diff --git a/GEOMS-TE-LIDAR-AEROSOL-004.csv b/GEOMS-TE-LIDAR-AEROSOL-004.csv
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+2,LATITUDE.INSTRUMENT,CONSTANT,deg,REAL,Inst. geolocation (+ for north; - for south),x
+2,LONGITUDE.INSTRUMENT,CONSTANT,deg,REAL,Inst. geolocation (+ for east; - for west),x
+2,ALTITUDE.INSTRUMENT,CONSTANT,m,REAL,Inst. geolocation,x
+2,DATETIME,DATETIME,MJD2K,DOUBLE,Weighted meas. Time,x
+2,DATETIME.START,DATETIME,MJD2K,DOUBLE,Meas. start,x
+2,DATETIME.STOP,DATETIME,MJD2K,DOUBLE,Meas. stop,x
+2,INTEGRATION.TIME,DATETIME,h,REAL,Actual integration time,x
+2,ALTITUDE,ALTITUDE,m,REAL,Actual meas. grid (increasing),x
+2,ALTITUDE_DUST.LAYER,CONSTANT,m,REAL,Top of dust layer above sea level,o
+2,ALTITUDE_MIXING.LAYER,CONSTANT,m,REAL,Top of mixing layer above sea level,o
+2,ALTITUDE.TROPOPAUSE,CONSTANT,m,REAL,Tropopause height,o
+2,ALTITUDE.TROPOPAUSE_SOURCE,CONSTANT,1,STRING,Tropopause height source e.g. radiosonde; MERRA,x if ALTITUDE.TROPOPAUSE is provided
+2,WAVELENGTH_EMISSION,CONSTANT,nm,INTEGER,,x
+2,WAVELENGTH_DETECTION,CONSTANT,nm,INTEGER,,x
+2,AEROSOL.BACKSCATTER.COEFFICIENT,ALTITUDE,m-1 sr-1,REAL,,x
+2,AEROSOL.BACKSCATTER.COEFFICIENT_UNCERTAINTY.COMBINED.STANDARD,ALTITUDE,m-1 sr-1,REAL,Uncertainty: NDACC-lidar-standardized definition,x
+2,AEROSOL.BACKSCATTER.COEFFICIENT_UNCERTAINTY.RANDOM.STANDARD,ALTITUDE,m-1 sr-1,REAL,Random uncertainty: NDACC-lidar-standardized definition,x
+2,AEROSOL.BACKSCATTER.COEFFICIENT_UNCERTAINTY.SYSTEMATIC.STANDARD,ALTITUDE,m-1 sr-1,REAL,Systematic uncertainty: NDACC-lidar-standardized definition,x
+2,AEROSOL.BACKSCATTER.COEFFICIENT_RESOLUTION.ALTITUDE.IMPULSE.RESPONSE.FWHM,ALTITUDE,m,REAL,Vertical resolution: Full-width at half-maximum (FWHM) of delta impulse response,x
+2,AEROSOL.EXTINCTION.COEFFICIENT,ALTITUDE,m-1,REAL,,o
+2,AEROSOL.EXTINCTION.COEFFICIENT_UNCERTAINTY.COMBINED.STANDARD,ALTITUDE,m-1,REAL,Uncertainty: NDACC-lidar-standardized definition,x if AEROSOL.EXTINCTION.COEFFICIENT is provided
+2,AEROSOL.EXTINCTION.COEFFICIENT_UNCERTAINTY.RANDOM.STANDARD,ALTITUDE,m-1,REAL,Random uncertainty: NDACC-lidar-standardized definition,x if AEROSOL.EXTINCTION.COEFFICIENT is provided
+2,AEROSOL.EXTINCTION.COEFFICIENT_UNCERTAINTY.SYSTEMATIC.STANDARD,ALTITUDE,m-1,REAL,Systematic uncertainty: NDACC-lidar-standardized definition,x if AEROSOL.EXTINCTION.COEFFICIENT is provided
+2,AEROSOL.EXTINCTION.COEFFICIENT_RESOLUTION.ALTITUDE.IMPULSE.RESPONSE.FWHM,ALTITUDE,m,REAL,Vertical resolution: Full-width at half-maximum (FWHM) of delta impulse response,x if AEROSOL.EXTINCTION.COEFFICIENT is provided
+2,AEROSOL.LIDAR.RATIO,ALTITUDE,sr,REAL,Aerosol extinction-to-backscatter ratio,x
+2,PARTICLE.LINEAR.DEPOLARIZATION.RATIO,ALTITUDE,1,REAL,Ref:  Freudenthaler V.:  Atmos. Meas. Tech. Discuss. doi:10.5194/amt-2015-338 in review 2016. ,o
+2,PARTICLE.LINEAR.DEPOLARIZATION.RATIO_UNCERTAINTY.COMBINED.STANDARD,ALTITUDE,1,REAL,Uncertainty: NDACC-lidar-standardized definition,x if PARTICLE.LINEAR.DEPOLARIZATION.RATIO is provided
+2,PARTICLE.LINEAR.DEPOLARIZATION.RATIO_UNCERTAINTY.RANDOM.STANDARD,ALTITUDE,1,REAL,Random uncertainty: NDACC-lidar-standardized definition,x if PARTICLE.LINEAR.DEPOLARIZATION.RATIO is provided
+2,PARTICLE.LINEAR.DEPOLARIZATION.RATIO_UNCERTAINTY.SYSTEMATIC.STANDARD,ALTITUDE,1,REAL,Systematic uncertainty: NDACC-lidar-standardized definition,x if PARTICLE.LINEAR.DEPOLARIZATION.RATIO is provided
+2,PARTICLE.LINEAR.DEPOLARIZATION.RATIO_RESOLUTION.ALTITUDE.IMPULSE.RESPONSE.FWHM,ALTITUDE,m,REAL,Vertical resolution: Full-width at half-maximum (FWHM) of delta impulse response,x if PARTICLE.LINEAR.DEPOLARIZATION.RATIO is provided
+2,ALTITUDE_INDEPENDENT_NORMALIZATION,CONSTANT,m,REAL,Altitude of Normalization (scalar),x
+2,NUMBER.DENSITY_INDEPENDENT,ALTITUDE,molec m-3,REAL,Air number density profile used for normalization,o
+2,PRESSURE_INDEPENDENT,ALTITUDE,hPa,REAL,Pressure profile used for initialization,o
+2,TEMPERATURE_INDEPENDENT,ALTITUDE,K,REAL,Temperature profile used for initialization,o
+2,NUMBER.DENSITY_INDEPENDENT_SOURCE,[CONSTANT|ALTITUDE],[empty],STRING,Air number density profile source (e.g. Lidar; NCEP; Sonde; ECMWF etc.),x if NUMBER_DENSITY_INDEPENDENT is provided
+2,PRESSURE_INDEPENDENT_SOURCE,[CONSTANT|ALTITUDE],[empty],STRING,Pressure profile source (e.g. Lidar; NCEP; Sonde; ECMWF etc.),x if PRESSURE_INDEPENDENT is provided
+2,TEMPERATURE_INDEPENDENT_SOURCE,[CONSTANT|ALTITUDE],[empty],STRING,Temperature profile source (e.g. Lidar; NCEP; Sonde; ECMWF etc.),x if TEMPERATURE_INDEPENDENT is provided
+2,AEROSOL.BACKSCATTER.COEFFICIENT_RESOLUTION.ALTITUDE.DF.NORMALIZED.FREQUENCY,AEROSOL.BACKSCATTER.COEFFICIENT_RESOLUTION.ALTITUDE.DF.NORMALIZED.FREQUENCY,1,DOUBLE,Normalized frequency to use with Transfer Function in bins-1 (Nyquist=0.5),o
+2,AEROSOL.BACKSCATTER.COEFFICIENT_RESOLUTION.ALTITUDE.DF.TRANSFER.FUNCTION,AEROSOL.BACKSCATTER.COEFFICIENT_RESOLUTION.ALTITUDE.DF.NORMALIZED.FREQUENCY;ALTITUDE,1,DOUBLE,Transfer Function of Digital Filter used,o
+2,AEROSOL.BACKSCATTER.COEFFICIENT_RESOLUTION.ALTITUDE.DF.CUTOFF,ALTITUDE,m,DOUBLE,Vertical resolution: NDACC-lidar-standardized = digital filter cut-off frequency,o
+2,AEROSOL.BACKSCATTER.COEFFICIENT_RESOLUTION.ALTITUDE.IMPULSE.RESPONSE,ALTITUDE;ALTITUDE,1,DOUBLE,Vertical resolution: impulse response,o
+2,SOURCE.PRODUCT,INDEPENDENT,[empty],STRING,Information relevant to the source history of the Metadata and Data,o