Michael Hannig scite author profile

Incubation experiments with 15 N-labeled compounds (NO { 3 and NH z 4 ) were performed during three cruises (2002, 2004, and 2005) to study the loss of inorganic N as dinitrogen gas (N 2 ) via denitrification and anammox in the water column of the Gotland Deep (central Baltic Sea). 15 N incubations did not provide evidence for direct conversion of NO { 3 reduction to N 2 (heterotrophic denitrification) in the suboxic (O 2 , 10 mmol L 21 ) sulfide-free waters. Substantial denitrification rates (up to 2.7 mmol L 21 d 21 N 2 ) were measured in water samples collected from the NO

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Linking denitrifier community structure and prevalent biogeochemical parameters in the pelagial of the central Baltic Proper (Baltic Sea)

Hannig

Braker

Dippner

et al. 2006

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The oxic-anoxic interface of the water column of the Gotland Basin (central Baltic Sea) is characterised by defined biogeochemical gradients and is hypothesised to be a zone of pronounced denitrification. Our aim was to analyse the composition and distribution of pelagic denitrifying microorganisms in relation to the physico-chemical gradients in the water column. PCR-amplified nirS genes--coding for dissimilatory nitrite reductase--were analysed as functional markers by terminal restriction fragment length polymorphism and cloning. The overall nirS diversity was low, with the lowest levels found at the oxic-anoxic interface. Only a few terminal restriction fragments dominated the denitrifier communities throughout the water column, and these could be assigned to several new Baltic Sea clusters that were revealed by phylogenetic analysis. The novel clusters were separated in two groups corresponding to the oxygen concentrations within specific layers of the water column. Gradients of prevalent biogeochemical parameters (H(2)S, NH(4) (+), NO(3) (-) and O(2)) largely determined the composition of the nirS-type denitrifier communities within the water column of the Gotland Basin.

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Thermotogales

Huber¹,

Hannig²

2006

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<I>nirS</I>-containing denitrifier communities in the water column and sediment of the Baltic Sea

Falk

Hannig

Gliesche³

et al. 2007

Biogeosciences

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Abstract. The aim of this study was to compare structural differences in the nirS-type denitrifying microbial communities along the environmental gradients observed in the water column and coastal sediments of the Baltic Sea. To link community structure and environmental gradients, denitrifier communities were analyzed by terminal restriction fragment length polymorphism (T-RFLP) based on nirS as a functional marker gene for denitrification. nirS-type denitrifier community composition was further evaluated by phylogenetic analysis of nirS sequences from clone libraries. T-RFLP analysis indicated some overlap but also major differences between communities from the water column and the sediment. Shifts in community composition along the biogeochemical gradients were observed only in the water column while denitrifier communities were rather uniform within the upper 30 mm of the sediment. Specific terminal restriction fragments (T-RFs) indicative of the sulfidic zone suggest the presence of nitrate-reducing and sulfide-oxidizing microorganisms that were previously shown to be important at the suboxic-sulfidic interface in the water column of the Baltic Sea. Phylogenetic analysis of nirS genes from the Baltic Sea and of sequences from marine habitats all over the world indicated distinct denitrifier communities that grouped mostly according to their habitats. We suggest that these subgroups of denitrifiers had developed after selection through several factors, i.e. their habitats (water column or sediment), impact by prevalent environmental conditions and isolation by large geographic distances between habitats.

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Michael Hannig

Shift from denitrification to anammox after inflow events in the central Baltic Sea

Linking denitrifier community structure and prevalent biogeochemical parameters in the pelagial of the central Baltic Proper (Baltic Sea)

Thermotogales

<I>nirS</I>-containing denitrifier communities in the water column and sediment of the Baltic Sea

Contact Info

Product

Resources

About

Michael Hannig

Shift from denitrification to anammox after inflow events in the central Baltic Sea

Linking denitrifier community structure and prevalent biogeochemical parameters in the pelagial of the central Baltic Proper (Baltic Sea)

Thermotogales

&lt;I&gt;nirS&lt;/I&gt;-containing denitrifier communities in the water column and sediment of the Baltic Sea

Contact Info

Product

Resources

About

<I>nirS</I>-containing denitrifier communities in the water column and sediment of the Baltic Sea