eSCAPE: Regional to Global Scale Landscape Evolution Model v2.0

Salles, Tristan

doi:10.5194/gmd-12-4165-2019

Articles | Volume 12, issue 9

https://doi.org/10.5194/gmd-12-4165-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/gmd-12-4165-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 12, issue 9

Model description paper

|

25 Sep 2019

Model description paper |

| 25 Sep 2019

eSCAPE: Regional to Global Scale Landscape Evolution Model v2.0

Tristan Salles

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Total article views: 5,214 (including HTML, PDF, and XML)

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3,694	1,395	125	5,214	152	218

HTML: 3,694
PDF: 1,395
XML: 125
Total: 5,214
BibTeX: 152
EndNote: 218

Views and downloads (calculated since 07 Jun 2019)

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Dec 2019	101	21	0	122
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Nov 2020	31	9	0	40
Dec 2020	10	14	0	24
Jan 2021	26	14	1	41
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Mar 2021	18	6	0	24
Apr 2021	11	8	0	19
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Jun 2021	12	10	0	22
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Jan 2022	9	11	1	21
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Aug 2022	101	6	0	107
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Jan 2023	21	12	0	33
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Aug 2023	23	10	1	34
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Oct 2023	47	11	1	59
Nov 2023	15	4	0	19
Dec 2023	31	28	4	63
Jan 2024	38	7	1	46
Feb 2024	57	30	2	89
Mar 2024	43	11	3	57
Apr 2024	115	9	9	133
May 2024	29	10	6	45
Jun 2024	51	18	2	71
Jul 2024	31	4	5	40
Aug 2024	29	11	2	42
Sep 2024	32	11	0	43
Oct 2024	43	12	0	55
Nov 2024	26	2	2	30
Dec 2024	27	9	3	39
Jan 2025	37	7	4	48
Feb 2025	48	14	2	64
Mar 2025	33	8	1	42
Apr 2025	83	15	1	99
May 2025	39	2	2	43
Jun 2025	57	11	1	69
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Aug 2025	48	9	0	57
Sep 2025	51	19	6	76
Oct 2025	80	29	4	113
Nov 2025	96	40	2	138
Dec 2025	88	49	0	137
Jan 2026	126	42	8	176
Feb 2026	83	33	4	120
Mar 2026	209	37	7	253
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Cumulative views and downloads (calculated since 07 Jun 2019)

Month	HTML	PDF	XML	Total
Jun 2019	223	85	1	309
Jul 2019	43	14	0	57
Aug 2019	33	16	0	49
Sep 2019	172	38	3	213
Oct 2019	152	65	3	220
Nov 2019	34	26	0	60
Dec 2019	101	21	0	122
Jan 2020	46	20	1	67
Feb 2020	37	15	0	52
Mar 2020	32	19	1	52
Apr 2020	13	13	0	26
May 2020	28	11	0	39
Jun 2020	16	13	1	30
Jul 2020	44	44	8	96
Aug 2020	22	10	1	33
Sep 2020	21	11	0	32
Oct 2020	16	14	1	31
Nov 2020	31	9	0	40
Dec 2020	10	14	0	24
Jan 2021	26	14	1	41
Feb 2021	16	6	0	22
Mar 2021	18	6	0	24
Apr 2021	11	8	0	19
May 2021	12	6	0	18
Jun 2021	12	10	0	22
Jul 2021	16	15	0	31
Aug 2021	13	9	0	22
Sep 2021	34	13	0	47
Oct 2021	12	41	0	53
Nov 2021	20	33	0	53
Dec 2021	20	8	0	28
Jan 2022	9	11	1	21
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Mar 2022	20	14	0	34
Apr 2022	16	7	0	23
May 2022	21	5	1	27
Jun 2022	12	9	0	21
Jul 2022	31	7	0	38
Aug 2022	101	6	0	107
Sep 2022	41	10	0	51
Oct 2022	40	6	2	48
Nov 2022	29	8	1	38
Dec 2022	27	10	1	38
Jan 2023	21	12	0	33
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Mar 2023	45	27	1	73
Apr 2023	18	45	0	63
May 2023	23	16	2	41
Jun 2023	21	6	1	28
Jul 2023	23	9	1	33
Aug 2023	23	10	1	34
Sep 2023	20	7	1	28
Oct 2023	47	11	1	59
Nov 2023	15	4	0	19
Dec 2023	31	28	4	63
Jan 2024	38	7	1	46
Feb 2024	57	30	2	89
Mar 2024	43	11	3	57
Apr 2024	115	9	9	133
May 2024	29	10	6	45
Jun 2024	51	18	2	71
Jul 2024	31	4	5	40
Aug 2024	29	11	2	42
Sep 2024	32	11	0	43
Oct 2024	43	12	0	55
Nov 2024	26	2	2	30
Dec 2024	27	9	3	39
Jan 2025	37	7	4	48
Feb 2025	48	14	2	64
Mar 2025	33	8	1	42
Apr 2025	83	15	1	99
May 2025	39	2	2	43
Jun 2025	57	11	1	69
Jul 2025	48	12	2	62
Aug 2025	48	9	0	57
Sep 2025	51	19	6	76
Oct 2025	80	29	4	113
Nov 2025	96	40	2	138
Dec 2025	88	49	0	137
Jan 2026	126	42	8	176
Feb 2026	83	33	4	120
Mar 2026	209	37	7	253
Apr 2026	99	23	5	127

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Short summary

This paper presents a new numerical model able to simulate for the first time the evolution of Earth's surface at a global scale under different precipitation, sea level, and tectonic conditions. This is significant as it can help to bridge the gap between local- and global-scale predictions of Earth's past and future variations.

eSCAPE: Regional to Global Scale Landscape Evolution Model v2.0

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10 citations as recorded by crossref.

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