Effect of changing vegetation and precipitation on denudation – Part 2: Predicted landscape response to transient climate and vegetation cover over millennial to million-year timescales

Schmid, Manuel; Ehlers, Todd A.; Werner, Christian; Hickler, Thomas; Fuentes-Espoz, Juan-Pablo

doi:10.5194/esurf-6-859-2018

Articles | Volume 6, issue 4

https://doi.org/10.5194/esurf-6-859-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Earth surface shaping by biota (ESurf/BG/ESD/ESSD/SOIL inter-journal...

https://doi.org/10.5194/esurf-6-859-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 6, issue 4

Research article

|

08 Oct 2018

Research article |

| 08 Oct 2018

Effect of changing vegetation and precipitation on denudation – Part 2: Predicted landscape response to transient climate and vegetation cover over millennial to million-year timescales

Manuel Schmid, Todd A. Ehlers, Christian Werner, Thomas Hickler, and Juan-Pablo Fuentes-Espoz

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Aug 2018	17	5	1	23
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Jan 2020	34	22	0	56
Feb 2020	27	12	0	39
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Apr 2020	15	11	0	26
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Cumulative views and downloads (calculated since 21 Feb 2018)

Month	HTML	PDF	XML	Total
Feb 2018	131	38	9	178
Mar 2018	182	27	1	210
Apr 2018	75	16	1	92
May 2018	49	11	2	62
Jun 2018	34	7	1	42
Jul 2018	23	12	0	35
Aug 2018	17	5	1	23
Sep 2018	25	12	0	37
Oct 2018	383	114	4	501
Nov 2018	197	76	2	275
Dec 2018	70	60	1	131
Jan 2019	40	56	0	96
Feb 2019	26	23	0	49
Mar 2019	29	18	1	48
Apr 2019	33	18	0	51
May 2019	35	20	1	56
Jun 2019	44	22	1	67
Jul 2019	24	21	0	45
Aug 2019	20	22	0	42
Sep 2019	23	26	0	49
Oct 2019	102	46	1	149
Nov 2019	77	31	0	108
Dec 2019	33	13	2	48
Jan 2020	34	22	0	56
Feb 2020	27	12	0	39
Mar 2020	13	24	1	38
Apr 2020	15	11	0	26
May 2020	35	18	0	53
Jun 2020	44	26	2	72
Jul 2020	52	60	16	128
Aug 2020	11	11	1	23
Sep 2020	39	8	0	47
Oct 2020	22	8	1	31
Nov 2020	22	24	1	47
Dec 2020	22	15	0	37
Jan 2021	31	21	0	52
Feb 2021	14	18	0	32
Mar 2021	18	13	8	39
Apr 2021	12	9	6	27
May 2021	18	13	6	37
Jun 2021	17	12	2	31
Jul 2021	25	15	0	40
Aug 2021	36	16	0	52
Sep 2021	25	13	1	39
Oct 2021	26	43	1	70
Nov 2021	43	39	1	83
Dec 2021	61	15	3	79
Jan 2022	64	17	0	81
Feb 2022	29	11	6	46
Mar 2022	26	17	6	49
Apr 2022	41	11	6	58
May 2022	35	7	2	44
Jun 2022	30	8	2	40
Jul 2022	29	6	0	35
Aug 2022	114	14	2	130
Sep 2022	33	11	2	46
Oct 2022	23	3	1	27
Nov 2022	35	16	1	52
Dec 2022	17	8	1	26
Jan 2023	26	17	1	44
Feb 2023	25	12	3	40
Mar 2023	42	13	3	58
Apr 2023	18	10	1	29
May 2023	28	14	5	47
Jun 2023	12	6	1	19
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Nov 2023	11	4	0	15
Dec 2023	25	10	3	38
Jan 2024	24	16	0	40
Feb 2024	21	13	0	34
Mar 2024	29	11	1	41
Apr 2024	30	8	3	41
May 2024	30	10	4	44
Jun 2024	93	13	5	111
Jul 2024	60	23	4	87
Aug 2024	48	3	4	55
Sep 2024	22	2	4	28
Oct 2024	31	9	1	41
Nov 2024	19	5	0	24
Dec 2024	9	9	2	20
Jan 2025	32	11	0	43
Feb 2025	29	17	1	47
Mar 2025	22	12	0	34
Apr 2025	35	15	0	50
May 2025	29	9	2	40
Jun 2025	47	16	0	63
Jul 2025	30	18	1	49
Aug 2025	59	16	2	77
Sep 2025	66	26	2	94
Oct 2025	56	26	2	84
Nov 2025	59	50	2	111
Dec 2025	3	4	0	7

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Short summary

We present a numerical modeling study into the interactions between transient climate and vegetation cover with hillslope and fluvial processes. We use a state-of-the-art landscape evolution model library (Landlab) and design model experiments to investigate the effect of climate change and the associated changes in surface vegetation cover on main basin metrics. This paper is a companion paper to Part 1 (this journal), which investigates the effect of climate change on surface vegetation cover.


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