Airborne geophysical mapping as an innovative methodology for landslide investigation: evaluation of results from the Gschliefgraben landslide, Austria

Supper, R.; Baroň, I.; Ottowitz, D.; Motschka, K.; Gruber, S.; Winkler, E.; Jochum, B.; Römer, A.

doi:10.5194/nhess-13-3313-2013

Articles | Volume 13, issue 12

https://doi.org/10.5194/nhess-13-3313-2013

© Author(s) 2013. This work is distributed under
the Creative Commons Attribution 3.0 License.

Special issue:

New developments and applications in early warning, monitoring...

https://doi.org/10.5194/nhess-13-3313-2013

© Author(s) 2013. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 13, issue 12

Research article

|

17 Dec 2013

Research article |

| 17 Dec 2013

Airborne geophysical mapping as an innovative methodology for landslide investigation: evaluation of results from the Gschliefgraben landslide, Austria

R. Supper, I. Baroň, D. Ottowitz, K. Motschka, S. Gruber, E. Winkler, B. Jochum, and A. Römer

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Total article views: 4,316 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
1,845	2,310	161	4,316	188	171

HTML: 1,845
PDF: 2,310
XML: 161
Total: 4,316
BibTeX: 188
EndNote: 171

Views and downloads (calculated since 28 May 2013)

Month	HTML	PDF	XML	Total
May 2013	15	13	1	29
Jun 2013	7	29	0	36
Jul 2013	9	18	1	28
Aug 2013	11	10	1	22
Sep 2013	11	13	2	26
Oct 2013	5	10	0	15
Nov 2013	5	11	1	17
Dec 2013	79	75	1	155
Jan 2014	18	59	1	78
Feb 2014	20	41	5	66
Mar 2014	32	40	3	75
Apr 2014	12	25	3	40
May 2014	15	28	2	45
Jun 2014	6	18	0	24
Jul 2014	11	39	0	50
Aug 2014	7	26	2	35
Sep 2014	7	21	0	28
Oct 2014	5	14	1	20
Nov 2014	5	18	0	23
Dec 2014	12	29	1	42
Jan 2015	3	15	0	18
Feb 2015	10	14	0	24
Mar 2015	7	20	0	27
Apr 2015	8	18	0	26
May 2015	4	24	0	28
Jun 2015	28	21	0	49
Jul 2015	26	17	1	44
Aug 2015	9	16	0	25
Sep 2015	7	17	0	24
Oct 2015	16	23	0	39
Nov 2015	28	19	3	50
Dec 2015	4	27	0	31
Jan 2016	19	19	3	41
Feb 2016	13	24	1	38
Mar 2016	11	16	0	27
Apr 2016	5	13	0	18
May 2016	4	7	0	11
Jun 2016	1	7	0	8
Jul 2016	3	6	2	11
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Nov 2016	7	6	0	13
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Jan 2017	7	7	0	14
Feb 2017	3	6	0	9
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Feb 2018	8	24	0	32
Mar 2018	10	22	1	33
Apr 2018	6	13	0	19
May 2018	5	17	0	22
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Aug 2018	19	21	0	40
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Nov 2018	20	18	0	38
Dec 2018	16	15	0	31
Jan 2019	10	13	1	24
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Apr 2020	5	5	0	10
May 2020	4	6	0	10
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Jul 2020	36	17	18	71
Aug 2020	9	13	10	32
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Oct 2020	9	9	0	18
Nov 2020	7	6	0	13
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Jan 2021	17	20	1	38
Feb 2021	6	13	0	19
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Apr 2021	5	4	0	9
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Jun 2021	6	9	0	15
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Nov 2021	5	26	0	31
Dec 2021	11	16	0	27
Jan 2022	8	19	0	27
Feb 2022	8	10	1	19
Mar 2022	7	16	0	23
Apr 2022	12	16	2	30
May 2022	7	10	2	19
Jun 2022	13	4	2	19
Jul 2022	7	14	0	21
Aug 2022	13	23	0	36
Sep 2022	8	12	0	20
Oct 2022	12	18	2	32
Nov 2022	22	7	0	29
Dec 2022	5	9	0	14
Jan 2023	10	18	2	30
Feb 2023	10	11	0	21
Mar 2023	14	12	2	28
Apr 2023	4	9	0	13
May 2023	7	8	4	19
Jun 2023	4	8	0	12
Jul 2023	4	6	1	11
Aug 2023	4	13	2	19
Sep 2023	7	7	1	15
Oct 2023	7	9	2	18
Nov 2023	3	3	0	6
Dec 2023	8	5	1	14
Jan 2024	9	4	1	14
Feb 2024	5	3	2	10
Mar 2024	7	6	5	18
Apr 2024	14	7	2	23
May 2024	12	16	5	33
Jun 2024	7	12	1	20
Jul 2024	16	7	4	27
Aug 2024	24	7	3	34
Sep 2024	7	10	1	18
Oct 2024	15	5	1	21
Nov 2024	5	9	0	14
Dec 2024	11	4	0	15
Jan 2025	19	12	2	33
Feb 2025	22	12	2	36
Mar 2025	12	12	1	25
Apr 2025	7	13	0	20
May 2025	15	8	1	24
Jun 2025	29	9	0	38
Jul 2025	23	13	2	38
Aug 2025	11	9	2	22
Sep 2025	22	8	1	31
Oct 2025	25	24	2	51
Nov 2025	28	34	3	65
Dec 2025	18	29	2	49
Jan 2026	27	11	2	40
Feb 2026	20	10	6	36
Mar 2026	24	12	5	41
Apr 2026	35	28	1	64
May 2026	21	35	0	56
Jun 2026	6	1	7

Cumulative views and downloads (calculated since 28 May 2013)

Month	HTML	PDF	XML	Total
May 2013	15	13	1	29
Jun 2013	7	29	0	36
Jul 2013	9	18	1	28
Aug 2013	11	10	1	22
Sep 2013	11	13	2	26
Oct 2013	5	10	0	15
Nov 2013	5	11	1	17
Dec 2013	79	75	1	155
Jan 2014	18	59	1	78
Feb 2014	20	41	5	66
Mar 2014	32	40	3	75
Apr 2014	12	25	3	40
May 2014	15	28	2	45
Jun 2014	6	18	0	24
Jul 2014	11	39	0	50
Aug 2014	7	26	2	35
Sep 2014	7	21	0	28
Oct 2014	5	14	1	20
Nov 2014	5	18	0	23
Dec 2014	12	29	1	42
Jan 2015	3	15	0	18
Feb 2015	10	14	0	24
Mar 2015	7	20	0	27
Apr 2015	8	18	0	26
May 2015	4	24	0	28
Jun 2015	28	21	0	49
Jul 2015	26	17	1	44
Aug 2015	9	16	0	25
Sep 2015	7	17	0	24
Oct 2015	16	23	0	39
Nov 2015	28	19	3	50
Dec 2015	4	27	0	31
Jan 2016	19	19	3	41
Feb 2016	13	24	1	38
Mar 2016	11	16	0	27
Apr 2016	5	13	0	18
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Aug 2017	11	16	0	27
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Nov 2017	9	19	0	28
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Jun 2018	11	20	1	32
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Oct 2020	9	9	0	18
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Jan 2022	8	19	0	27
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Feb 2024	5	3	2	10
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Apr 2024	14	7	2	23
May 2024	12	16	5	33
Jun 2024	7	12	1	20
Jul 2024	16	7	4	27
Aug 2024	24	7	3	34
Sep 2024	7	10	1	18
Oct 2024	15	5	1	21
Nov 2024	5	9	0	14
Dec 2024	11	4	0	15
Jan 2025	19	12	2	33
Feb 2025	22	12	2	36
Mar 2025	12	12	1	25
Apr 2025	7	13	0	20
May 2025	15	8	1	24
Jun 2025	29	9	0	38
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Aug 2025	11	9	2	22
Sep 2025	22	8	1	31
Oct 2025	25	24	2	51
Nov 2025	28	34	3	65
Dec 2025	18	29	2	49
Jan 2026	27	11	2	40
Feb 2026	20	10	6	36
Mar 2026	24	12	5	41
Apr 2026	35	28	1	64
May 2026	21	35	0	56
Jun 2026	6	1	7

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Latest update: 10 Jun 2026

Airborne geophysical mapping as an innovative methodology for landslide investigation: evaluation of results from the Gschliefgraben landslide, Austria

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