Validation of the coupled physical–biogeochemical ocean model NEMO–SCOBI for the North Sea–Baltic Sea system

Itzel Ruvalcaba Baroni, Elin Almroth-Rosell, Lars Axell, Sam T. Fredriksson, Jenny Hieronymus, Magnus Hieronymus, Sandra-Esther Brunnabend, Matthias Gröger, Ivan Kuznetsov, Filippa Fransner, Robinson Hordoir, Saeed Falahat, and Lars Arneborg

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Cumulative views and downloads (calculated since 28 Jul 2023)

Month	HTML	PDF	XML	Total
Jul 2023	45	11	8	64
Aug 2023	56	22	2	80
Sep 2023	66	27	6	99
Oct 2023	78	31	11	120
Nov 2023	13	4	0	17
Dec 2023	15	7	3	25
Jan 2024	14	6	3	23
Feb 2024	28	17	4	49
Mar 2024	30	10	2	42
Apr 2024	156	28	11	195
May 2024	635	38	12	685
Jun 2024	87	13	2	102
Jul 2024	80	18	3	101
Aug 2024	52	22	6	80
Sep 2024	32	14	1	47
Oct 2024	33	9	0	42
Nov 2024	28	8	1	37
Dec 2024	35	10	0	45
Jan 2025	70	42	3	115
Feb 2025	114	33	3	150
Mar 2025	41	22	1	64

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1,250	192	36	1,478	37	32

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458	200	46	704	25	24

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Latest update: 28 Mar 2025

Short summary

The health of the Baltic and North seas is threatened due to high anthropogenic pressure; thus, different methods to assess the status of these regions are urgently needed. Here, we validated a novel model simulating the ocean dynamics and biogeochemistry of the Baltic and North seas that can be used to create future climate and nutrient scenarios, contribute to European initiatives on de-eutrophication, and provide water quality advice and support on nutrient load reductions for both seas.