via ERT and GPR in an outdoor experiment

Liu,

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et al. 2024

Environ Earth Sci

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Study on the release of LNAPLs in the capillary zone via ERT and GPR in an outdoor experiment

Liu,

Wan,

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et al. 2024

Environ Earth Sci

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Geoelectric Joint Inversion for 3D Imaging of Vineyard Ground

Lopane,

Albéri,

Barbagli

et al. 2024

Agronomy

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Using a novel joint inversion approach, this study tackles the challenge of accurately characterizing subsurface electrical resistivity in vineyards, a critical and strategic aspect of precision viticulture. For the first time, we integrate 3D Galvanic Contact Resistivity with multi-2D Capacitively Coupled Resistivity data. Conducted in a prestigious Sangiovese vineyard in Montalcino (Tuscany, Italy), the data are analyzed utilizing a single algorithm capable of inverting Capacitively Coupled Resistivity, Galvanic Contact Resistivity, and joint datasets. This approach combines data sensitive to different depths and spatial resolutions, resulting in a comprehensive analysis of soil resistivity variations and moisture distribution, thus providing a detailed and coherent subsurface model. The joint inversion produced a high spatial resolution 3D resistivity model with a density of 20.21 data/m3. This model significantly enhances subsurface characterization, delineating root systems and correlating water distribution with resistivity patterns, showing relative variations sometimes greater than 50%. This method reduced data misfit more effectively than individual inversions and identified a low-resistivity volume (<20 Ω·m), extending from northeast to south, indicating the presence of subsurface water. The systematic alternation of high and low resistivity across vineyard rows highlights the impact of soil management activities on resistivity and supports targeted interventions for vineyard health.

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Geophysics as a hypothesis‐testing tool for critical zone hydrogeology

Cited by 2 publications

References 181 publications

Study on the release of LNAPLs in the capillary zone via ERT and GPR in an outdoor experiment

Study on the release of LNAPLs in the capillary zone via ERT and GPR in an outdoor experiment

Geoelectric Joint Inversion for 3D Imaging of Vineyard Ground

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