Pan-European infrastructure for ocean & marine data management

P01 Vocabulary - Facet Search on Semantic Components

P01 Vocabulary - Facet Search on Semantic Components

The P01 Parameter Usage Vocabulary is based on a semantic model. This model uses a defined set of controlled vocabularies (the semantic components). The Facet Search below facilitates you to search for specific existing P01 terms using components for drilling down.

Are you missing specific P01 terms in the vocabulary, then you can compose and submit new terms for review and uptake using the P01 Vocabulary Builder tool.

Conceptid (46265)Preflabel
1IPSWF45Concentration of 1-iodopropane {C3H7I CAS 107-08-4} per unit volume of the water body [dissolved plus reactive particulate <0.4/0.45um phase] by filtration, purging, cryogenic trapping and gas chromatography-mass spectrometry
2IPSWF45Concentration of 2-iodopropane {CAS 75-30-9} per unit volume of the water body [dissolved plus reactive particulate <0.4/0.45um phase] by filtration, purging, cryogenic trapping and gas chromatography-mass spectrometry
3H1HMXTXAtomic ratio of tritium/hydrogen in the water body [dissolved plus reactive particulate phase] by mass spectrometry
408ERXSDDownwelling vector irradiance as energy (408nm wavelength) in the atmosphere by cosine-collector radiometer
412ERSSDDownwelling vector irradiance as energy (412nm wavelength) in the atmosphere by cosine-collector radiometer and smoothed
412ERXSDDownwelling vector irradiance as energy (412nm wavelength) in the atmosphere by cosine-collector radiometer
412ERXUDDownwelling vector irradiance as energy (412nm wavelength) in the water body by cosine-collector radiometer
412LRXUUUpwelling radiance as energy (412nm wavelength) in the water body by radiance sensor
412NRXXXNormalised water-leaving radiance (412nm wavelength) from the water body
437ERXSDDownwelling vector irradiance as energy (437nm wavelength) in the atmosphere by cosine-collector radiometer
440VUU01Instrument output (voltage) in the water body by cosine-collector upwelling 440nm radiometer
443ERSSDDownwelling vector irradiance as energy (443nm wavelength) in the atmosphere by cosine-collector radiometer and smoothed
443ERXSDDownwelling vector irradiance as energy (443nm wavelength) in the atmosphere by cosine-collector radiometer
443ERXUDDownwelling vector irradiance as energy (443nm wavelength) in the water body by cosine-collector radiometer
443LRXUUUpwelling radiance as energy (443nm wavelength) in the water body by radiance sensor
443NRXXXNormalised water-leaving radiance (443nm wavelength) from the water body
488ERXUDDownwelling vector irradiance as energy (488nm wavelength) in the water body by cosine-collector radiometer
488LRXUUUpwelling radiance as energy (488nm wavelength) in the water body by radiance sensor
490ERSSDDownwelling vector irradiance as energy (490nm wavelength) in the atmosphere by cosine-collector radiometer and smoothed
490ERXSDDownwelling vector irradiance as energy (490nm wavelength) in the atmosphere by cosine-collector radiometer
490ERXUDDownwelling vector irradiance as energy (490nm wavelength) in the water body by cosine-collector radiometer
490KRXXXLight extinction coefficient (490nm wavelength) in the water body by radiometer and computation from variation of light intensity with depth
490LRXUUUpwelling radiance as energy (490nm wavelength) in the water body by radiance sensor
490NRXXXNormalised water-leaving radiance (490nm wavelength) from the water body