A simple model for local-scale sensible and latent heat advection contributions to snowmelt

Harder, Phillip; Pomeroy, John W.; Helgason, Warren D.

doi:https://doi.org/10.5194/hess-23-1-2019

Articles | Volume 23, issue 1

https://doi.org/10.5194/hess-23-1-2019

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

Special issue:

Understanding and predicting Earth system and hydrological...

https://doi.org/10.5194/hess-23-1-2019

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

Articles | Volume 23, issue 1

Research article

|

02 Jan 2019

Research article |

| 02 Jan 2019

A simple model for local-scale sensible and latent heat advection contributions to snowmelt

Phillip Harder, John W. Pomeroy, and Warren D. Helgason

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Jan 2019	359	77	4	440
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Oct 2019	47	13	1	61
Nov 2019	31	19	1	51
Dec 2019	44	18	1	63
Jan 2020	24	33	2	59
Feb 2020	26	10	1	37
Mar 2020	15	15	0	30
Apr 2020	11	10	0	21
May 2020	24	6	0	30
Jun 2020	22	13	1	36
Jul 2020	28	12	1	41
Aug 2020	26	10	3	39
Sep 2020	18	12	0	30
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Jan 2021	19	20	0	39
Feb 2021	18	17	1	36
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Apr 2021	10	17	0	27
May 2021	13	22	0	35
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Sep 2022	28	5	0	33
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Dec 2022	27	5	1	33
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Feb 2023	16	7	3	26
Mar 2023	24	8	1	33
Apr 2023	19	9	2	30
May 2023	14	14	0	28
Jun 2023	9	8	0	17
Jul 2023	16	11	3	30
Aug 2023	12	21	1	34
Sep 2023	12	5	0	17
Oct 2023	11	6	0	17
Nov 2023	10	3	0	13
Dec 2023	16	4	2	22
Jan 2024	30	7	1	38
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Mar 2024	19	20	5	44
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Cumulative views and downloads (calculated since 06 Mar 2018)

Month	HTML	PDF	XML	Total
Mar 2018	193	48	5	246
Apr 2018	53	17	0	70
May 2018	24	12	0	36
Jun 2018	30	12	0	42
Jul 2018	14	9	0	23
Aug 2018	20	11	0	31
Sep 2018	17	10	1	28
Oct 2018	14	9	0	23
Nov 2018	16	9	1	26
Dec 2018	11	7	1	19
Jan 2019	359	77	4	440
Feb 2019	45	12	2	59
Mar 2019	30	21	0	51
Apr 2019	35	32	0	67
May 2019	44	17	2	63
Jun 2019	39	25	0	64
Jul 2019	29	20	1	50
Aug 2019	35	24	0	59
Sep 2019	36	23	1	60
Oct 2019	47	13	1	61
Nov 2019	31	19	1	51
Dec 2019	44	18	1	63
Jan 2020	24	33	2	59
Feb 2020	26	10	1	37
Mar 2020	15	15	0	30
Apr 2020	11	10	0	21
May 2020	24	6	0	30
Jun 2020	22	13	1	36
Jul 2020	28	12	1	41
Aug 2020	26	10	3	39
Sep 2020	18	12	0	30
Oct 2020	13	6	0	19
Nov 2020	7	9	0	16
Dec 2020	9	14	0	23
Jan 2021	19	20	0	39
Feb 2021	18	17	1	36
Mar 2021	22	17	2	41
Apr 2021	10	17	0	27
May 2021	13	22	0	35
Jun 2021	13	13	0	26
Jul 2021	16	19	0	35
Aug 2021	10	15	0	25
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Oct 2021	15	39	0	54
Nov 2021	14	24	1	39
Dec 2021	20	17	0	37
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Feb 2022	11	18	1	30
Mar 2022	14	20	0	34
Apr 2022	17	5	0	22
May 2022	12	7	1	20
Jun 2022	11	6	1	18
Jul 2022	19	9	0	28
Aug 2022	53	3	0	56
Sep 2022	28	5	0	33
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Nov 2022	10	10	0	20
Dec 2022	27	5	1	33
Jan 2023	10	16	0	26
Feb 2023	16	7	3	26
Mar 2023	24	8	1	33
Apr 2023	19	9	2	30
May 2023	14	14	0	28
Jun 2023	9	8	0	17
Jul 2023	16	11	3	30
Aug 2023	12	21	1	34
Sep 2023	12	5	0	17
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Dec 2023	16	4	2	22
Jan 2024	30	7	1	38
Feb 2024	13	7	2	22
Mar 2024	19	20	5	44
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Short summary

As snow cover becomes patchy during snowmelt, energy is advected from warm snow-free surfaces to cold snow-covered surfaces. This paper proposes a simple sensible and latent heat advection model for snowmelt situations that can be coupled to one-dimensional energy balance snowmelt models. The model demonstrates that sensible and latent heat advection fluxes can compensate for one another, especially in early melt periods.

A simple model for local-scale sensible and latent heat advection contributions to snowmelt

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Cited

9 citations as recorded by crossref.

9 citations as recorded by crossref.


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