Review article: How does glacier discharge affect marine biogeochemistry and primary production in the Arctic?

Hopwood, Mark J.; Carroll, Dustin; Dunse, Thorben; Hodson, Andy; Holding, Johnna M.; Iriarte, José L.; Ribeiro, Sofia; Achterberg, Eric P.; Cantoni, Carolina; Carlson, Daniel F.; Chierici, Melissa; Clarke, Jennifer S.; Cozzi, Stefano; Fransson, Agneta; Juul-Pedersen, Thomas; Winding, Mie H. S.; Meire, Lorenz

doi:10.5194/tc-14-1347-2020

Articles | Volume 14, issue 4

https://doi.org/10.5194/tc-14-1347-2020

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

https://doi.org/10.5194/tc-14-1347-2020

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

Articles | Volume 14, issue 4

Review article

|

24 Apr 2020

Review article |

| 24 Apr 2020

Review article: How does glacier discharge affect marine biogeochemistry and primary production in the Arctic?

Mark J. Hopwood, Dustin Carroll, Thorben Dunse, Andy Hodson, Johnna M. Holding, José L. Iriarte, Sofia Ribeiro, Eric P. Achterberg, Carolina Cantoni, Daniel F. Carlson, Melissa Chierici, Jennifer S. Clarke, Stefano Cozzi, Agneta Fransson, Thomas Juul-Pedersen, Mie H. S. Winding, and Lorenz Meire

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Total article views: 12,511 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
8,725	3,606	180	12,511	491	194	263

HTML: 8,725
PDF: 3,606
XML: 180
Total: 12,511
Supplement: 491
BibTeX: 194
EndNote: 263

Views and downloads (calculated since 18 Jun 2019)

Month	HTML	PDF	XML	Total
Jun 2019	216	99	1	316
Jul 2019	120	41	2	163
Aug 2019	77	25	0	102
Sep 2019	86	43	0	129
Oct 2019	63	37	2	102
Nov 2019	32	24	2	58
Dec 2019	48	34	1	83
Jan 2020	43	32	0	75
Feb 2020	43	18	2	63
Mar 2020	42	17	1	60
Apr 2020	491	143	7	641
May 2020	295	111	2	408
Jun 2020	100	61	6	167
Jul 2020	119	88	10	217
Aug 2020	104	36	3	143
Sep 2020	86	44	1	131
Oct 2020	84	59	4	147
Nov 2020	70	36	2	108
Dec 2020	78	44	1	123
Jan 2021	79	50	1	130
Feb 2021	63	48	2	113
Mar 2021	77	45	1	123
Apr 2021	85	55	1	141
May 2021	85	53	1	139
Jun 2021	52	31	0	83
Jul 2021	73	33	2	108
Aug 2021	60	42	2	104
Sep 2021	70	45	0	115
Oct 2021	70	77	0	147
Nov 2021	108	67	0	175
Dec 2021	96	53	0	149
Jan 2022	116	63	1	180
Feb 2022	81	46	6	133
Mar 2022	110	60	4	174
Apr 2022	102	55	2	159
May 2022	107	46	2	155
Jun 2022	88	36	2	126
Jul 2022	84	30	1	115
Aug 2022	78	38	1	117
Sep 2022	75	41	2	118
Oct 2022	95	52	2	149
Nov 2022	128	65	2	195
Dec 2022	120	37	2	159
Jan 2023	133	58	3	194
Feb 2023	126	54	2	182
Mar 2023	126	55	3	184
Apr 2023	104	37	3	144
May 2023	95	60	2	157
Jun 2023	88	30	2	120
Jul 2023	59	17	1	77
Aug 2023	62	36	6	104
Sep 2023	94	43	5	142
Oct 2023	172	51	1	224
Nov 2023	136	25	1	162
Dec 2023	68	30	2	100
Jan 2024	108	33	1	142
Feb 2024	113	28	1	142
Mar 2024	148	53	5	206
Apr 2024	123	35	9	167
May 2024	111	62	9	182
Jun 2024	123	51	3	177
Jul 2024	79	39	2	120
Aug 2024	105	26	5	136
Sep 2024	106	29	1	136
Oct 2024	166	55	1	222
Nov 2024	129	94	3	226
Dec 2024	110	54	6	170
Jan 2025	160	53	1	214
Feb 2025	148	32	1	181
Mar 2025	117	31	0	148
Apr 2025	137	17	0	154
May 2025	171	30	0	201
Jun 2025	200	54	2	256
Jul 2025	158	37	5	200
Aug 2025	189	38	5	232
Sep 2025	206	32	3	241
Oct 2025	214	54	2	270
Nov 2025	42	13	0	55

Cumulative views and downloads (calculated since 18 Jun 2019)

Month	HTML	PDF	XML	Total
Jun 2019	216	99	1	316
Jul 2019	120	41	2	163
Aug 2019	77	25	0	102
Sep 2019	86	43	0	129
Oct 2019	63	37	2	102
Nov 2019	32	24	2	58
Dec 2019	48	34	1	83
Jan 2020	43	32	0	75
Feb 2020	43	18	2	63
Mar 2020	42	17	1	60
Apr 2020	491	143	7	641
May 2020	295	111	2	408
Jun 2020	100	61	6	167
Jul 2020	119	88	10	217
Aug 2020	104	36	3	143
Sep 2020	86	44	1	131
Oct 2020	84	59	4	147
Nov 2020	70	36	2	108
Dec 2020	78	44	1	123
Jan 2021	79	50	1	130
Feb 2021	63	48	2	113
Mar 2021	77	45	1	123
Apr 2021	85	55	1	141
May 2021	85	53	1	139
Jun 2021	52	31	0	83
Jul 2021	73	33	2	108
Aug 2021	60	42	2	104
Sep 2021	70	45	0	115
Oct 2021	70	77	0	147
Nov 2021	108	67	0	175
Dec 2021	96	53	0	149
Jan 2022	116	63	1	180
Feb 2022	81	46	6	133
Mar 2022	110	60	4	174
Apr 2022	102	55	2	159
May 2022	107	46	2	155
Jun 2022	88	36	2	126
Jul 2022	84	30	1	115
Aug 2022	78	38	1	117
Sep 2022	75	41	2	118
Oct 2022	95	52	2	149
Nov 2022	128	65	2	195
Dec 2022	120	37	2	159
Jan 2023	133	58	3	194
Feb 2023	126	54	2	182
Mar 2023	126	55	3	184
Apr 2023	104	37	3	144
May 2023	95	60	2	157
Jun 2023	88	30	2	120
Jul 2023	59	17	1	77
Aug 2023	62	36	6	104
Sep 2023	94	43	5	142
Oct 2023	172	51	1	224
Nov 2023	136	25	1	162
Dec 2023	68	30	2	100
Jan 2024	108	33	1	142
Feb 2024	113	28	1	142
Mar 2024	148	53	5	206
Apr 2024	123	35	9	167
May 2024	111	62	9	182
Jun 2024	123	51	3	177
Jul 2024	79	39	2	120
Aug 2024	105	26	5	136
Sep 2024	106	29	1	136
Oct 2024	166	55	1	222
Nov 2024	129	94	3	226
Dec 2024	110	54	6	170
Jan 2025	160	53	1	214
Feb 2025	148	32	1	181
Mar 2025	117	31	0	148
Apr 2025	137	17	0	154
May 2025	171	30	0	201
Jun 2025	200	54	2	256
Jul 2025	158	37	5	200
Aug 2025	189	38	5	232
Sep 2025	206	32	3	241
Oct 2025	214	54	2	270
Nov 2025	42	13	0	55

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Total article views: 12,511 (including HTML, PDF, and XML) Thereof 11,137 with geography defined and 1,374 with unknown origin.

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1

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Short summary

Here we compare and contrast results from five well-studied Arctic field sites in order to understand how glaciers affect marine biogeochemistry and marine primary production. The key questions are listed as follows. Where and when does glacial freshwater discharge promote or reduce marine primary production? How does spatio-temporal variability in glacial discharge affect marine primary production? And how far-reaching are the effects of glacial discharge on marine biogeochemistry?


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