On the importance of Major Baltic Inflows for oxygenation of the central Baltic Sea

Neumann, Thomas; Radtke, Hagen; Seifert, Torsten

doi:10.1002/2016jc012525

Cited by 61 publications

(64 citation statements)

References 27 publications

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“…This finding is in line with a recent numerical study by Neumann et al . [], who emphasized the large cumulative effect of the “secondary” oxic intrusions often following MBIs.…”

Section: Summary and Discussionmentioning

confidence: 99%

Deepwater dynamics and mixing processes during a major inflow event in the central Baltic Sea

et al. 2017

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Intrusions of large amounts of dense and oxygen‐rich waters during so‐called Major Baltic Inflows (MBIs) form an essential component of the Baltic Sea overturning circulation and deepwater ventilation. Despite their importance, however, detailed observations of the processes occurring in the central basins during an MBI are virtually lacking. Here data from a long‐term deployment of an autonomous profiling platform located in the center of one of the main basins are presented, providing the first direct and detailed view of the deepwater modifications and dynamics induced by one of the largest MBIs ever recorded (MBI 2014/2015). Approximately, 21 Gmol of oxygen were imported during three distinct inflow phases with an unexpectedly large contribution of oxic intrusions at intermediate depth. Oxygen consumption rates during the stagnation period immediately following the inflow phase was found to be 87 g m−2 yr−1 with a dominant contribution of sedimentary oxygen demand. The most energetic deepwater processes (topographic and near‐inertial waves) were only marginally affected by the inflow; however, subinertial energy levels associated with intrusions and eddies were strongly enhanced. Turbulence microstructure data revealed that the deep interior regions remain essentially nonturbulent even during the energetic conditions of an MBI, emphasizing the importance of boundary mixing. Warm intrusions frequently showed a temperature fine structure with vertical scales of the order of 0.1 m, without any signs of active turbulence. At the upper flanks of these intrusions, double‐diffusive staircases were often found to develop, suggesting an important alternative mixing process during inflow conditions.

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“…This finding is in line with a recent numerical study by Neumann et al . [], who emphasized the large cumulative effect of the “secondary” oxic intrusions often following MBIs.…”

Section: Summary and Discussionmentioning

confidence: 99%

Deepwater dynamics and mixing processes during a major inflow event in the central Baltic Sea

et al. 2017

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“…Furthermore, both flounder species in the Baltic Sea live close to their physiological limits, and salinity and oxygen content, the most important environmental factors driving the distribution of both species, are not stable in time. Short term fluctuations are largely due to the occurrence of large inflows or oxygen rich, high salinity waters from the North Sea, and due to stagnation periods in which salinity and oxygen concentrations decrease (Neumann et al, 2017). In the long term, eutrophication is deoxygenating the Baltic Sea (Carstensen et al, 2014) and climate change is decreasing salinity via increased freshwater runoff (Vuorinen et al, 2015).…”

Section: Discussionmentioning

confidence: 99%

Platichthys solemdali sp. nov. (Actinopterygii, Pleuronectiformes): A New Flounder Species From the Baltic Sea

et al. 2018

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The European flounder Platichthys flesus (Linnaeus, 1758) displays two contrasting reproductive behaviors in the Baltic Sea: offshore spawning of pelagic eggs and coastal spawning of demersal eggs, a behavior observed exclusively in the Baltic Sea. Previous studies showed marked differences in behavioral, physiological, and life-history traits of flounders with pelagic and demersal eggs. Furthermore, a recent study demonstrated that flounders with pelagic and demersal eggs represent two reproductively isolated, parapatric species arising from two distinct colonization events from the same ancestral population. Using morphological data we first established that the syntypes on which the original description of P. flesus was based belong to the pelagic-spawning lineage. We then used a combination of morphological and physiological characters as well as genome-wide genetic data to describe flounders with demersal eggs as a new species:Platichthys solemdali sp. nov. The new species can be clearly distinguished from P. flesus based on egg morphology, egg and sperm physiology as well as via population genetic and phylogenetic analyses. While the two species do show some minor morphological differences in the number of anal and dorsal fin rays, no external morphological feature can be used to unambiguously identify individuals to species. Therefore, we developed a simple molecular diagnostic test able to unambiguously distinguish P. solemdali from P. flesus with a single PCR reaction, a tool that should be useful to fishery scientists and managers, as well as to ecologists studying these species.

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“…This excess forces dinitrogen into biotic cycling via nitrogen-fixing cyanobacteria, thus increasing primary production, sedimentation and decomposition of organic matter, which, in turn, leads to further expansion of the hypoxic zone with increased denitrification and DIP release. Shrinking of the hypoxic zone after sporadic Major Baltic Inflows of saline oxygen-replete waters causes opposite changes in the N and P pools, but today the improved oxygen conditions do not last long (Neumann et al, 2017). All the major components of this large-scale feedback loop in the biogeochemical cycles of the Baltic Sea have been known throughout history (Richards, 1965;Fonselius, 1969;Grasshoff and Voipio, 1981) and continue being studied and demonstrated in increasing detail, from paleoreconstructions and large-scale considerations to laboratory experiments (e.g., Conley et al, 2002Conley et al, , 2009aVahtera et al, 2007bVahtera et al, , 2010Nausch M. et al, 2008Nausch M. et al, , 2012Savchuk, 2010;Ploug et al, 2011;Raateoja et al, 2011;Funkey et al, 2014;Adam et al, 2016;Olofsson et al, 2016;Motwani et al, 2018).…”

Section: The Vicious Circlementioning

confidence: 99%

Large-Scale Nutrient Dynamics in the Baltic Sea, 1970–2016

Savchuk

2018

Front. Mar. Sci.

120

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The Baltic Sea is one of the world's marine areas well-covered by both long-term observations and oceanographic studies. It is also a large coastal area in which eutrophication had already been recognized half a century ago. While the mechanisms of eutrophication are largely understood, several features are less recognized and sometimes neglected, including: (a) natural and anthropogenic North-South and East-West nutrient gradients within the drainage basin and marine ecosystems; (b) the compensatory potential of the interconnectivity between the Baltic Sea basins; (c) long nutrient residence times and high buffer capacity of the system, resulting in slow responses to nutrient load reductions. Particularly important is the interaction of (d) naturally occurring saltwater inflows sporadically ventilating deep water layers and (e) a partly man-made intensification of biological oxygen consumption. Resulting redox alterations of biogeochemical nitrogen and phosphorus cycles are locked in a "vicious circle" that promotes cyanobacterial nitrogen fixation, thereby hindering nitrogen load reduction and sustaining an elevated trophic state. This tight coupling of natural environmental variation and human impacts complicates both scientific studies and management recommendations. Our primary objective is to describe all these features and mechanisms with the best available data on nutrient loads, and unique estimates of the basin-wide nutrient pools. These data are presented as both long-term time series and empirical nutrient budgets. The analysis is supplemented by results of biogeochemical modeling. A second, more practical objective is to make these time series available to the community.

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On the importance of Major Baltic Inflows for oxygenation of the central Baltic Sea

Cited by 61 publications

References 27 publications

Deepwater dynamics and mixing processes during a major inflow event in the central Baltic Sea

Deepwater dynamics and mixing processes during a major inflow event in the central Baltic Sea

Platichthys solemdali sp. nov. (Actinopterygii, Pleuronectiformes): A New Flounder Species From the Baltic Sea

Large-Scale Nutrient Dynamics in the Baltic Sea, 1970–2016

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