Simulating cold-region hydrology in an intensively drained agricultural watershed in Manitoba, Canada, using the Cold Regions Hydrological Model

Cordeiro, Marcos R. C.; Wilson, Henry F.; Vanrobaeys, Jason; Pomeroy, John W.; Fang, Xing; The Red-Assiniboine Project Biophysical Modelling Team,

doi:10.5194/hess-21-3483-2017

Articles | Volume 21, issue 7

https://doi.org/10.5194/hess-21-3483-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/hess-21-3483-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 21, issue 7

Research article

|

12 Jul 2017

Research article |

| 12 Jul 2017

Simulating cold-region hydrology in an intensively drained agricultural watershed in Manitoba, Canada, using the Cold Regions Hydrological Model

Marcos R. C. Cordeiro, Henry F. Wilson, Jason Vanrobaeys, John W. Pomeroy, Xing Fang, and The Red-Assiniboine Project Biophysical Modelling Team

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Total article views: 3,494 (including HTML, PDF, and XML)

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PDF: 1,264
XML: 135
Total: 3,494
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BibTeX: 141
EndNote: 163

Views and downloads (calculated since 27 Sep 2016)

Month	HTML	PDF	XML	Total
Sep 2016	30	6	1	37
Oct 2016	88	20	4	112
Nov 2016	27	3	0	30
Dec 2016	13	2	0	15
Jan 2017	9	7	0	16
Feb 2017	11	2	0	13
Mar 2017	18	3	2	23
Apr 2017	21	3	2	26
May 2017	33	7	6	46
Jun 2017	20	4	5	29
Jul 2017	274	57	5	336
Aug 2017	75	24	1	100
Sep 2017	43	23	0	66
Oct 2017	37	12	0	49
Nov 2017	21	13	0	34
Dec 2017	17	7	1	25
Jan 2018	24	14	0	38
Feb 2018	20	8	1	29
Mar 2018	20	8	0	28
Apr 2018	15	9	0	24
May 2018	19	6	0	25
Jun 2018	14	8	0	22
Jul 2018	12	9	0	21
Aug 2018	10	5	0	15
Sep 2018	18	14	0	32
Oct 2018	18	9	4	31
Nov 2018	11	13	2	26
Dec 2018	16	7	0	23
Jan 2019	4	5	2	11
Feb 2019	8	8	0	16
Mar 2019	6	8	0	14
Apr 2019	8	8	0	16
May 2019	12	8	1	21
Jun 2019	6	9	0	15
Jul 2019	9	5	1	15
Aug 2019	10	7	0	17
Sep 2019	8	5	0	13
Oct 2019	9	8	3	20
Nov 2019	8	9	0	17
Dec 2019	7	7	1	15
Jan 2020	9	13	2	24
Feb 2020	7	9	0	16
Mar 2020	7	10	0	17
Apr 2020	9	10	0	19
May 2020	4	7	1	12
Jun 2020	13	14	1	28
Jul 2020	19	15	4	38
Aug 2020	9	12	4	25
Sep 2020	15	14	0	29
Oct 2020	12	6	0	18
Nov 2020	12	20	0	32
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Apr 2021	9	10	0	19
May 2021	8	10	0	18
Jun 2021	11	8	0	19
Jul 2021	5	11	1	17
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Sep 2021	11	9	0	20
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Feb 2022	8	15	2	25
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Apr 2022	12	6	0	18
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Jun 2022	7	7	2	16
Jul 2022	8	4	0	12
Aug 2022	22	8	2	32
Sep 2022	9	15	1	25
Oct 2022	9	6	2	17
Nov 2022	15	14	1	30
Dec 2022	11	10	0	21
Jan 2023	14	27	4	45
Feb 2023	25	8	1	34
Mar 2023	22	11	0	33
Apr 2023	29	9	3	41
May 2023	21	9	0	30
Jun 2023	14	8	1	23
Jul 2023	18	14	5	37
Aug 2023	13	10	1	24
Sep 2023	8	10	0	18
Oct 2023	18	14	1	33
Nov 2023	9	3	1	13
Dec 2023	12	8	1	21
Jan 2024	15	9	1	25
Feb 2024	8	7	0	15
Mar 2024	15	18	3	36
Apr 2024	9	16	6	31
May 2024	21	16	4	41
Jun 2024	15	10	4	29
Jul 2024	16	9	4	29
Aug 2024	25	5	1	31
Sep 2024	6	6	0	12
Oct 2024	8	6	0	14
Nov 2024	7	7	0	14
Dec 2024	12	10	2	24
Jan 2025	19	9	4	32
Feb 2025	23	9	2	34
Mar 2025	15	9	1	25
Apr 2025	41	24	2	67
May 2025	31	13	0	44
Jun 2025	30	22	1	53
Jul 2025	21	21	4	46
Aug 2025	16	17	2	35
Sep 2025	45	16	2	63
Oct 2025	25	20	2	47
Nov 2025	32	32	2	66
Dec 2025	6	2	1	9

Cumulative views and downloads (calculated since 27 Sep 2016)

Month	HTML	PDF	XML	Total
Sep 2016	30	6	1	37
Oct 2016	88	20	4	112
Nov 2016	27	3	0	30
Dec 2016	13	2	0	15
Jan 2017	9	7	0	16
Feb 2017	11	2	0	13
Mar 2017	18	3	2	23
Apr 2017	21	3	2	26
May 2017	33	7	6	46
Jun 2017	20	4	5	29
Jul 2017	274	57	5	336
Aug 2017	75	24	1	100
Sep 2017	43	23	0	66
Oct 2017	37	12	0	49
Nov 2017	21	13	0	34
Dec 2017	17	7	1	25
Jan 2018	24	14	0	38
Feb 2018	20	8	1	29
Mar 2018	20	8	0	28
Apr 2018	15	9	0	24
May 2018	19	6	0	25
Jun 2018	14	8	0	22
Jul 2018	12	9	0	21
Aug 2018	10	5	0	15
Sep 2018	18	14	0	32
Oct 2018	18	9	4	31
Nov 2018	11	13	2	26
Dec 2018	16	7	0	23
Jan 2019	4	5	2	11
Feb 2019	8	8	0	16
Mar 2019	6	8	0	14
Apr 2019	8	8	0	16
May 2019	12	8	1	21
Jun 2019	6	9	0	15
Jul 2019	9	5	1	15
Aug 2019	10	7	0	17
Sep 2019	8	5	0	13
Oct 2019	9	8	3	20
Nov 2019	8	9	0	17
Dec 2019	7	7	1	15
Jan 2020	9	13	2	24
Feb 2020	7	9	0	16
Mar 2020	7	10	0	17
Apr 2020	9	10	0	19
May 2020	4	7	1	12
Jun 2020	13	14	1	28
Jul 2020	19	15	4	38
Aug 2020	9	12	4	25
Sep 2020	15	14	0	29
Oct 2020	12	6	0	18
Nov 2020	12	20	0	32
Dec 2020	7	9	0	16
Jan 2021	26	14	0	40
Feb 2021	17	15	1	33
Mar 2021	13	13	1	27
Apr 2021	9	10	0	19
May 2021	8	10	0	18
Jun 2021	11	8	0	19
Jul 2021	5	11	1	17
Aug 2021	6	10	0	16
Sep 2021	11	9	0	20
Oct 2021	9	32	0	41
Nov 2021	15	23	1	39
Dec 2021	18	14	0	32
Jan 2022	14	15	0	29
Feb 2022	8	15	2	25
Mar 2022	8	12	0	20
Apr 2022	12	6	0	18
May 2022	8	10	1	19
Jun 2022	7	7	2	16
Jul 2022	8	4	0	12
Aug 2022	22	8	2	32
Sep 2022	9	15	1	25
Oct 2022	9	6	2	17
Nov 2022	15	14	1	30
Dec 2022	11	10	0	21
Jan 2023	14	27	4	45
Feb 2023	25	8	1	34
Mar 2023	22	11	0	33
Apr 2023	29	9	3	41
May 2023	21	9	0	30
Jun 2023	14	8	1	23
Jul 2023	18	14	5	37
Aug 2023	13	10	1	24
Sep 2023	8	10	0	18
Oct 2023	18	14	1	33
Nov 2023	9	3	1	13
Dec 2023	12	8	1	21
Jan 2024	15	9	1	25
Feb 2024	8	7	0	15
Mar 2024	15	18	3	36
Apr 2024	9	16	6	31
May 2024	21	16	4	41
Jun 2024	15	10	4	29
Jul 2024	16	9	4	29
Aug 2024	25	5	1	31
Sep 2024	6	6	0	12
Oct 2024	8	6	0	14
Nov 2024	7	7	0	14
Dec 2024	12	10	2	24
Jan 2025	19	9	4	32
Feb 2025	23	9	2	34
Mar 2025	15	9	1	25
Apr 2025	41	24	2	67
May 2025	31	13	0	44
Jun 2025	30	22	1	53
Jul 2025	21	21	4	46
Aug 2025	16	17	2	35
Sep 2025	45	16	2	63
Oct 2025	25	20	2	47
Nov 2025	32	32	2	66
Dec 2025	6	2	1	9

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1

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Latest update: 06 Dec 2025

Short summary

The physically based Cold Regions Hydrological Model (CRHM) was utilized to simulate runoff in the La Salle River, located in the northern Great Plains with flat topography, clay soils, and surface drainage. Snow sublimation and transport as well as infiltration to frozen soils were identified as critical in defining snowmelt. Challenges in representing infiltration into frozen but dry clay soils and flow routing under both dry and flooded conditions indicate the need for further study.


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