Add to ORKGElemental contents in catchment headwaters are indicative of the load of nutrients and minerals cycled or released from ecosystems, yet little is known about natural colloids (1–1000 nm) and especially natural nanoparticles (NNP, 1–100 nm) as nutrient carriers in forested headwater streams. We hypothesize that the majority of P is bound to NNP in forest streams but that their size and composition varies for different forested headwater systems. Four forested sites in Germany and one in Norway, which differ in total P content, were sampled for stream water and analyzed for colloids. The samples were fractionated using field flow fractionation coupled to inductively coupled plasma–mass spectrometry and an organic C detector. The results showe...
Phosphorus (P) in natural waters may be bound to iron (Fe) bearing colloids. However, the natural va...
A high precision fractionation of particle size classes between 1nm and 1000nm is best applicable wi...
Nanoparticles and colloids affect the storage and hence the availability of P in forest ecosystems. ...
Elemental contents in catchment headwaters are indicative of the load of nutrients and minerals cycl...
Stream waters reflect the natural load of nutrients and minerals cycled within or released from ecos...
Biogeochemical cycling of elements largely occurs in dissolved state, but many elements may also be ...
Biogeochemical cycling of elements largely occurs in dissolved state, but many elements may also be ...
Natural fine colloids and nanoparticles have the potential to encapsulate and bind nutrients. Their ...
Natural fine colloids and nanoparticles have the potential to encapsulate and bind nutrients. Their ...
Natural fine colloids and nanoparticles have the potential to encapsulate and bind nutrients. Their ...
Natural soil colloids (1 nm - 1 µm) and specifically their subset nanoparticles (1 nm - 100 nm) are ...
Background and aimsNanoparticles and colloids affect the mobilisation and availability of phosphorus...
Understanding and quantification of phosphorus (P) fluxes are key requirements for predictions of fu...
Colloidal phosphorus (P) may represent an important fraction of the P in natural waters, but these c...
<p>Colloidal phosphorus (P) may represent an important fraction of the P in natural waters, but thes...
Phosphorus (P) in natural waters may be bound to iron (Fe) bearing colloids. However, the natural va...
A high precision fractionation of particle size classes between 1nm and 1000nm is best applicable wi...
Nanoparticles and colloids affect the storage and hence the availability of P in forest ecosystems. ...
Elemental contents in catchment headwaters are indicative of the load of nutrients and minerals cycl...
Stream waters reflect the natural load of nutrients and minerals cycled within or released from ecos...
Biogeochemical cycling of elements largely occurs in dissolved state, but many elements may also be ...
Biogeochemical cycling of elements largely occurs in dissolved state, but many elements may also be ...
Natural fine colloids and nanoparticles have the potential to encapsulate and bind nutrients. Their ...
Natural fine colloids and nanoparticles have the potential to encapsulate and bind nutrients. Their ...
Natural fine colloids and nanoparticles have the potential to encapsulate and bind nutrients. Their ...
Natural soil colloids (1 nm - 1 µm) and specifically their subset nanoparticles (1 nm - 100 nm) are ...
Background and aimsNanoparticles and colloids affect the mobilisation and availability of phosphorus...
Understanding and quantification of phosphorus (P) fluxes are key requirements for predictions of fu...
Colloidal phosphorus (P) may represent an important fraction of the P in natural waters, but these c...
<p>Colloidal phosphorus (P) may represent an important fraction of the P in natural waters, but thes...
Phosphorus (P) in natural waters may be bound to iron (Fe) bearing colloids. However, the natural va...
A high precision fractionation of particle size classes between 1nm and 1000nm is best applicable wi...
Nanoparticles and colloids affect the storage and hence the availability of P in forest ecosystems. ...