Proglacial icings as records of winter hydrological processes

Chesnokova, Anna; Baraër, Michel; Bouchard, Émilie

doi:10.5194/tc-14-4145-2020

Articles | Volume 14, issue 11

https://doi.org/10.5194/tc-14-4145-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/tc-14-4145-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 14, issue 11

Research article

|

19 Nov 2020

Research article |

| 19 Nov 2020

Proglacial icings as records of winter hydrological processes

Anna Chesnokova, Michel Baraër, and Émilie Bouchard

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Total article views: 2,886 (including HTML, PDF, and XML)

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Views and downloads (calculated since 17 Jun 2020)

Month	HTML	PDF	XML	Total
Jun 2020	102	34	2	138
Jul 2020	77	42	27	146
Aug 2020	12	9	2	23
Sep 2020	17	7	0	24
Oct 2020	9	4	0	13
Nov 2020	165	28	1	194
Dec 2020	92	19	1	112
Jan 2021	46	15	1	62
Feb 2021	24	4	0	28
Mar 2021	15	11	0	26
Apr 2021	24	8	0	32
May 2021	13	10	2	25
Jun 2021	6	11	0	17
Jul 2021	15	5	0	20
Aug 2021	15	15	1	31
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Nov 2021	19	33	0	52
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Jan 2022	15	7	0	22
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Apr 2022	10	9	1	20
May 2022	8	7	2	17
Jun 2022	9	3	1	13
Jul 2022	36	0	36
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Dec 2022	15	9	1	25
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Apr 2023	12	8	3	23
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Jun 2023	13	5	1	19
Jul 2023	16	7	1	24
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Sep 2023	9	5	2	16
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Dec 2023	24	11	3	38
Jan 2024	26	7	1	34
Feb 2024	17	11	0	28
Mar 2024	22	18	4	44
Apr 2024	22	16	11	49
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Oct 2024	28	5	1	34
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Dec 2024	40	5	4	49
Jan 2025	29	8	2	39
Feb 2025	36	3	0	39
Mar 2025	32	10	0	42
Apr 2025	57	14	0	71
May 2025	43	5	1	49
Jun 2025	55	13	1	69
Jul 2025	31	12	5	48
Aug 2025	42	7	2	51
Sep 2025	69	13	0	82
Oct 2025	57	26	2	85
Nov 2025	51	38	3	92
Dec 2025	22	14	3	39

Cumulative views and downloads (calculated since 17 Jun 2020)

Month	HTML	PDF	XML	Total
Jun 2020	102	34	2	138
Jul 2020	77	42	27	146
Aug 2020	12	9	2	23
Sep 2020	17	7	0	24
Oct 2020	9	4	0	13
Nov 2020	165	28	1	194
Dec 2020	92	19	1	112
Jan 2021	46	15	1	62
Feb 2021	24	4	0	28
Mar 2021	15	11	0	26
Apr 2021	24	8	0	32
May 2021	13	10	2	25
Jun 2021	6	11	0	17
Jul 2021	15	5	0	20
Aug 2021	15	15	1	31
Sep 2021	14	10	0	24
Oct 2021	12	52	0	64
Nov 2021	19	33	0	52
Dec 2021	17	8	0	25
Jan 2022	15	7	0	22
Feb 2022	15	6	1	22
Mar 2022	10	3	1	14
Apr 2022	10	9	1	20
May 2022	8	7	2	17
Jun 2022	9	3	1	13
Jul 2022	36	0	36
Aug 2022	108	3	0	111
Sep 2022	10	4	0	14
Oct 2022	17	2	1	20
Nov 2022	28	2	0	30
Dec 2022	15	9	1	25
Jan 2023	9	8	1	18
Feb 2023	22	10	0	32
Mar 2023	49	9	1	59
Apr 2023	12	8	3	23
May 2023	10	7	1	18
Jun 2023	13	5	1	19
Jul 2023	16	7	1	24
Aug 2023	17	9	6	32
Sep 2023	9	5	2	16
Oct 2023	14	8	1	23
Nov 2023	6	5	0	11
Dec 2023	24	11	3	38
Jan 2024	26	7	1	34
Feb 2024	17	11	0	28
Mar 2024	22	18	4	44
Apr 2024	22	16	11	49
May 2024	24	6	6	36
Jun 2024	45	12	0	57
Jul 2024	25	12	2	39
Aug 2024	31	7	2	40
Sep 2024	24	4	0	28
Oct 2024	28	5	1	34
Nov 2024	21	8	0	29
Dec 2024	40	5	4	49
Jan 2025	29	8	2	39
Feb 2025	36	3	0	39
Mar 2025	32	10	0	42
Apr 2025	57	14	0	71
May 2025	43	5	1	49
Jun 2025	55	13	1	69
Jul 2025	31	12	5	48
Aug 2025	42	7	2	51
Sep 2025	69	13	0	82
Oct 2025	57	26	2	85
Nov 2025	51	38	3	92
Dec 2025	22	14	3	39

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Short summary

In the context of a ubiquitous increase in winter discharge in cold regions, our results show that icing formations can help overcome the lack of direct observations in these remote environments and provide new insights into winter runoff generation. The multi-technique approach used in this study provided important information about the water sources active during the winter season in the headwaters of glacierized catchments.


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