Concept
isotope-labelled tracer addition, incubation at different light levels, filtration
URI | http://vocab.nerc.ac.uk/collection/S03/current/S03198/ | |
---|---|---|
Within Vocab | BODC parameter semantic model sample preparation entity descriptions | |
Alternative Labels | ||
Definition | A dissolved radioactive or stable isotope tracer was added to the samples which were held for a predetermined time at different unstated (usually documented elsewhere) light levels before filtration to collect the particulate phase. | |
Date | 2009-12-20T14:27:3 | |
Identifier | SDN:S03::S03198 | |
Note | accepted | |
Has Current Version | 2 | |
Version | 1 | |
version | 2 | |
Broader | S01:S019 | sample preparation method entity |
Related | P01:INNUIIP1 | Uptake rate of nitrate {NO3- CAS 14797-55-8} per day per unit area of the water body [particulate >GF/F phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and mass spectrometry on residue and profile integration |
P01:SINUIIPA | Uptake rate of nitrate {NO3- CAS 14797-55-8} per day per unit area of the water body [particulate >5um phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and mass spectrometry on residue and profile integration | |
P01:INSDIIP1 | Uptake rate standard deviation of nitrate {NO3- CAS 14797-55-8} per day per unit area of the water body [particulate >GF/F phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and mass spectrometry on residue and profile integration | |
P01:INSEIIP1 | Uptake rate standard error of nitrate {NO3- CAS 14797-55-8} per day per unit area of the water body [particulate >GF/F phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and mass spectrometry on residue and profile integration | |
P01:SICUIIPW | Uptake rate of carbon {C} per day per unit area of the water body [particulate >18um phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and counting residue and profile integration | |
P01:SIHRIIPQ | Uptake rate of carbon {C} per hour per unit area of the water body [particulate >20um phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and counting residue and profile integration | |
P01:SICUIIPA | Uptake rate of carbon {C} per day per unit area of the water body [particulate >5um phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and counting residue and profile integration | |
P01:INHRIIP5 | Uptake rate of carbon {C} per hour per unit area of the water body [particulate >0.2um phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and counting residue and profile integration | |
P01:SIHRIIPB | Uptake rate of carbon {C} per hour per unit area of the water body [particulate >2um phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and counting residue and profile integration | |
P01:INPPIIP5 | Uptake rate of carbon {C} per day per unit area of the water body [particulate >0.2um phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and counting residue and profile integration | |
P01:SIHRIIPA | Uptake rate of carbon {C} per hour per unit area of the water body [particulate >5um phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and counting residue and profile integration | |
P01:SICUIIPQ | Uptake rate of carbon {C} per day per unit area of the water body [particulate >20um phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and counting residue and profile integration | |
P01:SIHRIIPW | Uptake rate of carbon {C} per hour per unit area of the water body [particulate >18um phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and counting residue and profile integration | |
P01:SICUIIPB | Uptake rate of carbon {C} per day per unit area of the water body [particulate >2um phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and counting residue and profile integration | |
P01:INAUIIP1 | Uptake rate of ammonium {NH4+ CAS 14798-03-9} per day per unit area of the water body [particulate >GF/F phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and mass spectrometry on residue and profile integration | |
P01:IASEIIP1 | Uptake rate standard error of ammonium {NH4+ CAS 14798-03-9} per day per unit area of the water body [particulate >GF/F phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and mass spectrometry on residue and profile integration | |
P01:INUUIIP1 | Uptake rate of urea {CAS 57-13-6} per day per unit area of the water body [particulate >GF/F phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and mass spectrometry on residue and profile integration | |
P01:SIPUIIPA | Uptake rate of phosphate {PO43- CAS 14265-44-2} per day per unit area of the water body [particulate >5um phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and counting residue and profile integration | |
P01:NIPUIIP1 | Uptake rate of phosphate {PO43- CAS 14265-44-2} per hour per unit area of the water body [particulate >GF/F phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and counting residue and profile integration | |
P01:SIPUIIPB | Uptake rate of phosphate {PO43- CAS 14265-44-2} per day per unit area of the water body [particulate >2um phase] by isotope-labelled tracer addition, incubation at different light levels, filtration and counting residue and profile integration |
Alternate Formats
Other formats for this page:
RDF/XML Turtle JSON-LDAlternate Profiles
Other views of this page:
Alternate Profiles ?Different Media Types (HTML, text, RDF, JSON etc.) and different information model views, profiles, are available for this resource.