Conceptid (36) | Preflabel |
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CMFLFR01 | 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 |
CMFLFR02 | 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 |
CMFLPP01 | Maximum in-vivo fluorescence (chlorophyll) of the water body by in-situ pump and probe chlorophyll fluorometer |
COFLFR01 | 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 |
COFLFR02 | 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 |
COFLPP01 | Constant in-vivo fluorescence (chlorophyll) of the water body by in-situ pump and probe chlorophyll fluorometer |
FMFIRB01 | 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 |
FMMAXD01 | 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 |
FMMAXI01 | 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 |
FMMAXIBL | 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 |
FMMAXL01 | 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 |
FOFIRB01 | 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 |
FOMIND01 | 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 |
FOMINI01 | 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 |
FOMINIBL | 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 |
FOMINL01 | 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 |
FVFMFIR1 | Photochemical quantum efficiency {Fv/Fm} in the water body by fluorescence induction and relaxation (FIRe) fluorometer and calculation from Fm and Fo fluorescence yields from the dark chamber |
FVFMFIRX | Photochemical quantum efficiency {Fv/Fm} in the water body by fluorescence induction and relaxation (FIRe) fluorometer and calculation from blank-corrected Fm and Fo fluorescence yields from the dark chamber |
FVFMFR01 | Photochemical quantum efficiency {Fv/Fm or Phi} in the water body by in-situ fast repetition rate fluorometer (FRRF) and calculation from Fm and Fo fluorescence yields from the dark chamber |
FVFMFR02 | Photochemical quantum efficiency {Fv/Fm or Phi} in the water body by in-situ fast repetition rate fluorometer (FRRF) and calculation from Fm and Fo fluorescence yields from the light chamber |
FVFMFR03 | Photochemical quantum efficiency {Fv/Fm} in the water body by in-situ fast repetition rate fluorometer (FRRF) and calculation from blank-corrected Fm and Fo fluorescence yields from the light chamber |
FVFMFR04 | Photochemical quantum efficiency {Fv/Fm} in the water body by in-situ fast repetition rate fluorometer (FRRF) and calculation from blank-corrected Fm and Fo fluorescence yields from the dark chamber |
FVFMMI01 | Photochemical quantum efficiency {Fv/Fm} in the water body by bench fast repetition rate fluorometer (FRRF) and calculation from Fm and Fo fluorescence yields from the dark chamber |
FVFMMIBL | Photochemical quantum efficiency {Fv/Fm} in the water body by bench fast repetition rate fluorometer (FRRF) and calculation from blank-corrected Fm and Fo fluorescence yields from the dark chamber |