Impact of urban geology on model simulations  of shallow groundwater levels and flow paths

LaBianca, Ane; Mortensen, Mette H.; Sandersen, Peter; Sonnenborg, Torben O.; Jensen, Karsten H.; Kidmose, Jacob

doi:10.5194/hess-27-1645-2023

Articles | Volume 27, issue 8

https://doi.org/10.5194/hess-27-1645-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Representation of water infrastructures in large-scale hydrological...

https://doi.org/10.5194/hess-27-1645-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 27, issue 8

Research article

|

19 Apr 2023

Research article |

| 19 Apr 2023

Impact of urban geology on model simulations of shallow groundwater levels and flow paths

Ane LaBianca, Mette H. Mortensen, Peter Sandersen, Torben O. Sonnenborg, Karsten H. Jensen, and Jacob Kidmose

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Month	HTML	PDF	XML	Total
Oct 2022	188	43	6	237
Nov 2022	107	20	9	136
Dec 2022	58	26	6	90
Jan 2023	14	10	0	24
Feb 2023	33	20	0	53
Mar 2023	20	17	1	38
Apr 2023	288	91	7	386
May 2023	113	39	2	154
Jun 2023	60	20	1	81
Jul 2023	44	31	3	78
Aug 2023	37	19	2	58
Sep 2023	22	19	0	41
Oct 2023	31	26	2	59
Nov 2023	22	11	1	34
Dec 2023	31	21	3	55
Jan 2024	40	24	3	67
Feb 2024	26	19	0	45
Mar 2024	72	22	1	95
Apr 2024	39	14	2	55
May 2024	38	18	6	62
Jun 2024	45	14	2	61
Jul 2024	67	15	4	86
Aug 2024	37	6	5	48
Sep 2024	40	8	0	48
Oct 2024	24	10	1	35
Nov 2024	28	11	1	40
Dec 2024	34	5	1	40
Jan 2025	31	17	2	50
Feb 2025	31	12	3	46
Mar 2025	27	16	2	45
Apr 2025	42	15	1	58
May 2025	38	20	3	61
Jun 2025	56	29	0	85
Jul 2025	23	23	3	49
Aug 2025	37	8	1	46
Sep 2025	54	26	3	83
Oct 2025	44	41	2	87
Nov 2025	60	45	8	113
Dec 2025	91	45	2	138
Jan 2026	82	28	12	122
Feb 2026	87	35	6	128
Mar 2026	68	30	4	102
Apr 2026	76	51	6	133
May 2026	16	8	1	25

Cumulative views and downloads (calculated since 04 Oct 2022)

Month	HTML	PDF	XML	Total
Oct 2022	188	43	6	237
Nov 2022	107	20	9	136
Dec 2022	58	26	6	90
Jan 2023	14	10	0	24
Feb 2023	33	20	0	53
Mar 2023	20	17	1	38
Apr 2023	288	91	7	386
May 2023	113	39	2	154
Jun 2023	60	20	1	81
Jul 2023	44	31	3	78
Aug 2023	37	19	2	58
Sep 2023	22	19	0	41
Oct 2023	31	26	2	59
Nov 2023	22	11	1	34
Dec 2023	31	21	3	55
Jan 2024	40	24	3	67
Feb 2024	26	19	0	45
Mar 2024	72	22	1	95
Apr 2024	39	14	2	55
May 2024	38	18	6	62
Jun 2024	45	14	2	61
Jul 2024	67	15	4	86
Aug 2024	37	6	5	48
Sep 2024	40	8	0	48
Oct 2024	24	10	1	35
Nov 2024	28	11	1	40
Dec 2024	34	5	1	40
Jan 2025	31	17	2	50
Feb 2025	31	12	3	46
Mar 2025	27	16	2	45
Apr 2025	42	15	1	58
May 2025	38	20	3	61
Jun 2025	56	29	0	85
Jul 2025	23	23	3	49
Aug 2025	37	8	1	46
Sep 2025	54	26	3	83
Oct 2025	44	41	2	87
Nov 2025	60	45	8	113
Dec 2025	91	45	2	138
Jan 2026	82	28	12	122
Feb 2026	87	35	6	128
Mar 2026	68	30	4	102
Apr 2026	76	51	6	133
May 2026	16	8	1	25

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Short summary

The study explores the effect of Anthropocene geology and the computational grid size on the simulation of shallow urban groundwater. Many cities are facing challenges with high groundwater levels close to the surface, yet urban planning and development seldom consider its impact on the groundwater resource. This study illustrates that the urban subsurface infrastructure significantly affects the groundwater flow paths and the residence time of shallow urban groundwater.