Significance of pelagic and benthic primary production in two shallow coastal lagoons of different degrees of eutrophication in the southern Baltic Sea

Meyercordt, Jürgen; Gerbersdorf, Sabine Ulrike; Meyer‐Reil, L.‐A.

doi:10.3354/ame020273

Cited by 28 publications

(13 citation statements)

References 26 publications

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“…We used SigmaPlot (v. 8.02, SPSS) for nonlinear regression fitting and considered the results acceptable when the fit was significant (p o0.05) and the power of the performed test was 4 0.80. We used a photosynthetic quotient of 1.2 to convert O 2 fluxes into CO 2 fluxes for daily integration and literature comparisons (Meyercordt et al, 1999).…”

Section: Phytoplankton Productivitymentioning

confidence: 99%

Factors governing phytoplankton biomass and production in tropical estuaries of western Taiwan

Pan

Chuang

Chou

et al. 2016

Continental Shelf Research

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Section: Phytoplankton Productivitymentioning

confidence: 99%

Factors governing phytoplankton biomass and production in tropical estuaries of western Taiwan

Pan

Chuang

Chou

et al. 2016

Continental Shelf Research

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“…2) is at the lower end of reported values for polluted or eu-to hypertrophic waters (Table 4). The origin of the high POC levels in the Darß-Zingst bodden, which lowers the DOC:POC ratios so drastically, is assumed to be mainly autochthonous (Schumann et al 2001) and is produced mainly by phytoplankton (Meyercordt et al 1999). …”

mentioning

confidence: 99%

Viability of bacteria from different aquatic habitats. I. Environmental conditions and productivity

Schumann¹,

Rieling²,

Görs³

et al. 2003

Aquat. Microb. Ecol.

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Various freshwater, estuarine and coastal stations of the Southern Baltic Sea were comparatively studied to evaluate pelagic bacterial performance. Inner coastal waters (so-called bodden or lagoons) are highly productive systems and dominate the coast of the Southern Baltic Sea. Due to high nutrient loads up to the 1990s in combination with an enhanced primary production, increased amounts of particulate (POC) and dissolved organic carbon (DOC) accumulated in these waters. In the Darß-Zingst bodden chain, POC < 16 and DOC < 13 mg C l -1 , and C:N ratios of 9 to 11 in particulate matter were measured in winter and spring samples. Due to high POC concentrations, the average ratio of DOC:POC was 1.1:1, which is very low compared to other aquatic systems. Bacterial abundance and activities were rather high and reached 24 × 10 6 ml -1 and 18 µg C l -1 h -1 , respectively. Although 2 of the 3 investigated freshwater systems were classified as eutrophic, the highest measured POC concentrations, bacterial abundance and production were much lower (1.6 mg C l -1 , 11 × 10 6 bacteria ml ) than in the bodden. In contrast to that, the DOC load was as high as in these inner coastal waters (<12 mg C l -1 ). The coastal stations of the Baltic Sea, classified as mesotrophic, were not severely loaded with organic matter and bacteria (POC < 0.8, DOC < 5.5 mg C l -1 , bacteria < 3 × 10 6 ml -1). Bacterial production again was lower than at all other stations; however, levels did reach an exceptional 4.6 µg C l -1 h -1, which is comparable to values of the freshwater systems. Compared to the other investigated marine and freshwater systems, the bodden were heavily loaded with organic matter, especially particulate organic matter (POM). The origin of this material is assumed to be mainly autochthonous as it is known not to be transported by rivers into these estuaries. Although dissolved inorganic nitrogen (DIN) concentrations were high at least in winter, POM was of poor quality; this was reflected by high C:N ratios and a low contribution of phytoplankton carbon to POC. However, this is particularly surprising, because nitrogen should be readily available at all bodden sites by resuspension from the sediment caused by frequent winds in these very shallow systems of < 2 m depth. KEY WORDS: Organic matter · Bacterial production · Hydrolytic enzymes · Marine systems · Brackish systems · Freshwater systems Resale or republication not permitted without written consent of the publisherAquat Microb Ecol 32: [121][122][123][124][125][126][127][128][129][130][131][132][133][134][135] 2003 organic matter input and decomposition, and subsequently reveal the most important regulating factors of bacterial activity.Besides nutrient availability, grazing as a top down control factor regulates bacterial biomass and species composition (e.g. Berninger et al. 1991). Protozoa, especially heterotrophic nanoflagellates, are an important, or often the dominating, loss factor for bacterial standing stock in pelagic systems (e.g. Jürgens et a...

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“…Back-barrier estuaries, especially along the Atlantic coast of the United States, are typically shallow systems colonized by benthic primary producers (Ziegler and Benner, 1998;Meyercordt et al, 1999;McGlathery et al, 2001). Prior to urbanization and agricultural influence in the watersheds, many systems were characterized by high densities of seagrass and relatively low light attenuation.…”

Section: Introductionmentioning

confidence: 99%

Physical and biogeochemical controls on light attenuation in a eutrophic, back-barrier estuary

2014

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Abstract. Light attenuation is a critical parameter governing the ecological function of shallow estuaries. In these systems primary production is often dominated by benthic macroalgae and seagrass; thus light penetration to the bed is of primary importance. We quantified light attenuation in three seagrass meadows in Barnegat Bay, New Jersey, a shallow eutrophic back-barrier estuary; two of the sites were located within designated Ecologically Sensitive Areas (ESAs). We sequentially deployed instrumentation measuring photosynthetically active radiation, chlorophyll a (chl a) fluorescence, dissolved organic matter fluorescence (fDOM; a proxy for colored dissolved organic matter (CDOM) absorbance), turbidity, pressure, and water velocity at 10 min intervals over 3-week periods at each site. At the southernmost site, where sediment availability was highest, light attenuation was highest and dominated by turbidity and to a lesser extent chl a and CDOM. At the central site, chl a dominated followed by turbidity and CDOM, and at the northernmost site turbidity and CDOM contributed equally to light attenuation. At a given site, the temporal variability of light attenuation exceeded the difference in median light attenuation between the three sites. Vessel wakes, anecdotally implicated in increasing sediment resuspension, did not contribute to local resuspension within the seagrass beds, though frequent vessel wakes were observed in the channels. With regards to light attenuation and water clarity, physical and biogeochemical variables appear to outweigh any regulation of boat traffic within the ESAs.

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Significance of pelagic and benthic primary production in two shallow coastal lagoons of different degrees of eutrophication in the southern Baltic Sea

Cited by 28 publications

References 26 publications

Factors governing phytoplankton biomass and production in tropical estuaries of western Taiwan

Factors governing phytoplankton biomass and production in tropical estuaries of western Taiwan

Viability of bacteria from different aquatic habitats. I. Environmental conditions and productivity

Physical and biogeochemical controls on light attenuation in a eutrophic, back-barrier estuary

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