Atmospherically forced sea-level variability  in western Hudson Bay, Canada

Dmitrenko, Igor A.; Volkov, Denis L.; Stadnyk, Tricia A.; Tefs, Andrew; Babb, David G.; Kirillov, Sergey A.; Crawford, Alex; Sydor, Kevin; Barber, David G.

doi:10.5194/os-17-1367-2021

Articles | Volume 17, issue 5

https://doi.org/10.5194/os-17-1367-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/os-17-1367-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 17, issue 5

Research article

|

06 Oct 2021

Research article |

| 06 Oct 2021

Atmospherically forced sea-level variability in western Hudson Bay, Canada

Igor A. Dmitrenko, Denis L. Volkov, Tricia A. Stadnyk, Andrew Tefs, David G. Babb, Sergey A. Kirillov, Alex Crawford, Kevin Sydor, and David G. Barber

Viewed

Total article views: 3,595 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
2,077	1,385	133	3,595	216	109	161

HTML: 2,077
PDF: 1,385
XML: 133
Total: 3,595
Supplement: 216
BibTeX: 109
EndNote: 161

Views and downloads (calculated since 18 Jun 2021)

Month	HTML	PDF	XML	Total
Jun 2021	119	18	2	139
Jul 2021	75	11	2	88
Aug 2021	45	20	3	68
Sep 2021	32	18	3	53
Oct 2021	206	58	5	269
Nov 2021	66	42	2	110
Dec 2021	33	25	2	60
Jan 2022	32	19	0	51
Feb 2022	17	10	3	30
Mar 2022	18	8	0	26
Apr 2022	20	18	1	39
May 2022	13	16	0	29
Jun 2022	10	9	0	19
Jul 2022	40	9	0	49
Aug 2022	55	7	0	62
Sep 2022	13	11	0	24
Oct 2022	14	10	0	24
Nov 2022	32	7	0	39
Dec 2022	18	7	0	25
Jan 2023	21	23	1	45
Feb 2023	18	8	0	26
Mar 2023	20	9	1	30
Apr 2023	6	6	0	12
May 2023	4	6	0	10
Jun 2023	6	9	1	16
Jul 2023	15	17	1	33
Aug 2023	15	11	1	27
Sep 2023	9	13	2	24
Oct 2023	21	11	2	34
Nov 2023	9	5	1	15
Dec 2023	21	11	1	33
Jan 2024	26	4	1	31
Feb 2024	13	19	3	35
Mar 2024	24	26	4	54
Apr 2024	36	12	13	61
May 2024	21	9	1	31
Jun 2024	64	17	3	84
Jul 2024	35	14	5	54
Aug 2024	31	13	2	46
Sep 2024	16	14	3	33
Oct 2024	15	19	1	35
Nov 2024	13	14	4	31
Dec 2024	16	5	2	23
Jan 2025	20	15	2	37
Feb 2025	21	14	1	36
Mar 2025	21	14	8	43
Apr 2025	23	16	0	39
May 2025	35	12	2	49
Jun 2025	41	54	0	95
Jul 2025	26	30	4	60
Aug 2025	41	12	1	54
Sep 2025	47	28	2	77
Oct 2025	38	41	4	83
Nov 2025	48	27	4	79
Dec 2025	64	54	3	121
Jan 2026	91	59	4	154
Feb 2026	63	19	3	85
Mar 2026	33	116	4	153
Apr 2026	78	120	6	204
May 2026	43	76	6	125
Jun 2026	11	60	3	74

Cumulative views and downloads (calculated since 18 Jun 2021)

Month	HTML	PDF	XML	Total
Jun 2021	119	18	2	139
Jul 2021	75	11	2	88
Aug 2021	45	20	3	68
Sep 2021	32	18	3	53
Oct 2021	206	58	5	269
Nov 2021	66	42	2	110
Dec 2021	33	25	2	60
Jan 2022	32	19	0	51
Feb 2022	17	10	3	30
Mar 2022	18	8	0	26
Apr 2022	20	18	1	39
May 2022	13	16	0	29
Jun 2022	10	9	0	19
Jul 2022	40	9	0	49
Aug 2022	55	7	0	62
Sep 2022	13	11	0	24
Oct 2022	14	10	0	24
Nov 2022	32	7	0	39
Dec 2022	18	7	0	25
Jan 2023	21	23	1	45
Feb 2023	18	8	0	26
Mar 2023	20	9	1	30
Apr 2023	6	6	0	12
May 2023	4	6	0	10
Jun 2023	6	9	1	16
Jul 2023	15	17	1	33
Aug 2023	15	11	1	27
Sep 2023	9	13	2	24
Oct 2023	21	11	2	34
Nov 2023	9	5	1	15
Dec 2023	21	11	1	33
Jan 2024	26	4	1	31
Feb 2024	13	19	3	35
Mar 2024	24	26	4	54
Apr 2024	36	12	13	61
May 2024	21	9	1	31
Jun 2024	64	17	3	84
Jul 2024	35	14	5	54
Aug 2024	31	13	2	46
Sep 2024	16	14	3	33
Oct 2024	15	19	1	35
Nov 2024	13	14	4	31
Dec 2024	16	5	2	23
Jan 2025	20	15	2	37
Feb 2025	21	14	1	36
Mar 2025	21	14	8	43
Apr 2025	23	16	0	39
May 2025	35	12	2	49
Jun 2025	41	54	0	95
Jul 2025	26	30	4	60
Aug 2025	41	12	1	54
Sep 2025	47	28	2	77
Oct 2025	38	41	4	83
Nov 2025	48	27	4	79
Dec 2025	64	54	3	121
Jan 2026	91	59	4	154
Feb 2026	63	19	3	85
Mar 2026	33	116	4	153
Apr 2026	78	120	6	204
May 2026	43	76	6	125
Jun 2026	11	60	3	74

Viewed (geographical distribution)

Total article views: 3,595 (including HTML, PDF, and XML) Thereof 3,441 with geography defined and 154 with unknown origin.

Country	#	Views	%

1

1

Cited

Saved (final revised paper)

Latest update: 26 Jun 2026

Short summary

Significant trends of sea ice in Hudson Bay have led to a considerable increase in shipping activity. Therefore, understanding sea level variability is an urgent issue crucial for safe navigation and coastal infrastructure. Using the sea level, atmospheric and river discharge data, we assess environmental factors impacting variability of sea level at Churchill. We find that it is dominated by wind forcing, with the seasonal cycle generated by the seasonal cycle in atmospheric circulation.