Simulating the evolution of the topography–climate  coupled system

Paik, Kyungrock; Kim, Won

doi:10.5194/hess-25-2459-2021

Articles | Volume 25, issue 5

https://doi.org/10.5194/hess-25-2459-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/hess-25-2459-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 25, issue 5

Research article

|

12 May 2021

Research article |

| 12 May 2021

Simulating the evolution of the topography–climate coupled system

Kyungrock Paik and Won Kim

Viewed

Total article views: 3,844 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
2,933	820	91	3,844	82	125

HTML: 2,933
PDF: 820
XML: 91
Total: 3,844
BibTeX: 82
EndNote: 125

Views and downloads (calculated since 17 Nov 2020)

Month	HTML	PDF	XML	Total
Nov 2020	224	61	3	288
Dec 2020	46	17	0	63
Jan 2021	31	12	1	44
Feb 2021	21	0	21
Mar 2021	20	6	0	26
Apr 2021	3	3	0	6
May 2021	351	54	2	407
Jun 2021	71	31	3	105
Jul 2021	34	12	0	46
Aug 2021	26	21	0	47
Sep 2021	30	13	0	43
Oct 2021	27	37	1	65
Nov 2021	19	38	1	58
Dec 2021	32	10	0	42
Jan 2022	16	10	1	27
Feb 2022	18	5	1	24
Mar 2022	9	7	0	16
Apr 2022	13	7	0	20
May 2022	13	8	1	22
Jun 2022	14	9	2	25
Jul 2022	62	4	0	66
Aug 2022	60	6	0	66
Sep 2022	17	6	0	23
Oct 2022	13	9	1	23
Nov 2022	24	8	0	32
Dec 2022	9	2	2	13
Jan 2023	10	16	0	26
Feb 2023	12	8	0	20
Mar 2023	20	17	0	37
Apr 2023	32	19	0	51
May 2023	15	6	0	21
Jun 2023	12	5	0	17
Jul 2023	19	17	3	39
Aug 2023	14	11	1	26
Sep 2023	11	8	1	20
Oct 2023	12	8	0	20
Nov 2023	18	4	0	22
Dec 2023	21	8	3	32
Jan 2024	19	13	0	32
Feb 2024	24	9	0	33
Mar 2024	25	9	0	34
Apr 2024	23	10	4	37
May 2024	26	6	4	36
Jun 2024	27	11	2	40
Jul 2024	230	2	1	233
Aug 2024	27	5	2	34
Sep 2024	20	8	0	28
Oct 2024	28	7	2	37
Nov 2024	33	10	1	44
Dec 2024	28	2	1	31
Jan 2025	28	6	5	39
Feb 2025	38	8	0	46
Mar 2025	19	13	0	32
Apr 2025	16	12	3	31
May 2025	29	2	2	33
Jun 2025	51	14	1	66
Jul 2025	24	13	1	38
Aug 2025	42	5	4	51
Sep 2025	154	24	1	179
Oct 2025	37	15	4	56
Nov 2025	63	13	3	79
Dec 2025	55	20	5	80
Jan 2026	132	16	6	154
Feb 2026	226	9	3	238
Mar 2026	60	18	6	84
Apr 2026	50	17	3	70

Cumulative views and downloads (calculated since 17 Nov 2020)

Month	HTML	PDF	XML	Total
Nov 2020	224	61	3	288
Dec 2020	46	17	0	63
Jan 2021	31	12	1	44
Feb 2021	21	0	21
Mar 2021	20	6	0	26
Apr 2021	3	3	0	6
May 2021	351	54	2	407
Jun 2021	71	31	3	105
Jul 2021	34	12	0	46
Aug 2021	26	21	0	47
Sep 2021	30	13	0	43
Oct 2021	27	37	1	65
Nov 2021	19	38	1	58
Dec 2021	32	10	0	42
Jan 2022	16	10	1	27
Feb 2022	18	5	1	24
Mar 2022	9	7	0	16
Apr 2022	13	7	0	20
May 2022	13	8	1	22
Jun 2022	14	9	2	25
Jul 2022	62	4	0	66
Aug 2022	60	6	0	66
Sep 2022	17	6	0	23
Oct 2022	13	9	1	23
Nov 2022	24	8	0	32
Dec 2022	9	2	2	13
Jan 2023	10	16	0	26
Feb 2023	12	8	0	20
Mar 2023	20	17	0	37
Apr 2023	32	19	0	51
May 2023	15	6	0	21
Jun 2023	12	5	0	17
Jul 2023	19	17	3	39
Aug 2023	14	11	1	26
Sep 2023	11	8	1	20
Oct 2023	12	8	0	20
Nov 2023	18	4	0	22
Dec 2023	21	8	3	32
Jan 2024	19	13	0	32
Feb 2024	24	9	0	33
Mar 2024	25	9	0	34
Apr 2024	23	10	4	37
May 2024	26	6	4	36
Jun 2024	27	11	2	40
Jul 2024	230	2	1	233
Aug 2024	27	5	2	34
Sep 2024	20	8	0	28
Oct 2024	28	7	2	37
Nov 2024	33	10	1	44
Dec 2024	28	2	1	31
Jan 2025	28	6	5	39
Feb 2025	38	8	0	46
Mar 2025	19	13	0	32
Apr 2025	16	12	3	31
May 2025	29	2	2	33
Jun 2025	51	14	1	66
Jul 2025	24	13	1	38
Aug 2025	42	5	4	51
Sep 2025	154	24	1	179
Oct 2025	37	15	4	56
Nov 2025	63	13	3	79
Dec 2025	55	20	5	80
Jan 2026	132	16	6	154
Feb 2026	226	9	3	238
Mar 2026	60	18	6	84
Apr 2026	50	17	3	70

Viewed (geographical distribution)

Total article views: 3,844 (including HTML, PDF, and XML) Thereof 3,588 with geography defined and 256 with unknown origin.

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Latest update: 30 Apr 2026

Short summary

Climate, topography, and tectonics evolve together. To simulate their co-evolution, a fully coupled computer simulation model between local climate and topography is developed in this study. We simulated how the mountain development enhances local rainfall and its feedback on topography through stronger erosion. We found that the evolution of the coupled system can be more complicated than previously thought. The channel concavity on the windward side becomes lower as the wind grows.