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Long-term geoelectrical monitoring of landslides in natural and engineered slopes

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Long-term geoelectrical monitoring of landslides in natural and engineered slopes. / Chambers, J.; Holmes, J.; Whiteley, J. et al.
In: Leading Edge, Vol. 41, No. 11, 01.11.2022, p. 768-776.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Chambers, J, Holmes, J, Whiteley, J, Boyd, J, Meldrum, P, Wilkinson, P, Kuras, O, Swift, R, Harrison, H, Glendinning, S, Stirling, R, Huntley, D, Slater, N & Donohue, S 2022, 'Long-term geoelectrical monitoring of landslides in natural and engineered slopes', Leading Edge, vol. 41, no. 11, pp. 768-776. https://doi.org/10.1190/tle41110768.1

APA

Chambers, J., Holmes, J., Whiteley, J., Boyd, J., Meldrum, P., Wilkinson, P., Kuras, O., Swift, R., Harrison, H., Glendinning, S., Stirling, R., Huntley, D., Slater, N., & Donohue, S. (2022). Long-term geoelectrical monitoring of landslides in natural and engineered slopes. Leading Edge, 41(11), 768-776. https://doi.org/10.1190/tle41110768.1

Vancouver

Chambers J, Holmes J, Whiteley J, Boyd J, Meldrum P, Wilkinson P et al. Long-term geoelectrical monitoring of landslides in natural and engineered slopes. Leading Edge. 2022 Nov 1;41(11):768-776. doi: 10.1190/tle41110768.1

Author

Chambers, J. ; Holmes, J. ; Whiteley, J. et al. / Long-term geoelectrical monitoring of landslides in natural and engineered slopes. In: Leading Edge. 2022 ; Vol. 41, No. 11. pp. 768-776.

Bibtex

@article{f9a4bc99f1e74fa0953fab8570f8e58e,
title = "Long-term geoelectrical monitoring of landslides in natural and engineered slopes",
abstract = "Developments in time-lapse electrical resistivity tomography (ERT) technology are transforming our ability to monitor the subsurface due to purpose-built monitoring instruments, advances in automation and modeling, and the resulting improvements in spatial and temporal resolution. We describe the development of a novel ERT-based remote monitoring system called PRIME that integrates new low-power measurement instrumentation with data delivery, automated data processing and image generation, and web-based information delivery. Due to the sensitivity of ERT to hydrologic processes in the near surface, we focus on the application of PRIME for moisture-driven landslide monitoring. Case examples are considered of landslides in engineered and natural slopes, including those impacting geotechnical assets in rail and highways, where slope hydrology is seen to be controlled by lithology, vegetation, fissuring, and drainage structures. We conclude by taking a forward look at emerging developments in ERT monitoring relating to hardware, software and modeling, and applications.",
keywords = "4D, electrical/resistivity, monitoring, time-lapse",
author = "J. Chambers and J. Holmes and J. Whiteley and J. Boyd and P. Meldrum and P. Wilkinson and O. Kuras and R. Swift and H. Harrison and S. Glendinning and R. Stirling and D. Huntley and N. Slater and S. Donohue",
year = "2022",
month = nov,
day = "1",
doi = "10.1190/tle41110768.1",
language = "English",
volume = "41",
pages = "768--776",
journal = "Leading Edge",
issn = "1070-485X",
publisher = "Society of Exploration Geophysicists",
number = "11",

}

RIS

TY - JOUR

T1 - Long-term geoelectrical monitoring of landslides in natural and engineered slopes

AU - Chambers, J.

AU - Holmes, J.

AU - Whiteley, J.

AU - Boyd, J.

AU - Meldrum, P.

AU - Wilkinson, P.

AU - Kuras, O.

AU - Swift, R.

AU - Harrison, H.

AU - Glendinning, S.

AU - Stirling, R.

AU - Huntley, D.

AU - Slater, N.

AU - Donohue, S.

PY - 2022/11/1

Y1 - 2022/11/1

N2 - Developments in time-lapse electrical resistivity tomography (ERT) technology are transforming our ability to monitor the subsurface due to purpose-built monitoring instruments, advances in automation and modeling, and the resulting improvements in spatial and temporal resolution. We describe the development of a novel ERT-based remote monitoring system called PRIME that integrates new low-power measurement instrumentation with data delivery, automated data processing and image generation, and web-based information delivery. Due to the sensitivity of ERT to hydrologic processes in the near surface, we focus on the application of PRIME for moisture-driven landslide monitoring. Case examples are considered of landslides in engineered and natural slopes, including those impacting geotechnical assets in rail and highways, where slope hydrology is seen to be controlled by lithology, vegetation, fissuring, and drainage structures. We conclude by taking a forward look at emerging developments in ERT monitoring relating to hardware, software and modeling, and applications.

AB - Developments in time-lapse electrical resistivity tomography (ERT) technology are transforming our ability to monitor the subsurface due to purpose-built monitoring instruments, advances in automation and modeling, and the resulting improvements in spatial and temporal resolution. We describe the development of a novel ERT-based remote monitoring system called PRIME that integrates new low-power measurement instrumentation with data delivery, automated data processing and image generation, and web-based information delivery. Due to the sensitivity of ERT to hydrologic processes in the near surface, we focus on the application of PRIME for moisture-driven landslide monitoring. Case examples are considered of landslides in engineered and natural slopes, including those impacting geotechnical assets in rail and highways, where slope hydrology is seen to be controlled by lithology, vegetation, fissuring, and drainage structures. We conclude by taking a forward look at emerging developments in ERT monitoring relating to hardware, software and modeling, and applications.

KW - 4D

KW - electrical/resistivity

KW - monitoring

KW - time-lapse

U2 - 10.1190/tle41110768.1

DO - 10.1190/tle41110768.1

M3 - Journal article

VL - 41

SP - 768

EP - 776

JO - Leading Edge

JF - Leading Edge

SN - 1070-485X

IS - 11

ER -