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Concept

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URI http://vocab.nerc.ac.uk/collection/S02/current/S032/
Within Vocab BODC parameter semantic model relationships between what theme and where theme
Preferred Label of the
Definition
Broader S01: measurement to matrix relationship entity
Related P01: Acidity of the water body
P01: Diameter ratio of wet particle/dry particle {particle growth factor} of the atmosphere [aerosol 127nm phase] by Hygroscopic Tandem Differential Mobility Analyser
P01: Diameter ratio of wet particle/dry particle {particle growth factor} of the atmosphere [aerosol 169nm phase] by Hygroscopic Tandem Differential Mobility Analyser
P01: Diameter ratio of wet particle/dry particle {particle growth factor} of the atmosphere [aerosol 211nm phase] by Hygroscopic Tandem Differential Mobility Analyser
P01: Diameter ratio of wet particle/dry particle {particle growth factor} of the atmosphere [aerosol 254nm phase] by Hygroscopic Tandem Differential Mobility Analyser
P01: Diameter ratio of wet particle/dry particle {particle growth factor} of the atmosphere [aerosol 24nm phase] by Hygroscopic Tandem Differential Mobility Analyser
P01: Diameter ratio of wet particle/dry particle {particle growth factor} of the atmosphere [aerosol 43nm phase] by Hygroscopic Tandem Differential Mobility Analyser
P01: Diameter ratio of wet particle/dry particle {particle growth factor} of the atmosphere [aerosol 85nm phase] by Hygroscopic Tandem Differential Mobility Analyser
P01: Total alkalinity of the groundwater [dissolved plus reactive particulate phase] by titration against standardised acid
P01: Area sampled of the bed
P01: Absolute salinity of the water body
P01: Surface elevation (UK Admiralty Chart Datum) of the water body by radar water level recorder
P01: Surface elevation (UK Admiralty Chart Datum) of the water body by fixed half-tide pressure sensor
P01: Surface elevation (unspecified datum) of the water body by bubbler tide gauge
P01: Surface elevation (unspecified datum) of the water body by bubbler tide gauge (second sensor)
P01: Surface elevation (unspecified datum) of the water body by bubbler tide gauge half-tide sensor
P01: Surface elevation (Chart Datum) of the water body by fixed in-situ pressure sensor
P01: Surface elevation (unspecified datum) of the water body by wavestaff and automated record analysis
P01: Surface elevation residual of the water body by subtraction of tidal height sensor2 value from tidal height sensor1 value
P01: Surface elevation (Lowest Astronomical Tide datum) of the water body by infra-red laser rangefinder (infra-red LIDAR)
P01: Surface elevation (Lowest Astronomical Tide datum) of the water body by unspecified prediction algorithm
P01: Surface elevation (Lowest Astronomical Tide datum) of the water body by radar water level recorder
P01: Surface elevation (Lowest Astronomical Tide datum) of the water body by wavestaff
P01: Surface elevation (Lowest Astronomical Tide datum) of the water body by fixed in-situ pressure sensor
P01: Surface elevation daily mean (unspecified datum) of the water body
P01: Surface elevation monthly mean (unspecified datum) of the water body
P01: Surface elevation annual mean (unspecified datum) of the water body
P01: Surface elevation (Mean Sea Level datum) of the water body by fixed in-situ pressure sensor and correction for barometric pressure and density
P01: Surface elevation (Rijkswaterstaat Mean Sea Level) of the water body by digital float tide gauge
P01: Surface elevation (Rijkswaterstaat Mean Sea Level) of the water body by digital step tide gauge
P01: Surface elevation (Mean Sea Level datum) of the water body by infra-red laser rangefinder (infra-red LIDAR)
P01: Surface elevation (Mean Sea Level datum) of the water body by wavestaff
P01: Surface elevation (Mean Sea Level datum) of the water body by fixed in-situ pressure sensor
P01: Surface elevation (Rijkswaterstaat Mean Sea Level) of the water body by radar water level recorder
P01: Surface elevation (Mean Sea Level datum) of the water body by unspecified prediction algorithm
P01: Surface elevation (Rijkswaterstaat Mean Sea Level) of the water body
P01: Surface elevation (Mean Water Height) of the water body by acoustic doppler current profiler (ADCP)
P01: Surface elevation (Mean Water Height) of the water body by fixed in-situ pressure sensor
P01: Surface elevation (NAP datum) of the water body by fixed in-situ pressure sensor
P01: Surface elevation 10-minute mean (Normal Low Water datum) of the water body by inverted echo sounder and averaging of higher frequency data
P01: Surface elevation hourly mean (Normal Low Water datum) of the water body by inverted echo sounder and averaging of higher frequency data
P01: Surface elevation (Normal Low Water datum) of the water body by inverted echo sounder
P01: Surface elevation 30-minute mean (Normal Low Water datum) of the water body by inverted echo sounder and rolling averaging of higher frequency data
P01: Surface elevation hourly mean (Normal Low Water datum) of the water body by inverted echo sounder and rolling averaging of higher frequency data
P01: Surface elevation (NAP datum) of the water body by digital float tide gauge
P01: Surface elevation (NAP datum) of the water body by digital step tide gauge
P01: Surface elevation (NAP datum) of the water body by radar water level recorder
P01: Surface elevation (NAP datum) of the water body
P01: Surface elevation (unspecified datum) of the water body by Dataring sensor 1
P01: Surface elevation (unspecified datum) of the water body by Dataring sensor 2
P01: Surface elevation (unspecified datum) of the water body by Dataring sensor 3
P01: Surface elevation (Ordnance Datum Malin) of the water body by fixed in-situ pressure sensor
P01: Surface elevation (Ordnance Datum Newlyn) of the water body by fixed in-situ pressure sensor
P01: Surface elevation (Okioc Reference Level datum) of the water body by fixed in-situ pressure sensor
P01: Surface elevation residual of the water body by subtraction of predicted value (unspecified source) from observed value
P01: Surface elevation residual of the water body by tidal height sensor2 and subtraction of value predicted by tidal analysis
P01: Surface elevation residual of the water body by tidal height sensor3 and subtraction of predicted value (unspecified source) from observed value
P01: Surface elevation (Mean Sea Level datum) of the water body by radar water level recorder
P01: Surface elevation (unspecified datum) of the water body by fixed in-situ pressure sensor
P01: Surface elevation (unspecified datum) of the water body by fixed in-situ pressure sensor (second sensor)
P01: Surface elevation (relative to instrument zero) of the water body by fixed in-situ pressure sensor
P01: Surface elevation (unspecified datum) of the water body by unspecified prediction algorithm
P01: Surface elevation (relative to instrument zero) of the water body by wavestaff
P01: Surface elevation (unspecified datum) of the water body
P01: Surface elevation (unspecified datum) of the water body by second sensor
P01: Surface elevation (unspecified datum) of the water body by infra-red laser rangefinder (infra-red LIDAR)
P01: Absolute temperature (2m) of the atmosphere by model prediction
P01: Description of the bed
P01: Number (per cycle) of measurements returning false-positive surface detections of the water body by acoustic doppler wave array
P01: Temperature of the bed
P01: Critical erosion stress of the bed by visual observation in a flume
P01: Habitat quality index of the bed by sediment profile imager and analysis following the protocol of Nilsson and Rosenberg (1997)
P01: Critical shear current velocity of the bed by visual observation in a flume
P01: Critical shear current velocity of the bed by bottom photography and estimation from surface roughness
P01: Brunt-Vaisala frequency squared of the water body by turbulence profiler precision CTD
P01: Temperature 10-minute mean of the atmosphere by in-situ thermometer
P01: Temperature 2-minute mean of the atmosphere by in-situ thermometer
P01: Temperature of the atmosphere by Acclaim barometer temperature sensor
P01: Dew point temperature of the atmosphere by computation from air temperature and relative humidity data
P01: Dew point temperature of the atmosphere by computation from wet and dry bulb thermometer data
P01: Dew point temperature of the atmosphere
P01: Temperature of the atmosphere by psychrometer dry bulb
P01: Temperature standard deviation of the atmosphere by psychrometer dry bulb
P01: Temperature of the atmosphere by dry bulb thermometer
P01: Temperature of the atmosphere by dry bulb thermometer (second sensor)
P01: Temperature of the atmosphere by dry bulb thermometer (third sensor)
P01: Temperature standard deviation of the atmosphere by dry bulb thermometer
P01: Temperature of the atmosphere by dry bulb thermometer and taking the average value from two or more sensors
P01: Temperature of the atmosphere by thermometer
P01: Temperature of the atmosphere by thermometer (second sensor)
P01: Absolute temperature of the atmosphere by psychrometer dry bulb
P01: Absolute temperature of the atmosphere
P01: Absolute temperature standard deviation of the atmosphere
P01: Absolute temperature standard deviation of the atmosphere by dry bulb thermometer
P01: Specific humidity standard deviation of the atmosphere
P01: Specific humidity of the atmosphere
P01: CIELAB coordinate a* (CIELAB 1976 colour space) of the sediment by calculated using CIE algorithm with 2 degree standard observer and D65 illuminant
P01: CIELAB coordinate b* (CIELAB 1976 colour space) of the sediment by calculated using CIE algorithm with 2 degree standard observer and D65 illuminant
P01: CIELAB coordinate L* (CIELAB 1976 colour space) of the sediment by calculated using CIE algorithm with 2 degree standard observer and D65 illuminant
P01: CIE tristimulus value X (CIE 1931 XYZ colour space) of the sediment by calculated using CIE algorithm with 2 degree standard observer and D65 illuminant
P01: CIE tristimulus value Y (CIE 1931 XYZ colour space) of the sediment by calculated using CIE algorithm with 2 degree standard observer and D65 illuminant
P01: CIE tristimulus value Z (CIE 1931 XYZ colour space) of the sediment by calculated using CIE algorithm with 2 degree standard observer and D65 illuminant
P01: Colour of the water body by visual estimation and conversion to a number on the Forel-Ule scale
P01: Maximum in-vivo fluorescence (chlorophyll) {Fm} of the water body by in-situ fast repetition rate fluorometer (FRRF) and derivation from the raw data from the dark chamber
P01: Maximum in-vivo fluorescence (chlorophyll) {Fm} of the water body by in-situ fast repetition rate fluorometer (FRRF) and derivation from the raw data from the light chamber
P01: Maximum in-vivo fluorescence (chlorophyll) of the water body by in-situ pump and probe chlorophyll fluorometer
P01: Electrical conductivity of the water body by in-situ conductivity cell and calibration against independent measurements
P01: Electrical conductivity of the water body by in-situ conductivity cell (second sensor) and calibration against independent measurements
P01: Electrical conductivity of the water body by in-situ conductivity cell and with laboratory calibration applied
P01: Electrical conductivity of the water body by moving vessel profiler (MVP)
P01: Electrical conductivity of the water body by in-situ conductivity cell
P01: Electrical conductivity of the water body by in-situ conductivity cell (second sensor)
P01: Electrical conductivity standard deviation of the water body by CTD
P01: Electrical conductivity standard deviation of the water body by CTD (second sensor)
P01: Electrical conductivity of the water body by thermosalinograph
P01: Electrical conductivity of the water body by thermosalinograph (second sensor)
P01: Electrical conductivity of the water body by CTD
P01: Electrical conductivity of the water body by CTD (sensor 2)
P01: Electrical conductivity of the water body
P01: Electrical conductivity of the groundwater [dissolved plus reactive particulate phase] by conductivity cell
P01: Minimum in-vivo fluorescence (chlorophyll) {Fo} of the water body by in-situ fast repetition rate fluorometer (FRRF) and derivation from the raw data from the dark chamber
P01: Minimum in-vivo fluorescence (chlorophyll) {Fo} of the water body by in-situ fast repetition rate fluorometer (FRRF) and derivation from the raw data from the light chamber
P01: Constant in-vivo fluorescence (chlorophyll) of the water body by in-situ pump and probe chlorophyll fluorometer
P01: Potential temperature of the atmosphere
P01: Relative humidity (10-minute mean) of the atmosphere
P01: Relative humidity (10-minute mean) of the atmosphere by second sensor
P01: Relative humidity of the atmosphere by computation from wet and dry bulb thermometer data
P01: Relative humidity standard deviation of the atmosphere by humidity sensor
P01: Relative humidity of the atmosphere by humidity sensor
P01: Relative humidity of the atmosphere by humidity sensor (second sensor)
P01: Relative humidity of the atmosphere by humidity sensor and taking the average value from two or more sensors
P01: Relative humidity of the atmosphere
P01: Relative humidity of the atmosphere by second sensor
P01: Relative humidity (hourly minimum) of the atmosphere
P01: Relative humidity (hourly maximum) of the atmosphere
P01: Compressive strength (unconfined) of the sediment by hand penetrometer
P01: Temperature of the atmosphere by tide gauge ambient temperature sensor
P01: Temperature 10-minute mean of the atmosphere
P01: Temperature daily minimum of the atmosphere by minimum thermometer
P01: Temperature daily minimum of the atmosphere by maximum minimum thermometer
P01: Temperature daily maximum of the atmosphere by maximum thermometer
P01: Temperature daily maximum of the atmosphere by maximum minimum thermometer
P01: Temperature hourly minimum of the atmosphere
P01: Temperature hourly maximum of the atmosphere
P01: Temperature of the atmosphere
P01: Temperature of the atmosphere by second sensor
P01: Wet bulb temperature standard deviation of the atmosphere by psychrometer
P01: Wet bulb temperature of the atmosphere by psychrometer
P01: Wet bulb temperature of the atmosphere
P01: Density (dry bulk) of the suspended particulate material by sediment trapping, volume measurement, drying and gravimetry
P01: Density of the rock
P01: Density of the water body by gravimetry
P01: Depth of the water body by radar water level recorder and calculation from instrument heights above sea surface and bed
P01: Depth below surface of the water body by unknown instrument and estimation by interpolation between pressure sensors and conversion to depth using unspecified algorithm
P01: Electrical resistivity of the bed
P01: Gravity field anomaly (free air) of the Earth
P01: Fluorescence of the water body by linear-response CDOM fluorometer
P01: Fluorescence of the water body
P01: Maximum in-vivo fluorescence (chlorophyll) {Fm} of the water body by fluorescence induction and relaxation (FIRe) fluorometer and derivation from the blank-corrected raw data from the dark chamber
P01: Maximum in-vivo fluorescence (chlorophyll) {Fm} of the water body by in-situ fast repetition rate fluorometer (FRRF) and derivation from the blank-corrected raw data from the dark chamber
P01: Maximum in-vivo fluorescence (chlorophyll) {Fm} of the water body by bench fast repetition rate fluorometer (FRRF) and derivation from the raw data from the dark chamber
P01: Maximum in-vivo fluorescence (chlorophyll) {Fm} of the water body by bench fast repetition rate fluorometer (FRRF) and derivation from the blank-corrected raw data from the dark chamber
P01: Maximum in-vivo fluorescence (chlorophyll) {Fm} of the water body by in-situ fast repetition rate fluorometer (FRRF) and derivation from the blank-corrected raw data from the light chamber
P01: Minimum in-vivo fluorescence (chlorophyll) {Fo} of the water body by fluorescence induction and relaxation (FIRe) fluorometer and derivation from the blank-corrected raw data from the dark chamber
P01: Minimum in-vivo fluorescence (chlorophyll) {Fo} of the water body by in-situ fast repetition rate fluorometer (FRRF) and derivation from the blank-corrected raw data from the dark chamber
P01: Minimum in-vivo fluorescence (chlorophyll) {Fo} of the water body by bench fast repetition rate fluorometer (FRRF) and derivation from the raw data from the dark chamber
P01: Minimum in-vivo fluorescence (chlorophyll) {Fo} of the water body by bench fast repetition rate fluorometer (FRRF) and derivation from the blank-corrected raw data from the dark chamber
P01: Minimum in-vivo fluorescence (chlorophyll) {Fo} of the water body by in-situ fast repetition rate fluorometer (FRRF) and derivation from the blank-corrected raw data from the light chamber
P01: Gravity field of the Earth
P01: Colour (greyscale) of the sediment
P01: Gravity field gradient (horizontal) of the Earth
P01: Gravity field gradient (vertical) of the Earth
P01: Direction (from) of wind relative to True North {wind direction} of the water body by high frequency radar and cell averaging
P01: Depth standard deviation below surface (during sampling event) of the water body by semi-fixed in-situ pressure sensor and conversion to depth using unspecified algorithm
P01: Age of the surface ice by annual layer counting based on ion chromatography chemistry
P01: Image (still) of the bed
P01: Induced electrical polarization of the bed
P01: Diurnal variation correction of magnetic field of the Earth
P01: Induced magnetization of the rock
P01: Induced magnetization of the sediment
P01: Magnetic field of the Earth by second sensor
P01: Magnetic field of the Earth
P01: Remanent magnetization of the rock
P01: Remanent magnetization of the sediment
P01: Magnetic susceptibility of the rock
P01: Magnetic susceptibility of the sediment
P01: Magnetic field anomaly of the Earth
P01: Number (per cycle) of measurements not detecting the surface of the water body by acoustic doppler wave array
P01: Density (neutral) of the water body
P01: pH (NBS scale) of the wet sediment
P01: Sea-floor height (above ODN datum) {bathymetric height} of the water body by Topcon 5Hz real-time kinematic GPS
P01: Sea-floor depth (below ODN datum) {bathymetric depth} of the water body by echo sounder and correction to datum using GPS
P01: Salinity of the water body
P01: pH (NBS scale) of the sediment pore water [dissolved plus reactive particulate phase]
P01: pH (free scale) of the wet sediment by pH electrode
P01: pH of the groundwater [dissolved plus reactive particulate phase] by pH electrode
P01: pH of the wet sediment
P01: Density (potential) of the water body by computation from salinity and potential temperature using UNESCO algorithm with 0 decibar reference pressure
P01: Density (potential) of the water body by computation from salinity and potential temperature using UNESCO algorithm with 1000 decibar reference pressure
P01: Density (potential) of the water body by computation from salinity and potential temperature using UNESCO algorithm with 2000 decibar reference pressure
P01: Density (potential) of the water body by computation from salinity and potential temperature using UNESCO algorithm with 3000 decibar reference pressure
P01: Density (potential) of the water body by computation from salinity and potential temperature using UNESCO algorithm with 4000 decibar reference pressure
P01: Potential temperature of the water body by computation using UNESCO 1983 algorithm
P01: Potential temperature of the water body by second sensor and computation using UNESCO 1983 algorithm
P01: Potential temperature of the water body by CTD and computation from pressure, salinity and IPTS-68 temperature using UNESCO algorithm
P01: Depth below surface of the water body by acoustic doppler current profiler (ADCP) and computation from travel time averaged from all operational beams and unknown sound velocity profile
P01: Sea-floor depth 10-minute mean (below averaged sea level) of the water body by semi-fixed inverted echo sounder and addition of instrument height to measured depth
P01: Sea-floor depth hourly mean (below averaged sea level) of the water body by semi-fixed inverted echo sounder and addition of instrument height to measured depth
P01: Sea-floor depth 30-minute rolling mean (below averaged sea level) of the water body by semi-fixed inverted echo sounder and addition of instrument height to measured depth
P01: Sea-floor depth hourly rolling mean (below averaged sea level) of the water body by semi-fixed inverted echo sounder and addition of instrument height to measured depth
P01: Depth below surface of the water body by semi-fixed in-situ pressure sensor and conversion to depth using unspecified algorithm
P01: Depth below surface of the water body by fixed in-situ pressure sensor and conversion to depth using unspecified algorithm
P01: Depth below surface of the water body by unknown instrument and conversion to depth using unspecified algorithm
P01: Depth below surface of the water body by fixed in-situ pressure sensor and subtraction of measured atmospheric pressure and conversion to depth using unspecified algorithm
P01: Depth below surface of the water body by semi-fixed in-situ pressure sensor and correction to zero at sea level and conversion to depth using unspecified algorithm
P01: Depth below surface of the water body by fixed in-situ pressure sensor and correction to zero at sea level and conversion to depth using unspecified algorithm
P01: Depth below surface of the water body by unknown instrument and correction to zero at sea level and conversion to depth using unspecified algorithm
P01: Practical salinity of the water body by conductivity cell and computation using UNESCO 1983 algorithm
P01: Practical salinity of the water body by computation using UNESCO 1983 algorithm
P01: Practical salinity of the water body by RBR MS-310 micro-salinometer and computation using UNESCO 1983 algorithm
P01: Practical salinity of the water body by bench salinometer and computation using UNESCO 1983 algorithm
P01: Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and calibration against independent measurements
P01: Practical salinity of the water body by CTD (second sensor) and computation using UNESCO 1983 algorithm and calibration against independent measurements
P01: Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and NO calibration against independent measurements
P01: Practical salinity of the water body by CTD (second sensor) and computation using UNESCO 1983 algorithm and NO calibration against independent measurements
P01: Practical salinity of the water body by moving vessel profiler (MVP) and computation using UNESCO 1983 algorithm and calibration against independent measurements
P01: Practical salinity of the water body by moving vessel profiler (MVP) and computation using UNESCO 1983 algorithm
P01: Practical salinity of the water body by conductivity cell (second sensor) and computation using UNESCO 1983 algorithm
P01: Practical salinity standard deviation of the water body by CTD and computation using UNESCO 1983 algorithm and calibration against independent measurements
P01: Practical salinity of the water body by thermosalinograph and computation using UNESCO 1983 algorithm and calibration against independent measurements
P01: Practical salinity of the water body by thermosalinograph (second sensor) and computation using UNESCO 1983 algorithm and calibration against independent measurements
P01: Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm
P01: Practical salinity of the water body by CTD (second sensor) and computation using UNESCO 1983 algorithm
P01: Practical salinity of the water body by thermosalinograph and computation using UNESCO 1983 algorithm and NO calibration against independent measurements
P01: Practical salinity of the water body by thermosalinograph and computation using UNESCO 1983 algorithm
P01: Practical salinity of the water body by in-situ conductivity cell and computation using UNESCO 1983 algorithm
P01: Practical salinity of the water body by in-situ conductivity cell (second sensor) and computation using UNESCO 1983 algorithm
P01: Practical salinity of the water body by in-situ conductivity cell (third sensor) and computation using UNESCO 1983 algorithm
P01: Practical salinity of the water body by in-situ conductivity cell (fourth sensor) and computation using UNESCO 1983 algorithm
P01: Practical salinity of the water body by in-situ conductivity cell (fifth sensor) and computation using UNESCO 1983 algorithm
P01: Practical salinity of the water body by in-situ conductivity cell (sixth sensor) and computation using UNESCO 1983 algorithm
P01: Practical salinity of the water body by in-situ conductivity cell and computation using UNESCO 1983 algorithm and calibration against independent measurements
P01: Practical salinity of the water body by in-situ conductivity cell and computation using UNESCO 1983 algorithm and laboratory calibrations applied
P01: Practical salinity of the water body
P01: Practical salinity standard deviation of the water body by bench salinometer
P01: Practical salinity standard deviation of the water body by CTD and computation using UNESCO 1983 algorithm and NO calibration against independent measurements
P01: Practical salinity standard deviation of the water body by CTD (second sensor) and computation using UNESCO 1983 algorithm and NO calibration against independent measurements
P01: Skin temperature of the water body by infra-red radiometer
P01: Temperature of the water body by in-situ thermometer
P01: Temperature of the water body by in-situ thermistor
P01: Resistivity formation factor of the sediment pore water by division of in-situ resistivity by resistivity of overlying water
P01: Reflectance (355-365 nm wavelength) of the sediment
P01: Reflectance (365-375 nm wavelength) of the sediment
P01: Reflectance (375-385 nm wavelength) of the sediment
P01: Reflectance (385-395 nm wavelength) of the sediment
P01: Reflectance (395-405 nm wavelength) of the sediment
P01: Reflectance (405-415 nm wavelength) of the sediment
P01: Reflectance (415-425 nm wavelength) of the sediment
P01: Reflectance (425-435 nm wavelength) of the sediment
P01: Reflectance (435-445 nm wavelength) of the sediment
P01: Reflectance (445-455 nm wavelength) of the sediment
P01: Reflectance (455-465 nm wavelength) of the sediment
P01: Reflectance (465-475 nm wavelength) of the sediment
P01: Reflectance (475-485 nm wavelength) of the sediment
P01: Reflectance (485-495 nm wavelength) of the sediment
P01: Reflectance (495-505 nm wavelength) of the sediment
P01: Reflectance (505-515 nm wavelength) of the sediment
P01: Reflectance (515-525 nm wavelength) of the sediment
P01: Reflectance (525-535 nm wavelength) of the sediment
P01: Reflectance (535-545 nm wavelength) of the sediment
P01: Reflectance (545-555 nm wavelength) of the sediment
P01: Reflectance (555-565 nm wavelength) of the sediment
P01: Reflectance (565-575 nm wavelength) of the sediment
P01: Reflectance (575-585 nm wavelength) of the sediment
P01: Reflectance (585-595 nm wavelength) of the sediment
P01: Reflectance (595-605 nm wavelength) of the sediment
P01: Reflectance (605-615 nm wavelength) of the sediment
P01: Reflectance (615-625 nm wavelength) of the sediment
P01: Reflectance (625-635 nm wavelength) of the sediment
P01: Reflectance (635-645 nm wavelength) of the sediment
P01: Reflectance (645-655 nm wavelength) of the sediment
P01: Reflectance (655-665 nm wavelength) of the sediment
P01: Reflectance (665-675 nm wavelength) of the sediment
P01: Reflectance (675-685 nm wavelength) of the sediment
P01: Reflectance (685-695 nm wavelength) of the sediment
P01: Reflectance (695-705 nm wavelength) of the sediment
P01: Reflectance (705-715 nm wavelength) of the sediment
P01: Reflectance (715-725 nm wavelength) of the sediment
P01: Reflectance (725-735 nm wavelength) of the sediment
P01: Reflectance (735-745 nm wavelength) of the sediment
P01: Global standard stratigraphic age of the sediment
P01: Practical salinity standard deviation of the water body by conductivity cell and computation using UNESCO 1983 algorithm
P01: Coverage (in assayed sample) of biological entity specified elsewhere of the bed
P01: Sea-floor height (above ODN datum) {bathymetric height} of the water body by Trimble 5800 GPS System
P01: Sigma-theta of the water body by computation from salinity and potential temperature using UNESCO algorithm
P01: Sigma-T of the water body by computation from salinity and temperature using UNESCO algorithm
P01: Sigma-theta of the water body by moving vessel profiler (MVP) and computation from salinity and potential temperature using UNESCO algorithm
P01: Sigma-theta of the water body by CTD and computation from salinity and potential temperature using UNESCO algorithm
P01: Sigma-theta of the water body by CTD (second sensor) and computation from salinity and potential temperature using UNESCO algorithm
P01: Sigma-theta of the water body by thermosalinograph and computation from salinity and potential temperature using UNESCO algorithm
P01: Salinity of the water body by titration against silver nitrate (AgNO3)
P01: Salinity of the water body by bench salinometer
P01: Salinity of the water body by conductivity cell
P01: Salinity of the water body by thermosalinograph
P01: Salinity of the water body by STD
P01: Salinity of the water body by CTD
P01: Shear strength (undrained) of the sediment by hand shear vane
P01: U-Th age of the stalagmite by ion-exchange chromatography and U-Th mass spectrometry using 229Th-236U spike standard and linear model prediction
P01: U-Th age of the stalagmite by ion-exchange chromatography and U-Th mass spectrometry using 229Th-236U spike standard and polynomial model prediction
P01: U-Th age of the stalagmite by ion-exchange chromatography and U-Th mass spectrometry using 229Th-236U spike standard and spline model prediction
P01: U-Th age error margin of the stalagmite by alpha spectroscopy
P01: U-Th age of the stalagmite by alpha spectroscopy
P01: U-Th age of the stalagmite by alpha spectroscopy and linear model prediction
P01: U-Th age of the stalagmite by alpha spectroscopy and polynomial model prediction
P01: U-Th age of the stalagmite by alpha spectroscopy and spline model prediction
P01: U-Th age error margin of the stalagmite by ion-exchange chromatography and U-Th mass spectrometry using 229Th-236U spike standard
P01: U-Th age of the stalagmite by ion-exchange chromatography and U-Th mass spectrometry using 229Th-236U spike standard
P01: U-Th age of the stalagmite by unknown instrument and linear model prediction
P01: Temperature standard deviation of the water body by CTD and NO verification against independent measurements
P01: Temperature standard deviation of the water body by CTD (second sensor) and NO verification against independent measurements
P01: Thermal conductivity of the rock
P01: Thermal conductivity of the sediment
P01: Temperature of the water body by AWQMS Quanta platinum resistance thermometer
P01: Skin temperature of the water body by advanced very high resolution radiometer (AVHRR)
P01: Temperature of the water body by bathythermograph
P01: Temperature of the water body by CTD and verification against independent measurements
P01: Temperature standard deviation of the water body by CTD and verification against independent measurements
P01: Temperature of the water body by CTD and NO verification against independent measurements
P01: Temperature of the water body by CTD (second sensor) and NO verification against independent measurements
P01: Temperature of the water body by hand-held digital thermometer
P01: Temperature of the water body by expendable bathythermograph (XBT)
P01: Temperature of the water body by thermosalinograph hull sensor and verification against independent measurements
P01: Temperature of the water body by thermosalinograph hull sensor (second sensor) and verification against independent measurements
P01: Temperature of the water body by hand-held mercury thermometer
P01: Temperature of the water body by thermosalinograph hull sensor and NO verification against independent measurements
P01: Temperature of the water body by thermosalinograph hull sensor (second sensor) and NO verification against independent measurements
P01: Temperature standard deviation of the water body by thermosalinograph hull sensor and NO verification against independent measurements
P01: Temperature of the water body by moving vessel profiler (MVP) and verification against independent measurements
P01: Temperature of the water body by mechanical bathythermograph
P01: Temperature of the water body by moving vessel profiler (MVP)
P01: Skin temperature of the water body by microwave radiometer
P01: Temperature (IPTS-68) of the water body
P01: Temperature (ITS-90) of the water body
P01: Temperature of the water body by temperature probe on half tide pressure gauge
P01: Temperature of the water body by YSI in-situ oxygen and temperature probe
P01: Temperature of the water body by YSI profiling oxygen and temperature probe
P01: Temperature of the water body
P01: Temperature of the water body by second sensor
P01: Temperature of the water body by third sensor
P01: Temperature (IPTS-68) of the water body by reversing thermometer
P01: Temperature (ITS-90) of the water body by reversing thermometer
P01: Temperature of the water body by reversing thermometer
P01: Temperature (IPTS-68) of the water body by CTD or STD
P01: Temperature (ITS-90) of the water body by CTD or STD
P01: Temperature (ITS-90) of the water body by CTD or STD (second sensor)
P01: Temperature of the water body by Sea-Bird SBE 35 deep ocean standards thermometer
P01: Temperature (ITS-90) standard deviation of the water body
P01: Temperature (ITS-90) standard deviation of the water body by second sensor
P01: Temperature standard deviation of the water body by SonTek current meter
P01: Temperature of the water body by thermosalinograph and verification against independent measurements
P01: Temperature of the water body by CTD or STD
P01: Temperature of the water body by CTD or STD (second sensor)
P01: Temperature mean of the water body by SonTek current meter
P01: Temperature of the water body by thermosalinograph and NO verification against independent measurements
P01: Temperature of the water body by thermosalinograph
P01: Temperature of the water body by in-situ StowAway TidbiT temperature logger
P01: Temperature of the water body by in-situ thermistor (second sensor)
P01: Temperature of the water body by in-situ thermistor (third sensor)
P01: Temperature of the water body by in-situ thermistor (fourth sensor)
P01: Temperature of the water body by in-situ thermistor (fifth sensor)
P01: Temperature of the water body by in-situ thermistor (sixth sensor)
P01: Temperature of the water body by in-situ thermistor (seventh sensor)
P01: Temperature of the water body by in-situ thermistor (eighth sensor)
P01: Temperature of the water body by in-situ thermistor (ninth sensor)
P01: Temperature of the water body by in-situ thermistor (tenth sensor)
P01: Temperature of the water body by in-situ thermistor (eleventh sensor)
P01: Temperature of the water body by in-situ thermistor (twelfth sensor)
P01: Temperature of the water body by in-situ thermistor (thirteenth sensor)
P01: Temperature of the water body by in-situ thermistor (fourteenth sensor)
P01: Temperature of the water body by in-situ thermistor (fifteenth sensor)
P01: Temperature of the experiment water sample by digital thermometer
P01: Temperature of the water body by in-situ thermometer and calibration against independent measurements
P01: Temperature of the water body by in-situ thermometer and laboratory calibration applied
P01: Volume sampled of the water body
P01: Area sampled of the bed by image analysis
P01: Wind chill temperature of the atmosphere
P01: Wind chill temperature of the atmosphere by second sensor
Note accepted
Deprecated false
Alternative Label
Version 1
Has Current Version http://vocab.nerc.ac.uk/collection/S02/current/S032/1/
Authored On 2006-04-06 16:04:

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