Downscaling of climate change scenarios  for a high-resolution, site-specific assessment  of drought stress risk for two viticultural  regions with heterogeneous landscapes

Hofmann, Marco; Volosciuk, Claudia; Dubrovský, Martin; Maraun, Douglas; Schultz, Hans R.

doi:10.5194/esd-13-911-2022

Articles | Volume 13, issue 2

https://doi.org/10.5194/esd-13-911-2022

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

https://doi.org/10.5194/esd-13-911-2022

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

Articles | Volume 13, issue 2

Research article

| Highlight paper

|

18 May 2022

Research article | Highlight paper |

| 18 May 2022

Downscaling of climate change scenarios for a high-resolution, site-specific assessment of drought stress risk for two viticultural regions with heterogeneous landscapes

Marco Hofmann, Claudia Volosciuk, Martin Dubrovský, Douglas Maraun, and Hans R. Schultz

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Mar 2021	52	7	2	61
Apr 2021	261	35	3	299
May 2021	72	12	3	87
Jun 2021	32	6	0	38
Jul 2021	35	14	6	55
Aug 2021	21	8	2	31
Sep 2021	17	12	1	30
Oct 2021	27	45	1	73
Nov 2021	28	39	2	69
Dec 2021	26	13	0	39
Jan 2022	35	10	1	46
Feb 2022	32	3	1	36
Mar 2022	26	10	1	37
Apr 2022	26	9	0	35
May 2022	227	37	6	270
Jun 2022	262	25	3	290
Jul 2022	236	20	2	258
Aug 2022	305	44	0	349
Sep 2022	150	23	1	174
Oct 2022	142	29	3	174
Nov 2022	131	13	1	145
Dec 2022	120	26	1	147
Jan 2023	81	28	1	110
Feb 2023	62	21	0	83
Mar 2023	69	38	2	109
Apr 2023	58	25	0	83
May 2023	53	13	0	66
Jun 2023	58	15	2	75
Jul 2023	61	22	1	84
Aug 2023	55	13	3	71
Sep 2023	48	12	0	60
Oct 2023	65	14	1	80
Nov 2023	30	7	0	37
Dec 2023	29	13	1	43
Jan 2024	37	12	0	49
Feb 2024	24	32	2	58
Mar 2024	38	39	4	81
Apr 2024	37	13	15	65
May 2024	45	22	1	68
Jun 2024	89	17	2	108
Jul 2024	63	13	6	82
Aug 2024	66	7	8	81
Sep 2024	37	23	3	63
Oct 2024	43	20	2	65
Nov 2024	26	6	4	36
Dec 2024	23	15	3	41
Jan 2025	58	15	1	74
Feb 2025	30	12	0	42
Mar 2025	30	5	0	35
Apr 2025	38	18	0	56
May 2025	46	11	2	59
Jun 2025	72	47	4	123
Jul 2025	43	25	4	72
Aug 2025	86	17	2	105
Sep 2025	39	15	1	55
Oct 2025	58	35	3	96
Nov 2025	52	40	2	94
Dec 2025	94	39	0	133
Jan 2026	75	71	7	153
Feb 2026	74	24	3	101
Mar 2026	60	124	8	192
Apr 2026	109	94	4	207
May 2026	15	12	1	28

Cumulative views and downloads (calculated since 31 Mar 2021)

Month	HTML	PDF	XML	Total
Mar 2021	52	7	2	61
Apr 2021	261	35	3	299
May 2021	72	12	3	87
Jun 2021	32	6	0	38
Jul 2021	35	14	6	55
Aug 2021	21	8	2	31
Sep 2021	17	12	1	30
Oct 2021	27	45	1	73
Nov 2021	28	39	2	69
Dec 2021	26	13	0	39
Jan 2022	35	10	1	46
Feb 2022	32	3	1	36
Mar 2022	26	10	1	37
Apr 2022	26	9	0	35
May 2022	227	37	6	270
Jun 2022	262	25	3	290
Jul 2022	236	20	2	258
Aug 2022	305	44	0	349
Sep 2022	150	23	1	174
Oct 2022	142	29	3	174
Nov 2022	131	13	1	145
Dec 2022	120	26	1	147
Jan 2023	81	28	1	110
Feb 2023	62	21	0	83
Mar 2023	69	38	2	109
Apr 2023	58	25	0	83
May 2023	53	13	0	66
Jun 2023	58	15	2	75
Jul 2023	61	22	1	84
Aug 2023	55	13	3	71
Sep 2023	48	12	0	60
Oct 2023	65	14	1	80
Nov 2023	30	7	0	37
Dec 2023	29	13	1	43
Jan 2024	37	12	0	49
Feb 2024	24	32	2	58
Mar 2024	38	39	4	81
Apr 2024	37	13	15	65
May 2024	45	22	1	68
Jun 2024	89	17	2	108
Jul 2024	63	13	6	82
Aug 2024	66	7	8	81
Sep 2024	37	23	3	63
Oct 2024	43	20	2	65
Nov 2024	26	6	4	36
Dec 2024	23	15	3	41
Jan 2025	58	15	1	74
Feb 2025	30	12	0	42
Mar 2025	30	5	0	35
Apr 2025	38	18	0	56
May 2025	46	11	2	59
Jun 2025	72	47	4	123
Jul 2025	43	25	4	72
Aug 2025	86	17	2	105
Sep 2025	39	15	1	55
Oct 2025	58	35	3	96
Nov 2025	52	40	2	94
Dec 2025	94	39	0	133
Jan 2026	75	71	7	153
Feb 2026	74	24	3	101
Mar 2026	60	124	8	192
Apr 2026	109	94	4	207
May 2026	15	12	1	28

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Short summary

We modelled water budget developments of viticultural growing regions on the spatial scale of individual vineyard plots with respect to landscape features like the available water capacity of the soils, slope, and aspect of the sites. We used an ensemble of climate simulations and focused on the occurrence of drought stress. The results show a high bandwidth of projected changes where the risk of potential drought stress becomes more apparent in steep-slope regions.