A gridded multi-site precipitation generator for complex  terrain: an evaluation in the Austrian Alps

Dabhi, Hetal P.; Rotach, Mathias W.; Oberguggenberger, Michael

doi:10.5194/hess-27-2123-2023

Articles | Volume 27, issue 11

https://doi.org/10.5194/hess-27-2123-2023

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

https://doi.org/10.5194/hess-27-2123-2023

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

Articles | Volume 27, issue 11

Research article

|

07 Jun 2023

Research article |

| 07 Jun 2023

A gridded multi-site precipitation generator for complex terrain: an evaluation in the Austrian Alps

Hetal P. Dabhi, Mathias W. Rotach, and Michael Oberguggenberger

Viewed

Total article views: 4,290 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
3,265	914	111	4,290	290	126	159

HTML: 3,265
PDF: 914
XML: 111
Total: 4,290
Supplement: 290
BibTeX: 126
EndNote: 159

Views and downloads (calculated since 24 Jan 2022)

Month	HTML	PDF	XML	Total
Jan 2022	124	37	6	167
Feb 2022	128	32	3	163
Mar 2022	73	22	5	100
Apr 2022	34	11	1	46
May 2022	62	22	7	91
Jun 2022	15	13	1	29
Jul 2022	22	1	0	23
Aug 2022	15	7	0	22
Sep 2022	16	3	0	19
Oct 2022	16	4	0	20
Nov 2022	15	7	0	22
Dec 2022	15	5	1	21
Jan 2023	10	11	0	21
Feb 2023	14	10	0	24
Mar 2023	15	4	0	19
Apr 2023	8	8	0	16
May 2023	12	4	1	17
Jun 2023	353	85	5	443
Jul 2023	73	31	4	108
Aug 2023	55	17	1	73
Sep 2023	34	17	0	51
Oct 2023	38	19	2	59
Nov 2023	19	9	1	29
Dec 2023	40	9	2	51
Jan 2024	87	6	2	95
Feb 2024	30	16	1	47
Mar 2024	34	23	3	60
Apr 2024	34	10	2	46
May 2024	26	8	8	42
Jun 2024	87	8	2	97
Jul 2024	345	6	2	353
Aug 2024	46	6	2	54
Sep 2024	27	8	0	35
Oct 2024	35	9	3	47
Nov 2024	49	3	2	54
Dec 2024	47	7	4	58
Jan 2025	59	7	7	73
Feb 2025	18	13	1	32
Mar 2025	42	6	0	48
Apr 2025	57	16	1	74
May 2025	55	12	1	68
Jun 2025	56	55	1	112
Jul 2025	40	20	2	62
Aug 2025	49	16	2	67
Sep 2025	61	18	1	80
Oct 2025	63	39	2	104
Nov 2025	75	27	2	104
Dec 2025	86	54	2	142
Jan 2026	154	31	7	192
Feb 2026	259	23	4	286
Mar 2026	56	21	2	79
Apr 2026	82	58	5	145

Cumulative views and downloads (calculated since 24 Jan 2022)

Month	HTML	PDF	XML	Total
Jan 2022	124	37	6	167
Feb 2022	128	32	3	163
Mar 2022	73	22	5	100
Apr 2022	34	11	1	46
May 2022	62	22	7	91
Jun 2022	15	13	1	29
Jul 2022	22	1	0	23
Aug 2022	15	7	0	22
Sep 2022	16	3	0	19
Oct 2022	16	4	0	20
Nov 2022	15	7	0	22
Dec 2022	15	5	1	21
Jan 2023	10	11	0	21
Feb 2023	14	10	0	24
Mar 2023	15	4	0	19
Apr 2023	8	8	0	16
May 2023	12	4	1	17
Jun 2023	353	85	5	443
Jul 2023	73	31	4	108
Aug 2023	55	17	1	73
Sep 2023	34	17	0	51
Oct 2023	38	19	2	59
Nov 2023	19	9	1	29
Dec 2023	40	9	2	51
Jan 2024	87	6	2	95
Feb 2024	30	16	1	47
Mar 2024	34	23	3	60
Apr 2024	34	10	2	46
May 2024	26	8	8	42
Jun 2024	87	8	2	97
Jul 2024	345	6	2	353
Aug 2024	46	6	2	54
Sep 2024	27	8	0	35
Oct 2024	35	9	3	47
Nov 2024	49	3	2	54
Dec 2024	47	7	4	58
Jan 2025	59	7	7	73
Feb 2025	18	13	1	32
Mar 2025	42	6	0	48
Apr 2025	57	16	1	74
May 2025	55	12	1	68
Jun 2025	56	55	1	112
Jul 2025	40	20	2	62
Aug 2025	49	16	2	67
Sep 2025	61	18	1	80
Oct 2025	63	39	2	104
Nov 2025	75	27	2	104
Dec 2025	86	54	2	142
Jan 2026	154	31	7	192
Feb 2026	259	23	4	286
Mar 2026	56	21	2	79
Apr 2026	82	58	5	145

Viewed (geographical distribution)

Total article views: 4,290 (including HTML, PDF, and XML) Thereof 4,128 with geography defined and 162 with unknown origin.

Country	#	Views	%

1

1

Cited

Saved (final revised paper)

Latest update: 30 Apr 2026

Short summary

Spatiotemporally consistent high-resolution precipitation data on climate are needed for climate change impact assessments, but obtaining these data is challenging for areas with complex topography. We present a model that generates synthetic gridded daily precipitation data at a 1 km spatial resolution using observed meteorological station data as input, thereby providing data where historical observations are unavailable. We evaluate this model for a mountainous region in the European Alps.