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 (2729)Preflabel
I0B28141Biomass as carbon of Dysteria (WoRMS 178688) [Size: 20-39um] per unit volume of the water body by optical microscopy and computation of carbon biomass from abundance using the equation of Putt and Stoecker (1989)
I2380289Biomass as carbon of Parallelostrombidium pulchrum [Size: 40-59um] per unit volume of the water body by optical microscopy and computation of carbon biomass from abundance using the equation of Putt and Stoecker (1989)
I35843A2Biomass as carbon of Strombidium capitatum (WoRMS 101282) [Size: 20-39um] per unit volume of the water body by optical microscopy and computation of carbon biomass from abundance using the equation of Putt and Stoecker (1989)
I8A0981ABiomass as carbon of mesozooplankton [Size: 200-500um] per unit volume of the water body by eosin staining and Plankton Visual Analyser and computation of carbon biomass using the equation of Alcaraz et al. (2003)
J0A1A02ABiomass as carbon of Ciliatea (ITIS: 46212: WoRMS 238375) [Size: 20-39um Subgroup: sp. 9] per unit volume of the water body by optical microscopy and computation of carbon biomass from abundance using the equation of Putt and Stoecker (1989)
J47A4081Biomass as carbon of Scuticociliate [Size: 20-39um Subgroup: sp. 1] per unit volume of the water body by optical microscopy and computation of carbon biomass from abundance using the equation of Putt and Stoecker (1989)
J6591705Biomass as carbon of Ciliophora (ITIS: 46211: WoRMS 11) per unit volume of experiment water sample by optical microscopy and computation of carbon biomass from abundance using the equations of Menden-Deuer and Lessard (2000)
J6830B37Biomass as carbon standard deviation of flagellates [Size: >3.5um] per unit volume of experiment water sample by optical microscopy and computation of carbon biomass from abundance using the equations of Menden-Deuer and Lessard (2000)
J9805A78Biomass as carbon of Euplotes (ITIS: 46838: WoRMS 179326) [Size: 60-79um] per unit volume of the water body by optical microscopy and computation of carbon biomass from abundance using the equation of Putt and Stoecker (1989)
K2585BB6Biomass as carbon standard deviation of Ciliophora (ITIS: 46211: WoRMS 11) per unit volume of experiment water sample by optical microscopy and computation of carbon biomass from abundance using the equations of Menden-Deuer and Lessard (2000)
K7511B0ABiomass as carbon of microplankton [Size: 30-50um] per unit volume of the water body by preservation and no staining and Plankton Visual Analyser and computation of carbon biomass from abundance using the equations of Menden-Deuer and Lessard (2000)
L36092B8Biomass as carbon standard deviation of Silicoflagellida (ITIS: 43789: WoRMS 378496) per unit volume of experiment water sample by optical microscopy and computation of carbon biomass from abundance using the equations of Menden-Deuer and Lessard (2000)
L7047611Biomass as carbon of Strombidium (ITIS: 46608: WoRMS 101195) [Size: <20um Subgroup: sp. 1] per unit volume of the water body by optical microscopy and computation of carbon biomass from abundance using the equation of Putt and Stoecker (1989)
L71AB244Biomass as carbon of mesozooplankton [Size: 500-1000um] per unit volume of the water body by eosin staining and Plankton Visual Analyser and computation of carbon biomass using the equation of Alcaraz et al. (2003)
L7AA0717Biomass as carbon standard deviation of Dinophyceae (ITIS: 9874: WoRMS 19542) [Morphology: athecate] per unit volume of experiment water sample by optical microscopy and computation of carbon biomass from abundance using the equations of Menden-Deuer and Lessard (2000)
M1B23A11Biomass as carbon of Tintinnina (ITIS: 46620: WoRMS 732976) [Size: <20um Subgroup: sp. 2] per unit volume of the water body by optical microscopy and computation of carbon biomass from abundance using the equation of Putt and Stoecker (1989)
M225B210Biomass as carbon of Strombidium (ITIS: 46608: WoRMS 101195) per unit volume of the water body by optical microscopy and computation of carbon biomass from abundance using the equations of Menden-Deuer and Lessard (2000)
M6B10920Biomass as carbon of Strombidium rhynchum (WoRMS 427738) [Size: 20-39um] per unit volume of the water body by optical microscopy and computation of carbon biomass from abundance using the equation of Putt and Stoecker (1989)
M9065A63Biomass as carbon of Amphorides quadrilineata (WoRMS 235769) [Size: >100um] per unit volume of the water body by optical microscopy and computation of carbon biomass from abundance using the equation of Putt and Stoecker (1989)
M9323A20Biomass as carbon of Myrionecta rubra (WoRMS 292896) [Size: 20-39um] per unit volume of the water body by optical microscopy and computation of carbon biomass from abundance using the equation of Putt and Stoecker (1989)
MA4668ABBiomass as carbon of Dictyocysta (ITIS: 46690: WoRMS 196834) [Size: 60-79um Subgroup: sp. 1] per unit volume of the water body by optical microscopy and computation of carbon biomass from abundance using the equation of Putt and Stoecker (1989)
MFCBSANM
MSBCMITXBiomass as carbon of mesozooplankton per unit volume of the water body by optical microscopy and computation of carbon biomass from abundance
MSICGVTXBiomass as carbon of mesozooplankton per unit area of the water body by gravimetric determination of loss on ignition and computation of carbon biomass from measured weight and profile integration
MZBCMITXBiomass as carbon of microzooplankton per unit volume of the water body by optical microscopy and computation of carbon biomass from abundance