Short communication: A semiautomated method for bulk fault slip analysis from topographic scarp profiles

Wolfe, Franklin D.; Stahl, Timothy A.; Villamor, Pilar; Lukovic, Biljana

doi:10.5194/esurf-8-211-2020

Articles | Volume 8, issue 1

https://doi.org/10.5194/esurf-8-211-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/esurf-8-211-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 8, issue 1

Short communication

|

24 Mar 2020

Short communication |

| 24 Mar 2020

Short communication: A semiautomated method for bulk fault slip analysis from topographic scarp profiles

Franklin D. Wolfe, Timothy A. Stahl, Pilar Villamor, and Biljana Lukovic

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Total article views: 5,312 (including HTML, PDF, and XML)

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Views and downloads (calculated since 15 Oct 2019)

Month	HTML	PDF	XML	Total
Oct 2019	160	50	3	213
Nov 2019	241	49	4	294
Dec 2019	73	19	0	92
Jan 2020	48	10	0	58
Feb 2020	18	11	0	29
Mar 2020	164	49	1	214
Apr 2020	149	48	2	199
May 2020	78	14	1	93
Jun 2020	105	61	3	169
Jul 2020	360	65	15	440
Aug 2020	111	14	1	126
Sep 2020	83	22	0	105
Oct 2020	51	9	1	61
Nov 2020	92	10	1	103
Dec 2020	147	20	0	167
Jan 2021	32	10	1	43
Feb 2021	49	12	0	61
Mar 2021	25	10	0	35
Apr 2021	42	15	0	57
May 2021	23	18	0	41
Jun 2021	30	12	0	42
Jul 2021	14	9	1	24
Aug 2021	22	15	0	37
Sep 2021	14	17	0	31
Oct 2021	18	36	0	54
Nov 2021	26	36	4	66
Dec 2021	17	13	0	30
Jan 2022	14	15	0	29
Feb 2022	15	7	1	23
Mar 2022	16	21	0	37
Apr 2022	22	8	1	31
May 2022	18	8	2	28
Jun 2022	13	8	1	22
Jul 2022	19	10	0	29
Aug 2022	12	4	0	16
Sep 2022	23	7	0	30
Oct 2022	17	7	0	24
Nov 2022	21	10	0	31
Dec 2022	9	12	0	21
Jan 2023	14	10	1	25
Feb 2023	21	10	0	31
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Apr 2023	9	8	0	17
May 2023	20	14	4	38
Jun 2023	10	10	1	21
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Aug 2023	9	7	1	17
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Oct 2023	20	13	2	35
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Jan 2024	21	9	0	30
Feb 2024	35	6	1	42
Mar 2024	22	16	1	39
Apr 2024	25	13	6	44
May 2024	32	17	4	53
Jun 2024	94	12	7	113
Jul 2024	29	11	2	42
Aug 2024	66	11	5	82
Sep 2024	18	6	0	24
Oct 2024	41	12	1	54
Nov 2024	29	10	0	39
Dec 2024	33	10	1	44
Jan 2025	20	14	0	34
Feb 2025	39	6	0	45
Mar 2025	17	9	0	26
Apr 2025	20	18	0	38
May 2025	27	9	6	42
Jun 2025	56	19	3	78
Jul 2025	36	17	3	56
Aug 2025	27	18	1	46
Sep 2025	89	23	2	114
Oct 2025	50	32	3	85
Nov 2025	43	38	1	82
Dec 2025	47	38	2	87
Jan 2026	54	32	8	94
Feb 2026	69	38	8	115
Mar 2026	35	36	2	73
Apr 2026	61	29	5	95
May 2026	57	22	1	80
Jun 2026	1	1	1	3

Cumulative views and downloads (calculated since 15 Oct 2019)

Month	HTML	PDF	XML	Total
Oct 2019	160	50	3	213
Nov 2019	241	49	4	294
Dec 2019	73	19	0	92
Jan 2020	48	10	0	58
Feb 2020	18	11	0	29
Mar 2020	164	49	1	214
Apr 2020	149	48	2	199
May 2020	78	14	1	93
Jun 2020	105	61	3	169
Jul 2020	360	65	15	440
Aug 2020	111	14	1	126
Sep 2020	83	22	0	105
Oct 2020	51	9	1	61
Nov 2020	92	10	1	103
Dec 2020	147	20	0	167
Jan 2021	32	10	1	43
Feb 2021	49	12	0	61
Mar 2021	25	10	0	35
Apr 2021	42	15	0	57
May 2021	23	18	0	41
Jun 2021	30	12	0	42
Jul 2021	14	9	1	24
Aug 2021	22	15	0	37
Sep 2021	14	17	0	31
Oct 2021	18	36	0	54
Nov 2021	26	36	4	66
Dec 2021	17	13	0	30
Jan 2022	14	15	0	29
Feb 2022	15	7	1	23
Mar 2022	16	21	0	37
Apr 2022	22	8	1	31
May 2022	18	8	2	28
Jun 2022	13	8	1	22
Jul 2022	19	10	0	29
Aug 2022	12	4	0	16
Sep 2022	23	7	0	30
Oct 2022	17	7	0	24
Nov 2022	21	10	0	31
Dec 2022	9	12	0	21
Jan 2023	14	10	1	25
Feb 2023	21	10	0	31
Mar 2023	14	13	0	27
Apr 2023	9	8	0	17
May 2023	20	14	4	38
Jun 2023	10	10	1	21
Jul 2023	7	8	0	15
Aug 2023	9	7	1	17
Sep 2023	22	10	3	35
Oct 2023	20	13	2	35
Nov 2023	3	7	0	10
Dec 2023	19	15	3	37
Jan 2024	21	9	0	30
Feb 2024	35	6	1	42
Mar 2024	22	16	1	39
Apr 2024	25	13	6	44
May 2024	32	17	4	53
Jun 2024	94	12	7	113
Jul 2024	29	11	2	42
Aug 2024	66	11	5	82
Sep 2024	18	6	0	24
Oct 2024	41	12	1	54
Nov 2024	29	10	0	39
Dec 2024	33	10	1	44
Jan 2025	20	14	0	34
Feb 2025	39	6	0	45
Mar 2025	17	9	0	26
Apr 2025	20	18	0	38
May 2025	27	9	6	42
Jun 2025	56	19	3	78
Jul 2025	36	17	3	56
Aug 2025	27	18	1	46
Sep 2025	89	23	2	114
Oct 2025	50	32	3	85
Nov 2025	43	38	1	82
Dec 2025	47	38	2	87
Jan 2026	54	32	8	94
Feb 2026	69	38	8	115
Mar 2026	35	36	2	73
Apr 2026	61	29	5	95
May 2026	57	22	1	80
Jun 2026	1	1	1	3

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Short summary

This short communication presents an efficient method for analyzing large fault scarp data sets. The programs and workflow required are open-source and the methodology is easy to use; thus the barrier to entry is low. This tool can be applied to a broad range of active tectonic studies. A case study in the Taupo Volcanic Zone, New Zealand, exemplifies the novelty of this tool by generating results that are consistent with extensive field campaigns in only a few hours at a work station.