diff --git a/GEOMS-TE-LIDAR-CLOUD-001.csv b/GEOMS-TE-LIDAR-CLOUD-001.csv
index 90b5231f9faf66947bf322e07de338ee3ea49f28..bab134280a419484854d9bd2e1221506b78538bc 100644
--- a/GEOMS-TE-LIDAR-CLOUD-001.csv
+++ b/GEOMS-TE-LIDAR-CLOUD-001.csv
@@ -1,57 +1,57 @@
-LATITUDE.INSTRUMENT,[CONSTANT|DATETIME],deg,REAL,Inst. geolocation (+ for north; - for south),x
-LONGITUDE.INSTRUMENT,[CONSTANT|DATETIME],deg,REAL,Inst. geolocation;  (+ for east; - for west) ,x
-ALTITUDE.INSTRUMENT,[CONSTANT|DATETIME],m,REAL,Inst. geolocation,x
-DATETIME,DATETIME,MJD2K,DOUBLE,weighted mean meas. Time,x
-DATETIME.START,DATETIME,MJD2K,DOUBLE,Meas. start,x
-DATETIME.STOP,DATETIME,MJD2K,DOUBLE,Meas. stop,x
-WAVELENGTH_EMISSION,[CONSTANT|INDEPENDENT],nm,REAL,Wavelength(s) of the transmitted laser pulse,x
-WAVELENGTH_DETECTION,[CONSTANT|WAVELENGTH_DETECTION],nm,REAL,Detection wavelength(s) (may or may not be the same as emission),x
-ANGLE.VIEW_ZENITH,[CONSTANT|DATETIME|WAVELENGTH_DETECTION|DATETIME;WAVELENGTH_DETECTION],deg,REAL,pointing of lidar beam(s) e.g. 10 degrees off zenith to avoid specular reflection from cirrus clouds,x
-ANGLE.VIEW_AZIMUTH,[CONSTANT|DATETIME|WAVELENGTH_DETECTION|DATETIME;WAVELENGTH_DETECTION],deg,REAL,Azimuth pointing of lidar beam if not looking vertically,o
-ACCUMULATED.LASER.SHOTS,[CONSTANT|DATETIME|WAVELENGTH_DETECTION|DATETIME;WAVELENGTH_DETECTION],1,REAL,Total number of laser shots,o
-ALTITUDE,[ALTITUDE|DATETIME;ALTITUDE],m,REAL,Actual measurement altitude (grid or as measured on a mobile platform) ,x
-MOLECULAR.BACKSCATTER.COEFFICIENT_INDEPENDENT,[ALTITUDE|DATETIME;ALTITUDE|DATETIME;WAVELENGTH_DETECTION;ALTITUDE],m-1 sr-1,REAL,Molecular Backscatter Coefficient profile,x
-NUMBER.DENSITY_INDEPENDENT,[ALTITUDE|DATETIME;ALTITUDE],molec m-3,REAL,Air number density profile used to derive backscatter coefficient,o
-PRESSURE_INDEPENDENT,[ALTITUDE|DATETIME;ALTITUDE],hPa,REAL,Pressure profile used to derive backscatter coefficient,o
-TEMPERATURE_INDEPENDENT,[ALTITUDE|DATETIME;ALTITUDE],K,REAL,Temperature profile used to derive backscatter coefficient,o
-MOLECULAR.BACKSCATTER.COEFFICIENT_INDEPENDENT_SOURCE,[CONSTANT|ALTITUDE|DATETIME;ALTITUDE|DATETIME;WAVELENGTH_DETECTION;ALTITUDE],[empty],STRING,Molecular Backscatter Coefficient profile source (e.g. Lidar; NCEP; Sonde; ECMWF etc.),x
-NUMBER.DENSITY_INDEPENDENT_SOURCE,[CONSTANT|ALTITUDE|DATETIME;ALTITUDE],[empty],STRING,Air number density profile source (e.g. Lidar; NCEP; Sonde; ECMWF etc.),x if NUMBER.DENSITY_INDEPENDENT is provided
-PRESSURE_INDEPENDENT_SOURCE,[CONSTANT|ALTITUDE|DATETIME;ALTITUDE],[empty],STRING,Pressure profile source (e.g. Lidar; NCEP; Sonde; ECMWF etc.),x if PRESSURE_INDEPENDENT is provided
-TEMPERATURE_INDEPENDENT_SOURCE,[CONSTANT|ALTITUDE|DATETIME;ALTITUDE],[empty],STRING,Temperature profile source (e.g. Lidar; NCEP; Sonde; ECMWF etc.),x if TEMPERATURE_INDEPENDENT is provided
-AEROSOL.OPTICAL.DEPTH_INDEPENDENT,[CONSTANT|DATETIME|DATETIME;WAVELENGTH],1,REAL,Particle optical depth,o
-AEROSOL.OPTICAL.DEPTH_INDEPENDENT_SOURCE,[CONSTANT|DATETIME|DATETIME;WAVELENGTH],1,REAL,Particle optical depth source,x if AEROSOL.OPTICAL.DEPTH is provided
-LAYER.INDEX,LAYER.INDEX,1,SHORT,array of size n equal to the number of layers being reported e.g. 1 2 3,o
-CLOUD.LAYER.BASE.HEIGHT,[CONSTANT|LAYER.INDEX|DATETIME;LAYER.INDEX],m,REAL,Base of cloud above sea level,o
-CLOUD.LAYER.TOP.HEIGHT,[CONSTANT|LAYER.INDEX|DATETIME;LAYER.INDEX],m,REAL,Top of cloud above sea level,o
-CLOUD.PHASE,[LAYER.INDEX|DATETIME;LAYER.INDEX],[empty],STRING,Liquid (warm)/liquid (supercooled)/mixed/glaciated/Unknown,o
-CLOUD.EFFECTIVE.RADIUS,[LAYER.INDEX|DATETIME;LAYER.INDEX],m,REAL,Effective radius of cloud hydrometeors,o
-CLOUD.OPTICAL.DEPTH,[CONSTANT|DATETIME|DATETIME;WAVELENGTH],1,REAL,Cloud optical depth,o
-CLOUD.OPTICAL.DEPTH_UNCERTAINTY.COMBINED.STANDARD,[CONSTANT|DATETIME|DATETIME;WAVELENGTH],1,REAL,Cloud optical depth combined uncertainty,x if CLOUD.OPTICAL.DEPTH is provided
-CLOUD.BACKSCATTER.COEFFICIENT,[ALTITUDE|DATETIME;ALTITUDE],m-1 sr-1,REAL,Cloud Backscatter Coefficient,o
-CLOUD.BACKSCATTER.COEFFICIENT_UNCERTAINTY.COMBINED.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],m-1 sr-1,REAL,Combined Uncertainty of the Cloud Backscatter Coefficient: standard definition is square root of the sum of the squares of the random and systematic uncertainties (co-var matrix definition?),x if CLOUD.BACKSCATTER.COEFFICIENT is provided
-CLOUD.BACKSCATTER.COEFFICIENT_UNCERTAINTY.RANDOM.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],m-1 sr-1,REAL,Random uncertainty of the Cloud Backscatter Coefficient,x if CLOUD.BACKSCATTER.COEFFICIENT is provided
-CLOUD.BACKSCATTER.COEFFICIENT_UNCERTAINTY.SYSTEMATIC.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],m-1 sr-1,REAL,Systematic uncertainty of the Cloud Backscatter Coefficient,x if CLOUD.BACKSCATTER.COEFFICIENT is provided
-CLOUD.BACKSCATTER.COEFFICIENT_INTEGRATION.TIME,[DATETIME],h,REAL,Actual integration time of Cloud Backscatter Coefficient measurement,x if CLOUD.BACKSCATTER.COEFFICIENT is provided
-CLOUD.BACKSCATTER.COEFFICIENT_RETRIEVAL.METHOD,[CONSTANT|ALTITUDE|DATETIME;ALTITUDE],[empty],STRING,Retrieval method derived from GALION standards. See https://galion.world/api/galion_metadata_standards.html,x if CLOUD.BACKSCATTER.COEFFICIENT is provided
-CLOUD.EXTINCTION.COEFFICIENT,[ALTITUDE|DATETIME;ALTITUDE],m-1,REAL,Cloud Extinction Coefficient,o
-CLOUD.EXTINCTION.COEFFICIENT_UNCERTAINTY.COMBINED.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],m-1,REAL,Combined Uncertainty of the Cloud Extinction Coefficient: standard definition is square root of the sum of the squares of the random and systematic uncertainties (co-var matrix definition?),x if CLOUD.EXTINCTION.COEFFICIENT is provided
-CLOUD.EXTINCTION.COEFFICIENT_UNCERTAINTY.RANDOM.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],m-1,REAL,Random uncertainty of the Cloud Extinction Coefficient,x if CLOUD.EXTINCTION.COEFFICIENT is provided
-CLOUD.EXTINCTION.COEFFICIENT_UNCERTAINTY.SYSTEMATIC.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],m-1,REAL,Systematic uncertainty of the Cloud Extinction Coefficient,x if CLOUD.EXTINCTION.COEFFICIENT is provided
-CLOUD.EXTINCTION.COEFFICIENT_INTEGRATION.TIME,[DATETIME],h,REAL,Actual integration time of Cloud Extinction Coefficient measurement,x if CLOUD.EXTINCTION.COEFFICIENT is provided
-CLOUD.EXTINCTION.COEFFICIENT_RETRIEVAL.METHOD,[CONSTANT|ALTITUDE|DATETIME;ALTITUDE],[empty],STRING,Retrieval method derived from GALION standards. See https://galion.world/api/galion_metadata_standards.html,x if CLOUD.EXTINCTION.COEFFICIENT is provided
-CLOUD.LIDAR.RATIO_INDEPENDENT,[ALTITUDE|DATETIME;ALTITUDE],1,REAL,Independent Cloud Lidar Ratio,o
-CLOUD.LIDAR.RATIO_INDEPENDENT_SOURCE,[CONSTANT|ALTITUDE|DATETIME;ALTITUDE],[empty],STRING,Cloud Lidar Ratio source,x if CLOUD.LIDAR.RATIO_INDEPENDENT is provided
-CLOUD.LIDAR.RATIO,[ALTITUDE|DATETIME;ALTITUDE],sr,REAL,Cloud Lidar Ratio,o
-CLOUD.LIDAR.RATIO_UNCERTAINTY.COMBINED.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],sr,REAL,Combined Uncertainty of the Lidar Ratio: standard definition is square root of the sum of the squares of the random and systematic uncertainties (co-var matrix definition?),x if CLOUD.LIDAR.RATIO is provided
-CLOUD.LIDAR.RATIO_UNCERTAINTY.RANDOM.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],sr,REAL,Random uncertainty of the Lidar Ratio,x if CLOUD.LIDAR.RATIO is provided
-CLOUD.LIDAR.RATIO_UNCERTAINTY.SYSTEMATIC.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],sr,REAL,Systematic uncertainty of the Lidar Ratio,x if CLOUD.LIDAR.RATIO is provided
-CLOUD.LIDAR.RATIO_INTEGRATION.TIME,[DATETIME],h,REAL,Actual integration time of Lidar Ratio measurement,x if CLOUD.LIDAR.RATIO is provided
-CLOUD.LIDAR.RATIO_RETRIEVAL.METHOD,[CONSTANT|ALTITUDE|DATETIME;ALTITUDE],[empty],STRING,Retrieval method derived from GALION standards. See https://galion.world/api/galion_metadata_standards.html,x if CLOUD.LIDAR.RATIO is provided
-CLOUD.DEPOLARIZATION.RATIO,[ALTITUDE|DATETIME;ALTITUDE],1,REAL,Cloud Depolarization Ratio,o
-CLOUD.DEPOLARIZATION.RATIO_UNCERTAINTY.COMBINED.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],1,REAL,Combined Uncertainty of the Depolarization Ratio: standard definition is square root of the sum of the squares of the random and systematic uncertainties (co-var matrix definition?),x if CLOUD.DEPOLARIZATION.RATIO is provided
-CLOUD.DEPOLARIZATION.RATIO_UNCERTAINTY.RANDOM.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],1,REAL,Random uncertainty of the Depolarization Ratio,x if CLOUD.DEPOLARIZATION.RATIO is provided
-CLOUD.DEPOLARIZATION.RATIO_UNCERTAINTY.SYSTEMATIC.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],1,REAL,Systematic uncertainty of the Depolarization Ratio,x if CLOUD.DEPOLARIZATION.RATIO is provided
-CLOUD.DEPOLARIZATION.RATIO_INTEGRATION.TIME,[DATETIME],h,REAL,Actual integration time of Depolarization Ratio measurement,x if CLOUD.DEPOLARIZATION.RATIO is provided
-ALTITUDE.TROPOPAUSE_INDEPENDENT,[CONSTANT|DATETIME],m,REAL,Tropopause height above mean sea level,o
-ALTITUDE.TROPOPAUSE_INDEPENDENT_SOURCE,[CONSTANT|DATETIME],[empty],STRING,Tropopause height source e.g. radiosonde; MERRA,x if ALTITUDE.TROPOPAUSE_INDEPENDENT is provided
-SOURCE.PRODUCT,INDEPENDENT,[empty],STRING,Information relevant to the source history of the Metadata and Data,o
+2,LATITUDE.INSTRUMENT,[CONSTANT|DATETIME],deg,REAL,Inst. geolocation (+ for north; - for south),x
+2,LONGITUDE.INSTRUMENT,[CONSTANT|DATETIME],deg,REAL,Inst. geolocation;  (+ for east; - for west) ,x
+2,ALTITUDE.INSTRUMENT,[CONSTANT|DATETIME],m,REAL,Inst. geolocation,x
+2,DATETIME,DATETIME,MJD2K,DOUBLE,weighted mean meas. Time,x
+2,DATETIME.START,DATETIME,MJD2K,DOUBLE,Meas. start,x
+2,DATETIME.STOP,DATETIME,MJD2K,DOUBLE,Meas. stop,x
+2,WAVELENGTH_EMISSION,[CONSTANT|INDEPENDENT],nm,REAL,Wavelength(s) of the transmitted laser pulse,x
+2,WAVELENGTH_DETECTION,[CONSTANT|WAVELENGTH_DETECTION],nm,REAL,Detection wavelength(s) (may or may not be the same as emission),x
+2,ANGLE.VIEW_ZENITH,[CONSTANT|DATETIME|WAVELENGTH_DETECTION|DATETIME;WAVELENGTH_DETECTION],deg,REAL,pointing of lidar beam(s) e.g. 10 degrees off zenith to avoid specular reflection from cirrus clouds,x
+2,ANGLE.VIEW_AZIMUTH,[CONSTANT|DATETIME|WAVELENGTH_DETECTION|DATETIME;WAVELENGTH_DETECTION],deg,REAL,Azimuth pointing of lidar beam if not looking vertically,o
+2,ACCUMULATED.LASER.SHOTS,[CONSTANT|DATETIME|WAVELENGTH_DETECTION|DATETIME;WAVELENGTH_DETECTION],1,REAL,Total number of laser shots,o
+2,ALTITUDE,[ALTITUDE|DATETIME;ALTITUDE],m,REAL,Actual measurement altitude (grid or as measured on a mobile platform) ,x
+2,MOLECULAR.BACKSCATTER.COEFFICIENT_INDEPENDENT,[ALTITUDE|DATETIME;ALTITUDE|DATETIME;WAVELENGTH_DETECTION;ALTITUDE],m-1 sr-1,REAL,Molecular Backscatter Coefficient profile,x
+2,NUMBER.DENSITY_INDEPENDENT,[ALTITUDE|DATETIME;ALTITUDE],molec m-3,REAL,Air number density profile used to derive backscatter coefficient,o
+2,PRESSURE_INDEPENDENT,[ALTITUDE|DATETIME;ALTITUDE],hPa,REAL,Pressure profile used to derive backscatter coefficient,o
+2,TEMPERATURE_INDEPENDENT,[ALTITUDE|DATETIME;ALTITUDE],K,REAL,Temperature profile used to derive backscatter coefficient,o
+2,MOLECULAR.BACKSCATTER.COEFFICIENT_INDEPENDENT_SOURCE,[CONSTANT|ALTITUDE|DATETIME;ALTITUDE|DATETIME;WAVELENGTH_DETECTION;ALTITUDE],[empty],STRING,Molecular Backscatter Coefficient profile source (e.g. Lidar; NCEP; Sonde; ECMWF etc.),x
+2,NUMBER.DENSITY_INDEPENDENT_SOURCE,[CONSTANT|ALTITUDE|DATETIME;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|DATETIME;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|DATETIME;ALTITUDE],[empty],STRING,Temperature profile source (e.g. Lidar; NCEP; Sonde; ECMWF etc.),x if TEMPERATURE_INDEPENDENT is provided
+2,AEROSOL.OPTICAL.DEPTH_INDEPENDENT,[CONSTANT|DATETIME|DATETIME;WAVELENGTH],1,REAL,Particle optical depth,o
+2,AEROSOL.OPTICAL.DEPTH_INDEPENDENT_SOURCE,[CONSTANT|DATETIME|DATETIME;WAVELENGTH],1,REAL,Particle optical depth source,x if AEROSOL.OPTICAL.DEPTH is provided
+2,LAYER.INDEX,LAYER.INDEX,1,SHORT,array of size n equal to the number of layers being reported e.g. 1 2 3,o
+2,CLOUD.LAYER.BASE.HEIGHT,[CONSTANT|LAYER.INDEX|DATETIME;LAYER.INDEX],m,REAL,Base of cloud above sea level,o
+2,CLOUD.LAYER.TOP.HEIGHT,[CONSTANT|LAYER.INDEX|DATETIME;LAYER.INDEX],m,REAL,Top of cloud above sea level,o
+2,CLOUD.PHASE,[LAYER.INDEX|DATETIME;LAYER.INDEX],[empty],STRING,Liquid (warm)/liquid (supercooled)/mixed/glaciated/Unknown,o
+2,CLOUD.EFFECTIVE.RADIUS,[LAYER.INDEX|DATETIME;LAYER.INDEX],m,REAL,Effective radius of cloud hydrometeors,o
+2,CLOUD.OPTICAL.DEPTH,[CONSTANT|DATETIME|DATETIME;WAVELENGTH],1,REAL,Cloud optical depth,o
+2,CLOUD.OPTICAL.DEPTH_UNCERTAINTY.COMBINED.STANDARD,[CONSTANT|DATETIME|DATETIME;WAVELENGTH],1,REAL,Cloud optical depth combined uncertainty,x if CLOUD.OPTICAL.DEPTH is provided
+2,CLOUD.BACKSCATTER.COEFFICIENT,[ALTITUDE|DATETIME;ALTITUDE],m-1 sr-1,REAL,Cloud Backscatter Coefficient,o
+2,CLOUD.BACKSCATTER.COEFFICIENT_UNCERTAINTY.COMBINED.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],m-1 sr-1,REAL,Combined Uncertainty of the Cloud Backscatter Coefficient: standard definition is square root of the sum of the squares of the random and systematic uncertainties (co-var matrix definition?),x if CLOUD.BACKSCATTER.COEFFICIENT is provided
+2,CLOUD.BACKSCATTER.COEFFICIENT_UNCERTAINTY.RANDOM.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],m-1 sr-1,REAL,Random uncertainty of the Cloud Backscatter Coefficient,x if CLOUD.BACKSCATTER.COEFFICIENT is provided
+2,CLOUD.BACKSCATTER.COEFFICIENT_UNCERTAINTY.SYSTEMATIC.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],m-1 sr-1,REAL,Systematic uncertainty of the Cloud Backscatter Coefficient,x if CLOUD.BACKSCATTER.COEFFICIENT is provided
+2,CLOUD.BACKSCATTER.COEFFICIENT_INTEGRATION.TIME,[DATETIME],h,REAL,Actual integration time of Cloud Backscatter Coefficient measurement,x if CLOUD.BACKSCATTER.COEFFICIENT is provided
+2,CLOUD.BACKSCATTER.COEFFICIENT_RETRIEVAL.METHOD,[CONSTANT|ALTITUDE|DATETIME;ALTITUDE],[empty],STRING,Retrieval method derived from GALION standards. See https://galion.world/api/galion_metadata_standards.html,x if CLOUD.BACKSCATTER.COEFFICIENT is provided
+2,CLOUD.EXTINCTION.COEFFICIENT,[ALTITUDE|DATETIME;ALTITUDE],m-1,REAL,Cloud Extinction Coefficient,o
+2,CLOUD.EXTINCTION.COEFFICIENT_UNCERTAINTY.COMBINED.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],m-1,REAL,Combined Uncertainty of the Cloud Extinction Coefficient: standard definition is square root of the sum of the squares of the random and systematic uncertainties (co-var matrix definition?),x if CLOUD.EXTINCTION.COEFFICIENT is provided
+2,CLOUD.EXTINCTION.COEFFICIENT_UNCERTAINTY.RANDOM.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],m-1,REAL,Random uncertainty of the Cloud Extinction Coefficient,x if CLOUD.EXTINCTION.COEFFICIENT is provided
+2,CLOUD.EXTINCTION.COEFFICIENT_UNCERTAINTY.SYSTEMATIC.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],m-1,REAL,Systematic uncertainty of the Cloud Extinction Coefficient,x if CLOUD.EXTINCTION.COEFFICIENT is provided
+2,CLOUD.EXTINCTION.COEFFICIENT_INTEGRATION.TIME,[DATETIME],h,REAL,Actual integration time of Cloud Extinction Coefficient measurement,x if CLOUD.EXTINCTION.COEFFICIENT is provided
+2,CLOUD.EXTINCTION.COEFFICIENT_RETRIEVAL.METHOD,[CONSTANT|ALTITUDE|DATETIME;ALTITUDE],[empty],STRING,Retrieval method derived from GALION standards. See https://galion.world/api/galion_metadata_standards.html,x if CLOUD.EXTINCTION.COEFFICIENT is provided
+2,CLOUD.LIDAR.RATIO_INDEPENDENT,[ALTITUDE|DATETIME;ALTITUDE],1,REAL,Independent Cloud Lidar Ratio,o
+2,CLOUD.LIDAR.RATIO_INDEPENDENT_SOURCE,[CONSTANT|ALTITUDE|DATETIME;ALTITUDE],[empty],STRING,Cloud Lidar Ratio source,x if CLOUD.LIDAR.RATIO_INDEPENDENT is provided
+2,CLOUD.LIDAR.RATIO,[ALTITUDE|DATETIME;ALTITUDE],sr,REAL,Cloud Lidar Ratio,o
+2,CLOUD.LIDAR.RATIO_UNCERTAINTY.COMBINED.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],sr,REAL,Combined Uncertainty of the Lidar Ratio: standard definition is square root of the sum of the squares of the random and systematic uncertainties (co-var matrix definition?),x if CLOUD.LIDAR.RATIO is provided
+2,CLOUD.LIDAR.RATIO_UNCERTAINTY.RANDOM.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],sr,REAL,Random uncertainty of the Lidar Ratio,x if CLOUD.LIDAR.RATIO is provided
+2,CLOUD.LIDAR.RATIO_UNCERTAINTY.SYSTEMATIC.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],sr,REAL,Systematic uncertainty of the Lidar Ratio,x if CLOUD.LIDAR.RATIO is provided
+2,CLOUD.LIDAR.RATIO_INTEGRATION.TIME,[DATETIME],h,REAL,Actual integration time of Lidar Ratio measurement,x if CLOUD.LIDAR.RATIO is provided
+2,CLOUD.LIDAR.RATIO_RETRIEVAL.METHOD,[CONSTANT|ALTITUDE|DATETIME;ALTITUDE],[empty],STRING,Retrieval method derived from GALION standards. See https://galion.world/api/galion_metadata_standards.html,x if CLOUD.LIDAR.RATIO is provided
+2,CLOUD.DEPOLARIZATION.RATIO,[ALTITUDE|DATETIME;ALTITUDE],1,REAL,Cloud Depolarization Ratio,o
+2,CLOUD.DEPOLARIZATION.RATIO_UNCERTAINTY.COMBINED.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],1,REAL,Combined Uncertainty of the Depolarization Ratio: standard definition is square root of the sum of the squares of the random and systematic uncertainties (co-var matrix definition?),x if CLOUD.DEPOLARIZATION.RATIO is provided
+2,CLOUD.DEPOLARIZATION.RATIO_UNCERTAINTY.RANDOM.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],1,REAL,Random uncertainty of the Depolarization Ratio,x if CLOUD.DEPOLARIZATION.RATIO is provided
+2,CLOUD.DEPOLARIZATION.RATIO_UNCERTAINTY.SYSTEMATIC.STANDARD,[ALTITUDE|DATETIME;ALTITUDE],1,REAL,Systematic uncertainty of the Depolarization Ratio,x if CLOUD.DEPOLARIZATION.RATIO is provided
+2,CLOUD.DEPOLARIZATION.RATIO_INTEGRATION.TIME,[DATETIME],h,REAL,Actual integration time of Depolarization Ratio measurement,x if CLOUD.DEPOLARIZATION.RATIO is provided
+2,ALTITUDE.TROPOPAUSE_INDEPENDENT,[CONSTANT|DATETIME],m,REAL,Tropopause height above mean sea level,o
+2,ALTITUDE.TROPOPAUSE_INDEPENDENT_SOURCE,[CONSTANT|DATETIME],[empty],STRING,Tropopause height source e.g. radiosonde; MERRA,x if ALTITUDE.TROPOPAUSE_INDEPENDENT is provided
+2,SOURCE.PRODUCT,INDEPENDENT,[empty],STRING,Information relevant to the source history of the Metadata and Data,o