Ground-penetrating radar observations for estimating the vertical displacement of rotational landslides

Lissak, C.; Maquaire, O.; Malet, J.-P.; Lavigne, F.; Virmoux, C.; Gomez, C.; Davidson, R.

doi:https://doi.org/10.5194/nhess-15-1399-2015

Articles | Volume 15, issue 6

https://doi.org/10.5194/nhess-15-1399-2015

© Author(s) 2015. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/nhess-15-1399-2015

© Author(s) 2015. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 15, issue 6

Research article

|

30 Jun 2015

Research article |

| 30 Jun 2015

Ground-penetrating radar observations for estimating the vertical displacement of rotational landslides

C. Lissak, O. Maquaire, J.-P. Malet, F. Lavigne, C. Virmoux, C. Gomez, and R. Davidson

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Total article views: 2,545 (including HTML, PDF, and XML)

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XML: 103
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Views and downloads (calculated since 12 Dec 2014)

Month	HTML	PDF	XML	Total
Dec 2014	32	33	5	70
Jan 2015	11	9	1	21
Feb 2015	8	3	0	11
Mar 2015	6	5	0	11
Apr 2015	11	5	1	17
May 2015	3	2	0	5
Jun 2015	16	19	0	35
Jul 2015	68	85	2	155
Aug 2015	12	19	0	31
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Oct 2015	14	14	0	28
Nov 2015	20	24	0	44
Dec 2015	9	27	1	37
Jan 2016	21	21	0	42
Feb 2016	16	12	1	29
Mar 2016	9	11	1	21
Apr 2016	5	4	0	9
May 2016	5	9	0	14
Jun 2016	7	8	1	16
Jul 2016	5	5	2	12
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Sep 2016	6	3	0	9
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Dec 2016	5	6	0	11
Jan 2017	11	12	1	24
Feb 2017	3	9	0	12
Mar 2017	15	27	0	42
Apr 2017	13	25	0	38
May 2017	13	16	0	29
Jun 2017	13	8	1	22
Jul 2017	12	8	0	20
Aug 2017	4	16	1	21
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Oct 2017	8	13	0	21
Nov 2017	8	17	0	25
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Jan 2018	12	11	0	23
Feb 2018	6	6	0	12
Mar 2018	6	16	2	24
Apr 2018	6	14	0	20
May 2018	7	17	0	24
Jun 2018	10	23	0	33
Jul 2018	7	16	1	24
Aug 2018	12	19	1	32
Sep 2018	12	25	1	38
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Nov 2018	13	19	0	32
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Feb 2019	5	7	0	12
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Nov 2019	4	13	0	17
Dec 2019	7	8	0	15
Jan 2020	8	3	2	13
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Mar 2020	3	5	0	8
Apr 2020	5	5	1	11
May 2020	3	4	0	7
Jun 2020	15	8	0	23
Jul 2020	24	24	17	65
Aug 2020	7	10	9	26
Sep 2020	11	6	0	17
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Mar 2022	3	7	0	10
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Jan 2023	10	10	1	21
Feb 2023	10	9	0	19
Mar 2023	31	10	2	43
Apr 2023	3	6	0	9
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Jun 2023	10	7	0	17
Jul 2023	8	6	1	15
Aug 2023	9	2	2	13
Sep 2023	2	8	1	11
Oct 2023	7	8	0	15
Nov 2023	4	4	0	8
Dec 2023	15	11	2	28
Jan 2024	6	25	0	31
Feb 2024	10	19	3	32
Mar 2024	7	7	0	14
Apr 2024	16	16	5	37

Cumulative views and downloads (calculated since 12 Dec 2014)

Month	HTML	PDF	XML	Total
Dec 2014	32	33	5	70
Jan 2015	11	9	1	21
Feb 2015	8	3	0	11
Mar 2015	6	5	0	11
Apr 2015	11	5	1	17
May 2015	3	2	0	5
Jun 2015	16	19	0	35
Jul 2015	68	85	2	155
Aug 2015	12	19	0	31
Sep 2015	4	8	1	13
Oct 2015	14	14	0	28
Nov 2015	20	24	0	44
Dec 2015	9	27	1	37
Jan 2016	21	21	0	42
Feb 2016	16	12	1	29
Mar 2016	9	11	1	21
Apr 2016	5	4	0	9
May 2016	5	9	0	14
Jun 2016	7	8	1	16
Jul 2016	5	5	2	12
Aug 2016	7	9	0	16
Sep 2016	6	3	0	9
Oct 2016	4	8	0	12
Nov 2016	6	7	1	14
Dec 2016	5	6	0	11
Jan 2017	11	12	1	24
Feb 2017	3	9	0	12
Mar 2017	15	27	0	42
Apr 2017	13	25	0	38
May 2017	13	16	0	29
Jun 2017	13	8	1	22
Jul 2017	12	8	0	20
Aug 2017	4	16	1	21
Sep 2017	10	21	0	31
Oct 2017	8	13	0	21
Nov 2017	8	17	0	25
Dec 2017	7	15	0	22
Jan 2018	12	11	0	23
Feb 2018	6	6	0	12
Mar 2018	6	16	2	24
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Jun 2018	10	23	0	33
Jul 2018	7	16	1	24
Aug 2018	12	19	1	32
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Oct 2018	15	22	0	37
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Dec 2018	12	11	0	23
Jan 2019	7	13	1	21
Feb 2019	5	7	0	12
Mar 2019	6	11	1	18
Apr 2019	6	12	0	18
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Mar 2023	31	10	2	43
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Jun 2023	10	7	0	17
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Aug 2023	9	2	2	13
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Oct 2023	7	8	0	15
Nov 2023	4	4	0	8
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Jan 2024	6	25	0	31
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Mar 2024	7	7	0	14
Apr 2024	16	16	5	37

Cited

Saved (final revised paper)

Latest update: 25 Apr 2024

Short summary

The objective of this paper is to demonstrate the applicability of ground-penetrating radar (GPR) for monitoring the displacement of permanent slow-moving landslides affected by seasonal kinematic pattern and acceleration events. GPR data are used here to estimate the vertical movement of two rotational slides, since 1982, in combination with other surveying techniques.

Ground-penetrating radar observations for estimating the vertical displacement of rotational landslides

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Cited

7 citations as recorded by crossref.

7 citations as recorded by crossref.

Saved (final revised paper)