Hydrological impacts of climate change on small ungauged catchments – results from a global climate model–regional climate model–hydrologic model chain

Tsegaw, Aynalem T.; Pontoppidan, Marie; Kristvik, Erle; Alfredsen, Knut; Muthanna, Tone M.

doi:10.5194/nhess-20-2133-2020

Articles | Volume 20, issue 8

https://doi.org/10.5194/nhess-20-2133-2020

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

Special issue:

Integrated assessment of climate change impacts at selected...

https://doi.org/10.5194/nhess-20-2133-2020

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

Articles | Volume 20, issue 8

Research article

|

10 Aug 2020

Research article |

| 10 Aug 2020

Hydrological impacts of climate change on small ungauged catchments – results from a global climate model–regional climate model–hydrologic model chain

Aynalem T. Tsegaw, Marie Pontoppidan, Erle Kristvik, Knut Alfredsen, and Tone M. Muthanna

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Total article views: 3,083 (including HTML, PDF, and XML)

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Views and downloads (calculated since 04 Dec 2019)

Month	HTML	PDF	XML	Total
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Jan 2020	64	10	0	74
Feb 2020	25	9	0	34
Mar 2020	14	6	0	20
Apr 2020	6	4	0	10
May 2020	13	8	2	23
Jun 2020	12	4	0	16
Jul 2020	14	9	3	26
Aug 2020	264	62	8	334
Sep 2020	62	17	1	80
Oct 2020	52	17	0	69
Nov 2020	97	23	2	122
Dec 2020	95	12	0	107
Jan 2021	29	8	0	37
Feb 2021	19	8	0	27
Mar 2021	9	5	0	14
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May 2021	16	7	1	24
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Oct 2021	18	32	0	50
Nov 2021	17	29	0	46
Dec 2021	14	6	0	20
Jan 2022	8	13	0	21
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Mar 2022	13	5	1	19
Apr 2022	13	3	1	17
May 2022	14	5	1	20
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Jul 2022	30	2	0	32
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Jan 2023	15	7	0	22
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Mar 2023	22	13	1	36
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Jun 2023	18	12	0	30
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Jan 2024	36	7	1	44
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Apr 2024	29	6	2	37
May 2024	17	9	1	27
Jun 2024	18	18	3	39
Jul 2024	29	11	4	44
Aug 2024	21	3	2	26
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Jan 2025	22	7	3	32
Feb 2025	32	9	2	43
Mar 2025	29	12	0	41
Apr 2025	26	14	1	41
May 2025	30	3	1	34
Jun 2025	47	15	0	62
Jul 2025	43	16	2	61
Aug 2025	35	9	2	46
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Oct 2025	47	24	14	85
Nov 2025	23	5	15	43

Cumulative views and downloads (calculated since 04 Dec 2019)

Month	HTML	PDF	XML	Total
Dec 2019	175	55	1	231
Jan 2020	64	10	0	74
Feb 2020	25	9	0	34
Mar 2020	14	6	0	20
Apr 2020	6	4	0	10
May 2020	13	8	2	23
Jun 2020	12	4	0	16
Jul 2020	14	9	3	26
Aug 2020	264	62	8	334
Sep 2020	62	17	1	80
Oct 2020	52	17	0	69
Nov 2020	97	23	2	122
Dec 2020	95	12	0	107
Jan 2021	29	8	0	37
Feb 2021	19	8	0	27
Mar 2021	9	5	0	14
Apr 2021	23	7	0	30
May 2021	16	7	1	24
Jun 2021	12	8	0	20
Jul 2021	11	14	0	25
Aug 2021	14	9	0	23
Sep 2021	21	15	0	36
Oct 2021	18	32	0	50
Nov 2021	17	29	0	46
Dec 2021	14	6	0	20
Jan 2022	8	13	0	21
Feb 2022	10	7	1	18
Mar 2022	13	5	1	19
Apr 2022	13	3	1	17
May 2022	14	5	1	20
Jun 2022	8	4	2	14
Jul 2022	30	2	0	32
Aug 2022	111	5	0	116
Sep 2022	10	6	0	16
Oct 2022	8	4	0	12
Nov 2022	22	10	1	33
Dec 2022	16	5	0	21
Jan 2023	15	7	0	22
Feb 2023	18	8	0	26
Mar 2023	22	13	1	36
Apr 2023	4	5	0	9
May 2023	18	12	3	33
Jun 2023	18	12	0	30
Jul 2023	12	10	2	24
Aug 2023	20	6	2	28
Sep 2023	11	16	1	28
Oct 2023	10	13	1	24
Nov 2023	14	1	4	19
Dec 2023	17	10	1	28
Jan 2024	36	7	1	44
Feb 2024	9	13	1	23
Mar 2024	24	17	4	45
Apr 2024	29	6	2	37
May 2024	17	9	1	27
Jun 2024	18	18	3	39
Jul 2024	29	11	4	44
Aug 2024	21	3	2	26
Sep 2024	21	9	1	31
Oct 2024	16	9	1	26
Nov 2024	12	3	0	15
Dec 2024	15	3	1	19
Jan 2025	22	7	3	32
Feb 2025	32	9	2	43
Mar 2025	29	12	0	41
Apr 2025	26	14	1	41
May 2025	30	3	1	34
Jun 2025	47	15	0	62
Jul 2025	43	16	2	61
Aug 2025	35	9	2	46
Sep 2025	59	14	2	75
Oct 2025	47	24	14	85
Nov 2025	23	5	15	43

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Short summary

Hydrological impacts of climate change are generally performed by following steps from global to regional climate modeling through data tailoring and hydrological modeling. Usually, the climate–hydrology chain primary focuses on medium to large catchments. To study impacts of climate change on small catchments, a high-resolution regional climate model and hydrological model are required. The results from high-resolution models help in proposing specific adaptation strategies for impacts.


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