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Identifying areas prone to coastal hypoxia – the role of topography (2019)

Virtanen, Elina A. ; Norkko, Alf ; Nyström Sandman, Antonia ; [et al.]

Copernicus

In: Biogeosciences. 2019; 16(16): 3183-3195. Published 2019 Aug 27. doi: 10.5194/bg-16-3183-2019.

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Publication Date: 2019-08-27

Description: Hypoxia is an increasing problem in marine ecosystems around the world. While major advances have been made in our understanding of the drivers of hypoxia, challenges remain in describing oxygen dynamics in coastal regions. The complexity of many coastal areas and lack of detailed in situ data have hindered the development of models describing oxygen dynamics at a sufficient spatial resolution for efficient management actions to take place. It is well known that the enclosed nature of seafloors and reduced water mixing facilitates hypoxia formation, but the degree to which topography contributes to hypoxia formation and small-scale variability of coastal hypoxia has not been previously quantified. We developed simple proxies of seafloor heterogeneity and modeled oxygen deficiency in complex coastal areas in the northern Baltic Sea. According to our models, topographical parameters alone explained ∼80 % of hypoxia occurrences. The models also revealed that less than 25 % of the studied seascapes were prone to hypoxia during late summer (August–September). However, large variation existed in the spatial and temporal patterns of hypoxia, as certain areas were prone to occasional severe hypoxia (O2

Print ISSN: 1726-4170

Electronic ISSN: 1726-4189

Topics: Biology , Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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Identifying areas prone to coastal hypoxia – the role of topography (2019)

Virtanen, Elina A. ; Norkko, Alf ; Nyström Sandman, Antonia ; [et al.]

Copernicus

In: Biogeosciences Discussions. 2019; 1-22. Published 2019 Apr 16. doi: 10.5194/bg-2019-130. [early online release]

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Publication Date: 2019-04-16

Description: Hypoxia is an increasing problem in marine ecosystems around the world, and recent projections indicate that anoxic dead zones will be spreading in the forthcoming decades. While major advances have been made in our understanding of the drivers of hypoxia, it fundamentally hinges on patterns of water circulation that can be difficult to resolve in coastal regions. The complexity of many coastal areas and lack of detailed in situ data has hindered the development of models describing oxygen dynamics at a sufficient resolution for efficient management actions to take place. We hypothesized that the enclosed nature of seafloors facilitates hypoxia formation. We developed simple proxies of seafloor heterogeneity and modelled oxygen deficiency in complex coastal areas in the northern Baltic Sea. We discovered that topographically sheltered seafloors and sinkholes with stagnant water are prone to the development of hypoxia. Approximately half of the monitoring sites in Stockholm Archipelago and one third of sites in southern Finland experienced severe hypoxia (O2

Print ISSN: 1810-6277

Electronic ISSN: 1810-6285

Topics: Biology , Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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