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BODC Vocab Library
S05 (BODC parameter semantic model data processing entity descriptions)
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S050001
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Preferred label
algal1 algorithm
analysis of cumulative frequency ordered by phi (coarse to fine)
analysis of cumulative settling rate curve
analysis of cumulative settling rate curve after Folk and Ward (1957)
assumption that POC is negligible
automated record analysis
automated record analysis using the zero-crossing method
averaging of all functional beams
averaging values from multiple core segments
calibration against Ca analyses with correction for chlorophyll interference
calibration against independent measurements
calibration against sample data
calibration against sample data and computation from concentration using Benson and Krause algorithm
calibration to read zero in clear water
calibration to read zero in clear water with computation from volume scatter
calibration using protocols of Deines (1999)
categorisation using EMODnet chemistry reporting protocol
cell averaging
classification according to Rowles et al (2001)
classification to a term from Nanson et al. (2023)
classification to a term from the EMODnet Human Activities vocabulary (SDN:HA2::)
classification to a term from the Everyone's Gliding Observatories (EGO) format reference list (https://doi.org/10.13155/34980)
classification to a term from the HELCOM 'HUB' Underwater Biotope and Habitat Classification System (SDN:M23::)
classification to a term from the JNCC's Marine Habitat Classification for Britain and Ireland Version 04.05 (SDN:M20::)
classification to a term from the JNCC's Marine Habitat Classification for Britain and Ireland Version 15.03 (SDN:M21::)
classification to a term from the JNCC's Marine Habitat Classification for Britain and Ireland Version 97.06 (SDN:M24::)
classification to a term from the Marine Strategy Framework Directive broad habitat types (Commission Decision (EU)2017/848)
classification to a term from the NVS SeaDataCloud Flow Cytometry Standardised Cluster Names Vocabulary (SDN:F02::)
classification to a term from the OSPAR Commission's List of Threatened and/or Declining Species and Habitats (SDN:M22::)
classification using GEBCO Grid Source Data Type Identifier (SDN:GGT::)
computation
computation after Folk and Ward (1957)
computation by morphometric method
computation from 1st order Fourier coefficients of directional distribution of energy, A1 and B1
computation from air temperature and relative humidity data
computation from areal extent multiplied by coverage ratio
computation from ash-free dry weight and temperature using a general allometric equation (Edgar, 1991)
computation from biovolume using equations from Menden-Deuer and Lessard (2000)
computation from concentration
computation from concentration using Benson and Krause algorithm
computation from concentration using Weiss algorithm
computation from cross spectra
computation from CTD density profile
computation from CTD temperature profile
computation from DMS concentration and shipboard wind speed
computation from Equivalent Spherical Diameter (ESD)
computation from fast microstructure temperature
computation from Fm and Fo fluorescence yields from the dark chamber
computation from Fm and Fo fluorescence yields from the light chamber
computation from horizontal co-spectra translation after Kuik et al. (1988)
computation from manufacturer's stated ping standard deviation divided by the squared root of the number of good pings in an ensemble
computation from moments as defined by Cartwright and Longuet-Higgins (1956)
computation from pCO2 following correction to dry air and calibration against standards
computation from pH and alkalinity
computation from phi size distribution
computation from potassium concentration
computation from pressure, salinity and IPTS-68 temperature using UNESCO algorithm
computation from probe free-fall time using unspecified algorithm
computation from PvI and the absorption of photosynthetically active radiation (PAR) data
computation from PvI data and measured light profile
computation from PvI data and measured wavelength-dependent phytoplankton absorption coefficients
computation from rate of change of concentration in overlying water
computation from regression line of suspended sediment concentration versus water flow velocity
computation from salinity and potential temperature using UNESCO algorithm
computation from salinity and temperature using UNESCO algorithm
computation from sampling device flowmeter reading and deployment time
computation from sampling device geometry and estimated distance travelled
computation from temperature and salinity by unspecified algorithm
computation from the ratio of horizontal translation to heave
computation from the ratio of upwelled irradiance at 440 and 570 nm
computation from the ratio of upwelled irradiance at 490 and 570 nm
computation from the wave velocity cell recorded burst
computation from total mass of suspended solids and bulk density
computation from travel time averaged from all operational beams and unknown sound velocity profile
computation from true wind speed using the COARE3.5 model (Edson et al. 2013)
computation from turbulent kinetic energy and density
computation from variation of light intensity with depth
computation from volume scatter data
computation from wet and dry bulb thermometer data
computation from wet bulk density
computation from wet bulk density and assumed mineral grain and seawater densities
computation of Blundell and Barber (2005)
computation of carbon biomass from abundance
computation of carbon biomass from abundance using the equation of Putt and Stoecker (1989)
computation of carbon biomass from abundance using the equations of Menden-Deuer and Lessard (2000)
computation of carbon biomass from displacement volumes
computation of carbon biomass from measured weight and profile integration
computation of carbon biomass using the equation of Alcaraz et al. (2003)
computation of carbon biomass using the equation of Andrássy (1956)
computation of carbon from calcium
computation of carbon produced from amino acid uptake, abundance and cell volume data
computation of density reciprocal from pressure, temperature and salinity
computation of depth using unspecified drop rate algorithm converted to pressure using UNESCO algorithm
computation of rate of change from variable incubation durations
computation using Andrassy (1956) formula
computation using equations from Legendre and Gosseline (1996)
computation using Fourier analysis after Goda (1970)
computation using Fourier analysis after Nolte and Hsu (1972)
computation using Fourier analysis with NO depth attenuation correction
computation using OC5 algorithm
computation using P-EXEC algorithm
computation using protocol of Barstow et al. (1991)
computation using resultant velocity components from beams 1 and 3
computation using resultant velocity components from beams 2 and 4
computation using stereometric formulas
computation using stereometrical configurations of Edler (1979)
computation using stereometrical configurations of Edler(1979) and carbon factor of Gonzalez and Smetacek(1994)
computation using Takahashi correction to in-situ temperature
computation using the Blackburn-Caperon model
computation using the eddy covariance method
computation using the haversine formula
computation using the published OC3M algorithm
computation using the published OC3V algorithm
computation using the published OC4Me algorithm
computation using UNESCO 1983 algorithm
computation using UNESCO 1983 algorithm and calibration against independent measurements
computation using UNESCO 1983 algorithm and NO calibration against independent measurements
computation using UNESCO algorithm
computation using UNESCO algorithm and calibration against independent measurements
computation using UNESCO algorithm and NO calibration against independent measurements
concentration to activity conversion based on half life
conversion from height above seabed using bathymetric depth
conversion to Beaufort scale
conversion to depth using unspecified algorithm
conversion to ESAS code using the visibility table
conversion to seawater depth using UNESCO algorithm
conversion to WMO code
conversion to WMO code using table 0885/0877
conversion to WMO code using table 1555
conversion to WMO code using table 3155
conversion to WMO code using table 3700
conversion to WMO code using table 4300
conversion to WMO code using table 4677/4501
corrected for the detrital contribution
corrected for the dissolution of lithogenic minerals
correction after Del Grosso
correction after Kuwahara
correction after Stuiver and Reimer
correction after Wilson
correction based on measured sound velocity profile
correction based on re-calculated zero baseline
correction for atmospheric pressure
correction for atmospheric stability and to a height of 10m
correction for bacterial chlorophyll c+d following Caraco & Puccoon 1986 and Golterman et al. 1978 protocols
correction for bacteriochlorophyll c+d following Caraco and Puccoon 1986, and Golterman et al. 1978
correction for divinyl chlorophyll forms
correction for drift
correction for hydrolysis
correction for lithogenic Ba contribution
correction for nitrite
correction for seawater compressibility
correction for variation in surface illumination
correction to a common scale
correction to a path length of 1m
correction to a path length of 1m and for seawater compressibility
correction to in-situ temperature after Takahashi
correction to read zero at sea level
correction to sea level
correction to sea level and averaging of multiple sensors
correction to sea level and subtraction of value predicted by tidal analysis
correction to true North
correction to zero at sea level and conversion to depth using unspecified algorithm
correction using Carter's tables
correction using co-located air pressure and subtraction of value predicted by tidal analysis
correction using co-located air pressure data expressed to unspecified datum by subtraction of a constant
correction using Matthew's tables
dark current baseline correction
decay correction to sampling time
derivation from GEBCO centenary edition 1-minute global grid
derivation from GEBCO_08 30 arc-second global grid
derivation from GEBCO_14 30 arc-second global grid
derivation from GEBCO_19 15 arc-second global grid
derivation from the raw data from the dark chamber to Kolber et al 1998 biophysical model using Laney v4 2003 software
derivation from the raw data from the dark chamber with calibration against sample data
derivation from the raw data from the light chamber to Kolber et al 1998 biophysical model using Laney v4 2003 software
differencing carbon uptake with and without nitrification inhibitor
differencing determinations on sample before and after 400C ignition
differencing DMSO before and after incubation
differencing DOC before and after incubation
differencing of the measurements
differencing results from acidified and unacidified samples
differencing results from acidified and unacidified samples and profile integration
differencing results from acidified and unacidified samples, summation of size fractionated data and profile integration
differencing results from two size-fractions
differencing the results from 0.4um and 10**4 Dalton filtered water
division of in-situ resistivity by resistivity of overlying water
division of upwelling irradiance by downwelling irradiance
down-crossing analysis
empirical correction for optics fouling and Saunders compressibility correction
estimation from phytoplankton spectral absorption coefficients after Dubinsky (1980)
estimation from surface roughness
expressed as PPi
expressed at measurement altitude
expressed to unspecified datum by subtraction of a constant
geometric statistics computation
laboratory calibration against formazin
laboratory calibration applied
lipid normalisation (wet weight cct/lipid proportion)
lipid normalisation (wet weight cct/lipid proportion) and weaning correction
manual record analysis
manufacturer's calibration and correction against independent temperature and salinity measurements
manufacturer's calibration and laboratory calibration against TRIS-buffer applied
manufacturer's calibration applied
most probable number analysis
multiplication by 10**7
no calibration against sample data
NO correction or calibration of raw count rates
NO salt correction
NO verification against independent measurements
normalisation at zero pressure and 25 degrees Celsius
normalisation from per cell to per cell volume
normalisation to organic carbon and lutum content (RIKZ 'standard sediment')
normalisation with biomass expressed as carbon
normalisation with biomass expressed as nitrogen
not specified
processed following the protocol of Yentsch+Menzel
processing after Wright and Coffin (1984)
processing following SCOR protocol
processing following the Lorenzen protocol
processing in near real-time
profile integration
protocol of Rasmussen et al. (2006)
recomputation to potential temperature using pCO2*EXP((Theta - T)*0.0423)
recomputation to water location at fixed time using POL NSP model
salt correction
smoothed
standardisation to 25 degrees Celsius
standardisation to NBS scale
subtraction of measured atmospheric pressure and conversion to depth using unspecified algorithm
subtraction of nominal ambient pressure value
subtraction of Synechococcus+Prochlorococcus from total bacteria
subtraction of tidal height sensor2 value from tidal height sensor1 value
subtraction of value predicted by tidal analysis
summation of size-fractionated values
summation of size-fractionated values and profile integration
summation of size-fractions and differencing results from acidified and unacidified samples
summation of staged leachate analyses
summation of vehicle depth below water column surface and height above bed
synthesis from multiple satellite sensors
taking the average value from two or more sensors
taking the maximum value from two or more sensors
tidal analysis
transformation from OSGB36 easting
transformation from OSGB36 northing
transformation from WGS84 to Irish National Grid Reference System
Tucker-Draper method
unspecified prediction algorithm
up-crossing analysis
using 0 or 1 binary classification
using P or N binary classification
using the delta notation
using the epsilon notation
verification against independent measurements
volume computation from mass and mean density
volume computation from weight loss on drying and salt correction
Alt label
UNESCO_1983
UNESCO_1983_cal
UNESCO_1983_uncal
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