Modeling glacial and fluvial landform evolution  at large scales using a stream-power approach

Hergarten, Stefan

doi:10.5194/esurf-9-937-2021

Articles | Volume 9, issue 4

https://doi.org/10.5194/esurf-9-937-2021

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

https://doi.org/10.5194/esurf-9-937-2021

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

Articles | Volume 9, issue 4

Research article

|

06 Aug 2021

Research article |

| 06 Aug 2021

Modeling glacial and fluvial landform evolution at large scales using a stream-power approach

Stefan Hergarten

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Total article views: 6,246 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
3,944	2,194	108	6,246	134	159

HTML: 3,944
PDF: 2,194
XML: 108
Total: 6,246
BibTeX: 134
EndNote: 159

Views and downloads (calculated since 22 Jan 2021)

Month	HTML	PDF	XML	Total
Jan 2021	202	66	2	270
Feb 2021	249	43	4	296
Mar 2021	131	35	4	170
Apr 2021	121	33	10	164
May 2021	55	22	1	78
Jun 2021	27	22	0	49
Jul 2021	28	17	0	45
Aug 2021	392	77	2	471
Sep 2021	189	43	1	233
Oct 2021	49	192	1	242
Nov 2021	59	98	0	157
Dec 2021	36	29	1	66
Jan 2022	49	24	1	74
Feb 2022	29	18	1	48
Mar 2022	31	20	1	52
Apr 2022	44	4	1	49
May 2022	43	11	1	55
Jun 2022	15	9	0	24
Jul 2022	33	9	1	43
Aug 2022	32	11	1	44
Sep 2022	31	16	1	48
Oct 2022	16	10	1	27
Nov 2022	28	6	0	34
Dec 2022	24	20	0	44
Jan 2023	24	31	0	55
Feb 2023	21	11	0	32
Mar 2023	14	7	1	22
Apr 2023	14	11	0	25
May 2023	19	13	4	36
Jun 2023	15	11	1	27
Jul 2023	13	28	0	41
Aug 2023	16	22	1	39
Sep 2023	20	16	3	39
Oct 2023	15	13	1	29
Nov 2023	11	9	0	20
Dec 2023	18	14	4	36
Jan 2024	13	23	0	36
Feb 2024	22	29	1	52
Mar 2024	35	25	0	60
Apr 2024	22	28	3	53
May 2024	18	9	2	29
Jun 2024	270	17	7	294
Jul 2024	75	12	1	88
Aug 2024	45	12	5	62
Sep 2024	31	23	1	55
Oct 2024	18	52	0	70
Nov 2024	17	55	1	73
Dec 2024	17	6	0	23
Jan 2025	41	54	3	98
Feb 2025	32	28	0	60
Mar 2025	19	8	0	27
Apr 2025	25	27	2	54
May 2025	26	16	2	44
Jun 2025	89	86	2	177
Jul 2025	35	41	1	77
Aug 2025	38	20	3	61
Sep 2025	108	41	1	150
Oct 2025	74	72	4	150
Nov 2025	120	57	1	178
Dec 2025	116	110	2	228
Jan 2026	178	67	9	254
Feb 2026	220	30	4	254
Mar 2026	44	109	3	156
Apr 2026	83	116	0	199

Cumulative views and downloads (calculated since 22 Jan 2021)

Month	HTML	PDF	XML	Total
Jan 2021	202	66	2	270
Feb 2021	249	43	4	296
Mar 2021	131	35	4	170
Apr 2021	121	33	10	164
May 2021	55	22	1	78
Jun 2021	27	22	0	49
Jul 2021	28	17	0	45
Aug 2021	392	77	2	471
Sep 2021	189	43	1	233
Oct 2021	49	192	1	242
Nov 2021	59	98	0	157
Dec 2021	36	29	1	66
Jan 2022	49	24	1	74
Feb 2022	29	18	1	48
Mar 2022	31	20	1	52
Apr 2022	44	4	1	49
May 2022	43	11	1	55
Jun 2022	15	9	0	24
Jul 2022	33	9	1	43
Aug 2022	32	11	1	44
Sep 2022	31	16	1	48
Oct 2022	16	10	1	27
Nov 2022	28	6	0	34
Dec 2022	24	20	0	44
Jan 2023	24	31	0	55
Feb 2023	21	11	0	32
Mar 2023	14	7	1	22
Apr 2023	14	11	0	25
May 2023	19	13	4	36
Jun 2023	15	11	1	27
Jul 2023	13	28	0	41
Aug 2023	16	22	1	39
Sep 2023	20	16	3	39
Oct 2023	15	13	1	29
Nov 2023	11	9	0	20
Dec 2023	18	14	4	36
Jan 2024	13	23	0	36
Feb 2024	22	29	1	52
Mar 2024	35	25	0	60
Apr 2024	22	28	3	53
May 2024	18	9	2	29
Jun 2024	270	17	7	294
Jul 2024	75	12	1	88
Aug 2024	45	12	5	62
Sep 2024	31	23	1	55
Oct 2024	18	52	0	70
Nov 2024	17	55	1	73
Dec 2024	17	6	0	23
Jan 2025	41	54	3	98
Feb 2025	32	28	0	60
Mar 2025	19	8	0	27
Apr 2025	25	27	2	54
May 2025	26	16	2	44
Jun 2025	89	86	2	177
Jul 2025	35	41	1	77
Aug 2025	38	20	3	61
Sep 2025	108	41	1	150
Oct 2025	74	72	4	150
Nov 2025	120	57	1	178
Dec 2025	116	110	2	228
Jan 2026	178	67	9	254
Feb 2026	220	30	4	254
Mar 2026	44	109	3	156
Apr 2026	83	116	0	199

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Total article views: 6,246 (including HTML, PDF, and XML) Thereof 5,843 with geography defined and 403 with unknown origin.

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Short summary

This paper presents a new approach to modeling glacial erosion on large scales. The formalism is similar to large-scale models of fluvial erosion, so glacial and fluvial processes can be easily combined. The model is simpler and numerically less demanding than established models based on a more detailed description of the ice flux. The numerical implementation almost achieves the efficiency of purely fluvial models, so that simulations over millions of years can be performed on standard PCs.