Add to ORKGMicrophytobenthos (MPB) are an important nitrogen (N) sink in coastal systems, but little is known about the fate of this N after it has been assimilated. We used an in situ 15N pulse-chase experiment in subtidal sands to follow the assimilation, trophic transfer, transformation, and flux pathways of MPB-N over 33 d. Throughout the study MPB dominated 15N uptake, on average representing only 18.1% of the biomass but 63.9% of the 15N within 0–2 cm sediment. Following assimilation, 15N was rapidly transferred to deeper sediment, with 32.1% below 2 cm and 16.5% below 5 cm after 60 h. In contrast to MPB, bacteria represented 39.5% of sediment biomass but accounted for only up to 27.3% of assimilated 15N. Foraminifera accumulated and stored 15N ...
Riverine ecosystems receive nitrogen loads from point and diffuse sources that are transferred downs...
We tracked carbon (C) and nitrogen (N) uptake into sediments in the presence and absence of benthic ...
Carbon and nitrogen uptake in a microbial community comprising bacteria and microalgae in a sandy ma...
Microphytobenthos (MPB) are an important nitrogen (N) sink in coastal systems, but little is known a...
We performed a 15N-labeling study to investigate nitrogen incorporation and retention by the benthic...
We performed a 15N-labeling study to investigate nitrogen incorporation and retention by the benthic...
In this thesis, several subtidal sandy sediments of the coastal ocean are investigated to unravel th...
Microphytobenthos (MPB) in photic sediments are highly productive but the fate of this production re...
The importance of intertidal flats as areas of nitrogen filtering has become increasingly apparent i...
Microbial communities within bare intertidal sediment have an active role in uptake of inorganic and...
Microphytobenthos (MPB) in photic sediments are highly productive but the fate of this production re...
In this thesis, several subtidal sandy sediments of the coastal ocean are investigated to unravel th...
The pathways and fate of C and N in the microbial compartment of a coastal permeable sandy sediment ...
Data supporting a pulse-chase study of labeled 15N (ammonium) into sandy intertidal sediment that th...
Coastal zones act as a sink for riverine and atmospheric nitrogen inputs and thereby buffer the open...
Riverine ecosystems receive nitrogen loads from point and diffuse sources that are transferred downs...
We tracked carbon (C) and nitrogen (N) uptake into sediments in the presence and absence of benthic ...
Carbon and nitrogen uptake in a microbial community comprising bacteria and microalgae in a sandy ma...
Microphytobenthos (MPB) are an important nitrogen (N) sink in coastal systems, but little is known a...
We performed a 15N-labeling study to investigate nitrogen incorporation and retention by the benthic...
We performed a 15N-labeling study to investigate nitrogen incorporation and retention by the benthic...
In this thesis, several subtidal sandy sediments of the coastal ocean are investigated to unravel th...
Microphytobenthos (MPB) in photic sediments are highly productive but the fate of this production re...
The importance of intertidal flats as areas of nitrogen filtering has become increasingly apparent i...
Microbial communities within bare intertidal sediment have an active role in uptake of inorganic and...
Microphytobenthos (MPB) in photic sediments are highly productive but the fate of this production re...
In this thesis, several subtidal sandy sediments of the coastal ocean are investigated to unravel th...
The pathways and fate of C and N in the microbial compartment of a coastal permeable sandy sediment ...
Data supporting a pulse-chase study of labeled 15N (ammonium) into sandy intertidal sediment that th...
Coastal zones act as a sink for riverine and atmospheric nitrogen inputs and thereby buffer the open...
Riverine ecosystems receive nitrogen loads from point and diffuse sources that are transferred downs...
We tracked carbon (C) and nitrogen (N) uptake into sediments in the presence and absence of benthic ...
Carbon and nitrogen uptake in a microbial community comprising bacteria and microalgae in a sandy ma...