A lattice grain model of hillslope evolution

Tucker, Gregory E.; McCoy, Scott W.; Hobley, Daniel E. J.

doi:10.5194/esurf-6-563-2018

Articles | Volume 6, issue 3

https://doi.org/10.5194/esurf-6-563-2018

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

https://doi.org/10.5194/esurf-6-563-2018

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

Articles | Volume 6, issue 3

Research article

|

17 Jul 2018

Research article |

| 17 Jul 2018

A lattice grain model of hillslope evolution

Gregory E. Tucker, Scott W. McCoy, and Daniel E. J. Hobley

Viewed

Total article views: 5,374 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
3,651	1,587	136	5,374	406	126	172

HTML: 3,651
PDF: 1,587
XML: 136
Total: 5,374
Supplement: 406
BibTeX: 126
EndNote: 172

Views and downloads (calculated since 07 Feb 2018)

Month	HTML	PDF	XML	Total
Feb 2018	231	79	13	323
Mar 2018	152	15	2	169
Apr 2018	47	8	1	56
May 2018	31	8	1	40
Jun 2018	21	11	0	32
Jul 2018	263	99	5	367
Aug 2018	268	33	1	302
Sep 2018	112	20	2	134
Oct 2018	43	34	4	81
Nov 2018	25	17	2	44
Dec 2018	17	8	1	26
Jan 2019	14	10	0	24
Feb 2019	15	10	0	25
Mar 2019	13	16	0	29
Apr 2019	27	8	2	37
May 2019	29	12	0	41
Jun 2019	37	14	0	51
Jul 2019	23	8	3	34
Aug 2019	16	11	0	27
Sep 2019	12	9	1	22
Oct 2019	106	22	1	129
Nov 2019	89	16	0	105
Dec 2019	34	13	2	49
Jan 2020	25	4	1	30
Feb 2020	18	8	0	26
Mar 2020	13	12	0	25
Apr 2020	8	9	0	17
May 2020	23	13	1	37
Jun 2020	35	32	1	68
Jul 2020	55	63	16	134
Aug 2020	8	13	1	22
Sep 2020	15	11	0	26
Oct 2020	33	13	3	49
Nov 2020	17	9	0	26
Dec 2020	17	12	0	29
Jan 2021	23	14	0	37
Feb 2021	14	9	0	23
Mar 2021	11	10	0	21
Apr 2021	13	10	0	23
May 2021	10	8	0	18
Jun 2021	8	8	0	16
Jul 2021	17	12	0	29
Aug 2021	14	12	0	26
Sep 2021	20	13	0	33
Oct 2021	17	45	0	62
Nov 2021	26	31	0	57
Dec 2021	19	6	0	25
Jan 2022	11	10	0	21
Feb 2022	14	10	3	27
Mar 2022	22	12	0	34
Apr 2022	19	18	1	38
May 2022	16	9	1	26
Jun 2022	15	8	1	24
Jul 2022	21	10	1	32
Aug 2022	35	7	0	42
Sep 2022	14	6	0	20
Oct 2022	18	4	0	22
Nov 2022	33	25	0	58
Dec 2022	15	14	0	29
Jan 2023	16	16	1	33
Feb 2023	19	14	1	34
Mar 2023	15	12	1	28
Apr 2023	6	18	0	24
May 2023	16	12	3	31
Jun 2023	16	10	0	26
Jul 2023	5	8	0	13
Aug 2023	17	10	4	31
Sep 2023	12	15	1	28
Oct 2023	27	19	1	47
Nov 2023	10	5	0	15
Dec 2023	20	16	4	40
Jan 2024	17	7	0	24
Feb 2024	9	8	0	17
Mar 2024	13	18	1	32
Apr 2024	79	12	6	97
May 2024	24	12	6	42
Jun 2024	227	8	5	240
Jul 2024	58	18	1	77
Aug 2024	38	7	4	49
Sep 2024	8	8	0	16
Oct 2024	19	12	3	34
Nov 2024	8	8	3	19
Dec 2024	18	20	2	40
Jan 2025	28	29	0	57
Feb 2025	29	64	0	93
Mar 2025	27	15	1	43
Apr 2025	18	10	0	28
May 2025	36	9	1	46
Jun 2025	65	5	0	70
Jul 2025	39	12	1	52
Aug 2025	42	4	2	48
Sep 2025	64	25	2	91
Oct 2025	70	31	4	105
Nov 2025	66	28	2	96
Dec 2025	149	71	4	224
Jan 2026	4	1	5

Cumulative views and downloads (calculated since 07 Feb 2018)

Month	HTML	PDF	XML	Total
Feb 2018	231	79	13	323
Mar 2018	152	15	2	169
Apr 2018	47	8	1	56
May 2018	31	8	1	40
Jun 2018	21	11	0	32
Jul 2018	263	99	5	367
Aug 2018	268	33	1	302
Sep 2018	112	20	2	134
Oct 2018	43	34	4	81
Nov 2018	25	17	2	44
Dec 2018	17	8	1	26
Jan 2019	14	10	0	24
Feb 2019	15	10	0	25
Mar 2019	13	16	0	29
Apr 2019	27	8	2	37
May 2019	29	12	0	41
Jun 2019	37	14	0	51
Jul 2019	23	8	3	34
Aug 2019	16	11	0	27
Sep 2019	12	9	1	22
Oct 2019	106	22	1	129
Nov 2019	89	16	0	105
Dec 2019	34	13	2	49
Jan 2020	25	4	1	30
Feb 2020	18	8	0	26
Mar 2020	13	12	0	25
Apr 2020	8	9	0	17
May 2020	23	13	1	37
Jun 2020	35	32	1	68
Jul 2020	55	63	16	134
Aug 2020	8	13	1	22
Sep 2020	15	11	0	26
Oct 2020	33	13	3	49
Nov 2020	17	9	0	26
Dec 2020	17	12	0	29
Jan 2021	23	14	0	37
Feb 2021	14	9	0	23
Mar 2021	11	10	0	21
Apr 2021	13	10	0	23
May 2021	10	8	0	18
Jun 2021	8	8	0	16
Jul 2021	17	12	0	29
Aug 2021	14	12	0	26
Sep 2021	20	13	0	33
Oct 2021	17	45	0	62
Nov 2021	26	31	0	57
Dec 2021	19	6	0	25
Jan 2022	11	10	0	21
Feb 2022	14	10	3	27
Mar 2022	22	12	0	34
Apr 2022	19	18	1	38
May 2022	16	9	1	26
Jun 2022	15	8	1	24
Jul 2022	21	10	1	32
Aug 2022	35	7	0	42
Sep 2022	14	6	0	20
Oct 2022	18	4	0	22
Nov 2022	33	25	0	58
Dec 2022	15	14	0	29
Jan 2023	16	16	1	33
Feb 2023	19	14	1	34
Mar 2023	15	12	1	28
Apr 2023	6	18	0	24
May 2023	16	12	3	31
Jun 2023	16	10	0	26
Jul 2023	5	8	0	13
Aug 2023	17	10	4	31
Sep 2023	12	15	1	28
Oct 2023	27	19	1	47
Nov 2023	10	5	0	15
Dec 2023	20	16	4	40
Jan 2024	17	7	0	24
Feb 2024	9	8	0	17
Mar 2024	13	18	1	32
Apr 2024	79	12	6	97
May 2024	24	12	6	42
Jun 2024	227	8	5	240
Jul 2024	58	18	1	77
Aug 2024	38	7	4	49
Sep 2024	8	8	0	16
Oct 2024	19	12	3	34
Nov 2024	8	8	3	19
Dec 2024	18	20	2	40
Jan 2025	28	29	0	57
Feb 2025	29	64	0	93
Mar 2025	27	15	1	43
Apr 2025	18	10	0	28
May 2025	36	9	1	46
Jun 2025	65	5	0	70
Jul 2025	39	12	1	52
Aug 2025	42	4	2	48
Sep 2025	64	25	2	91
Oct 2025	70	31	4	105
Nov 2025	66	28	2	96
Dec 2025	149	71	4	224
Jan 2026	4	1	5

Viewed (geographical distribution)

Total article views: 5,374 (including HTML, PDF, and XML) Thereof 5,138 with geography defined and 236 with unknown origin.

Country	#	Views	%

1

1

Latest update: 02 Jan 2026

Short summary

This article presents a new technique for computer simulation of slope forms. The method provides a way to study how events that disturb soil or turn rock into soil add up over time to produce landforms. The model represents a cross section of a hypothetical landform as a lattice of cells, each of which may represent air, soil, or rock. Despite its simplicity, the model does a good job of simulating a range of common of natural slope forms.


Total:	0
HTML:	0
PDF:	0
XML:	0


Total:	0
HTML:	0
PDF:	0
XML:	0


Total:	0
HTML:	0
PDF:	0
XML:	0