Spatial assessment of probable recharge areas –  investigating the hydrogeological controls of an  active deep-seated gravitational slope deformation

Pfeiffer, Jan; Zieher, Thomas; Schmieder, Jan; Bogaard, Thom; Rutzinger, Martin; Spötl, Christoph

doi:10.5194/nhess-22-2219-2022

Articles | Volume 22, issue 7

https://doi.org/10.5194/nhess-22-2219-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/nhess-22-2219-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 22, issue 7

Research article

|

06 Jul 2022

Research article |

| 06 Jul 2022

Spatial assessment of probable recharge areas – investigating the hydrogeological controls of an active deep-seated gravitational slope deformation

Jan Pfeiffer, Thomas Zieher, Jan Schmieder, Thom Bogaard, Martin Rutzinger, and Christoph Spötl

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May 2022	47	20	6	73
Jun 2022	23	15	2	40
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Jan 2024	72	11	1	84
Feb 2024	25	16	2	43
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Dec 2024	32	9	2	43
Jan 2025	22	21	0	43
Feb 2025	19	10	1	30
Mar 2025	32	8	0	40
Apr 2025	58	15	1	74
May 2025	38	9	1	48
Jun 2025	44	44	0	88
Jul 2025	30	22	2	54
Aug 2025	33	22	3	58
Sep 2025	84	22	0	106
Oct 2025	41	35	1	77
Nov 2025	84	46	2	132
Dec 2025	68	51	0	119
Jan 2026	233	54	9	296
Feb 2026	109	28	3	140
Mar 2026	56	100	4	160
Apr 2026	74	93	3	170
May 2026	1	2	0	3

Cumulative views and downloads (calculated since 21 Dec 2021)

Month	HTML	PDF	XML	Total
Dec 2021	110	24	3	137
Jan 2022	74	37	7	118
Feb 2022	59	28	0	87
Mar 2022	80	58	7	145
Apr 2022	64	44	3	111
May 2022	47	20	6	73
Jun 2022	23	15	2	40
Jul 2022	277	72	5	354
Aug 2022	129	60	1	190
Sep 2022	50	28	1	79
Oct 2022	49	18	3	70
Nov 2022	45	21	2	68
Dec 2022	93	16	1	110
Jan 2023	34	13	0	47
Feb 2023	39	17	1	57
Mar 2023	40	13	1	54
Apr 2023	16	11	0	27
May 2023	15	8	5	28
Jun 2023	23	12	1	36
Jul 2023	16	19	1	36
Aug 2023	16	13	3	32
Sep 2023	24	13	0	37
Oct 2023	13	18	1	32
Nov 2023	9	10	0	19
Dec 2023	17	10	1	28
Jan 2024	72	11	1	84
Feb 2024	25	16	2	43
Mar 2024	21	24	2	47
Apr 2024	33	10	6	49
May 2024	34	8	1	43
Jun 2024	54	12	2	68
Jul 2024	24	15	9	48
Aug 2024	25	13	11	49
Sep 2024	16	12	5	33
Oct 2024	16	12	2	30
Nov 2024	24	9	3	36
Dec 2024	32	9	2	43
Jan 2025	22	21	0	43
Feb 2025	19	10	1	30
Mar 2025	32	8	0	40
Apr 2025	58	15	1	74
May 2025	38	9	1	48
Jun 2025	44	44	0	88
Jul 2025	30	22	2	54
Aug 2025	33	22	3	58
Sep 2025	84	22	0	106
Oct 2025	41	35	1	77
Nov 2025	84	46	2	132
Dec 2025	68	51	0	119
Jan 2026	233	54	9	296
Feb 2026	109	28	3	140
Mar 2026	56	100	4	160
Apr 2026	74	93	3	170
May 2026	1	2	0	3

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Short summary

The activity of slow-moving deep-seated landslides is commonly governed by pore pressure variations within the shear zone. Groundwater recharge as a consequence of precipitation therefore is a process regulating the activity of landslides. In this context, we present a highly automated geo-statistical approach to spatially assess groundwater recharge controlling the velocity of a deep-seated landslide in Tyrol, Austria.