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Dataset Title:	RQM - CTD Data From the Coriolis II Concerted Mission (MAP2023): PLAINE | Données CTD de la mission concertée sur le Coriolis II (MAP2023) : PLAINE
Institution:	Réseau Québec maritime   (Dataset ID: rqmMap2023Ctd)
Information:	Summary | License | FGDC | ISO 19115 | Metadata | Background | Subset | Files | Make a graph

 

Variable	Optional Constraint #1		Optional Constraint #2		Minimum    or a List of Values	Maximum
Station_Name (Station Identifier, unitless)	!= =~ <= >= = < >		!= =~ <= >= = < >		"05a" "08a" "10a" "12a" "13a" "14a" "1a" "29" "2a" "35" "3a" "42" "4a" "5a" "60" "6a" "8a" "ETZ4" "GA" "HaHa1" "HaHa2" "PBC" "PC" "PM" "PR" "PSI" "ST20" "ST55" "ST70" "ST84" "STO9"
Station_ID (Station Identifier, unitless)	!= =~ <= >= = < >		!= =~ <= >= = < >		1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33
time (UTC)	!= =~ <= >= = < >		!= =~ <= >= = < >		2023-07-05T21:40:06Z	2023-07-11T23:57:10Z
latitude (degrees_north)	!= =~ <= >= = < >		!= =~ <= >= = < >		47.92932	50.17888
longitude (degrees_east)	!= =~ <= >= = < >		!= =~ <= >= = < >		-70.87116	-63.30505
depth (m)	!= =~ <= >= = < >		!= =~ <= >= = < >		0.49574497	371.97107
SeaFloorDepth (m)	!= =~ <= >= = < >		!= =~ <= >= = < >		10.0	380.8
PRESPR01 (decibar)	!= =~ <= >= = < >		!= =~ <= >= = < >		0.5	375.5
TEMPS902 (degree_C)	!= =~ <= >= = < >		!= =~ <= >= = < >		0.1234	18.3784
QTEMP_02 (unitless)	!= =~ <= >= = < >		!= =~ <= >= = < >		1 3
PSALST02 (psu)	!= =~ <= >= = < >		!= =~ <= >= = < >		7.3744	34.922
QPSAL_02 (unitless)	!= =~ <= >= = < >		!= =~ <= >= = < >		1 3
DOXYSCKG (Dissolved Oxygen, µM)	!= =~ <= >= = < >		!= =~ <= >= = < >		31.867	346.121
QDOXYSCKG (unitless)	!= =~ <= >= = < >		!= =~ <= >= = < >		1 3 9
CPHLPR01 (mg m-3)	!= =~ <= >= = < >		!= =~ <= >= = < >		-0.055	7.9423
QCPHLPR01 (unitless)	!= =~ <= >= = < >		!= =~ <= >= = < >		1 3 5
PHXXZZ01 (dimensionless)	!= =~ <= >= = < >		!= =~ <= >= = < >		7.391	8.137
QPHPH_01 (unitless)	!= =~ <= >= = < >		!= =~ <= >= = < >		1 3 9
TRAN_01 (Light Transmission, percent)	!= =~ <= >= = < >		!= =~ <= >= = < >		18.86	99.93
QTRAN_01 (unitless)	!= =~ <= >= = < >		!= =~ <= >= = < >		1 3
IRRDUV01 (µEinsteins s-1 m-2)	!= =~ <= >= = < >		!= =~ <= >= = < >		0.059	85.588
SIGTEQST02 (kg m-3)	!= =~ <= >= = < >		!= =~ <= >= = < >		4.4143	27.3918
QSIGT_02 (unitless)	!= =~ <= >= = < >		!= =~ <= >= = < >		1 3
SIGTEQ02 (kg m-3)	!= =~ <= >= = < >		!= =~ <= >= = < >		4.4144	27.3964
QSIGP_02 (unitless)	!= =~ <= >= = < >		!= =~ <= >= = < >		1 3
QCFF_01 (Quality flag: QCFF, unitless)	!= =~ <= >= = < >		!= =~ <= >= = < >		0	6144

 

Server-side Functions

distinct()

orderBy orderByDescending orderByClosest orderByCount orderByLimit orderByMax orderByMin orderByMinMax orderByMean orderBySum (" Station_Name Station_ID time latitude longitude depth SeaFloorDepth PRESPR01 TEMPS902 QTEMP_02 PSALST02 QPSAL_02 DOXYSCKG QDOXYSCKG CPHLPR01 QCPHLPR01 PHXXZZ01 QPHPH_01 TRAN_01 QTRAN_01 IRRDUV01 SIGTEQST02 QSIGT_02 SIGTEQ02 QSIGP_02 QCFF_01 Station_Name Station_ID time latitude longitude depth SeaFloorDepth PRESPR01 TEMPS902 QTEMP_02 PSALST02 QPSAL_02 DOXYSCKG QDOXYSCKG CPHLPR01 QCPHLPR01 PHXXZZ01 QPHPH_01 TRAN_01 QTRAN_01 IRRDUV01 SIGTEQST02 QSIGT_02 SIGTEQ02 QSIGP_02 QCFF_01 Station_Name Station_ID time latitude longitude depth SeaFloorDepth PRESPR01 TEMPS902 QTEMP_02 PSALST02 QPSAL_02 DOXYSCKG QDOXYSCKG CPHLPR01 QCPHLPR01 PHXXZZ01 QPHPH_01 TRAN_01 QTRAN_01 IRRDUV01 SIGTEQST02 QSIGT_02 SIGTEQ02 QSIGP_02 QCFF_01 Station_Name Station_ID time latitude longitude depth SeaFloorDepth PRESPR01 TEMPS902 QTEMP_02 PSALST02 QPSAL_02 DOXYSCKG QDOXYSCKG CPHLPR01 QCPHLPR01 PHXXZZ01 QPHPH_01 TRAN_01 QTRAN_01 IRRDUV01 SIGTEQST02 QSIGT_02 SIGTEQ02 QSIGP_02 QCFF_01 Station_Name Station_ID time latitude longitude depth SeaFloorDepth PRESPR01 TEMPS902 QTEMP_02 PSALST02 QPSAL_02 DOXYSCKG QDOXYSCKG CPHLPR01 QCPHLPR01 PHXXZZ01 QPHPH_01 TRAN_01 QTRAN_01 IRRDUV01 SIGTEQST02 QSIGT_02 SIGTEQ02 QSIGP_02 QCFF_01 ")

File type: (more information) .asc - View OPeNDAP-style ISO-8859-1 comma-separated text. .csv - Download a ISO-8859-1 comma-separated text table (line 1: names; line 2: units; ISO 8601 times). .csvp - Download a ISO-8859-1 .csv file with line 1: name (units). Times are ISO 8601 strings. .csv0 - Download a ISO-8859-1 .csv file without column names or units. Times are ISO 8601 strings. .dataTable - A JSON file formatted for use with the Google Visualization client library (Google Charts). .das - View the dataset's metadata via an ISO-8859-1 OPeNDAP Dataset Attribute Structure (DAS). .dds - View the dataset's structure via an ISO-8859-1 OPeNDAP Dataset Descriptor Structure (DDS). .dods - OPeNDAP clients use this to download the data in the DODS binary format. .esriCsv - Download a ISO_8859_1 .csv file for ESRI's ArcGIS 9.x and below (separate date and time columns). .fgdc - View the dataset's UTF-8 FGDC .xml metadata. .geoJson - Download longitude,latitude,otherColumns data as a UTF-8 GeoJSON .json file. .graph - View a Make A Graph web page. .help - View a web page with a description of tabledap. .html - View an OPeNDAP-style HTML Data Access Form. .htmlTable - View a UTF-8 .html web page with the data in a table. Times are ISO 8601 strings. .iso19115 - View the dataset's ISO 19115-2/19139 UTF-8 .xml metadata. .itx - Download an ISO-8859-1 Igor Text File. Each response column becomes a wave. .json - View a table-like UTF-8 JSON file (missing value = 'null'; times are ISO 8601 strings). .jsonlCSV1 - View a UTF-8 JSON Lines CSV file with column names on line 1 (mv = 'null'; times are ISO 8601 strings). .jsonlCSV - View a UTF-8 JSON Lines CSV file without column names (mv = 'null'; times are ISO 8601 strings). .jsonlKVP - View a UTF-8 JSON Lines file with Key:Value pairs (missing value = 'null'; times are ISO 8601 strings). .mat - Download a MATLAB binary file. .nc - Download a flat, table-like, NetCDF-3 binary file with COARDS/CF/ACDD metadata. .ncHeader - View the UTF-8 header (the metadata) for the NetCDF-3 .nc file. .ncCF - Download a NetCDF-3 CF Discrete Sampling Geometries file (Contiguous Ragged Array). .ncCFHeader - View the UTF-8 header (the metadata) for the .ncCF file. .ncCFMA - Download a NetCDF-3 CF Discrete Sampling Geometries file (Multidimensional Array). .ncCFMAHeader - View the UTF-8 header (the metadata) for the .ncCFMA file. .nccsv - Download a NetCDF-3-like 7-bit ASCII NCCSV .csv file with COARDS/CF/ACDD metadata. .nccsvMetadata - View the dataset's metadata as the top half of a 7-bit ASCII NCCSV .csv file. .ncoJson - Download a UTF-8 NCO lvl=2 JSON file with COARDS/CF/ACDD metadata. .odvTxt - Download longitude,latitude,time,otherColumns as an ISO-8859-1 ODV Generic Spreadsheet File (.txt). .parquet - Download as a parquet file. Metadata contains column names ("column_names") and units ("column_units"). .parquetWMeta - Download as a parquet file with detailed metadata. .subset - View an HTML form which uses faceted search to simplify picking subsets of the data. .tsv - Download a ISO-8859-1 tab-separated text table (line 1: names; line 2: units; ISO 8601 times). .tsvp - Download a ISO-8859-1 .tsv file with line 1: name (units). Times are ISO 8601 strings. .tsv0 - Download a ISO-8859-1 .tsv file without column names or units. Times are ISO 8601 strings. .wav - Download a .wav audio file. All columns must be numeric and of the same type. .xhtml - View a UTF-8 XHTML (XML) file with the data in a table. Times are ISO 8601 strings. .kml - View a .kml file, suitable for Google Earth. .smallPdf - View a small .pdf image file with a graph or map. .pdf - View a standard, medium-sized .pdf image file with a graph or map. .largePdf - View a large .pdf image file with a graph or map. .smallPng - View a small .png image file with a graph or map. .png - View a standard, medium-sized .png image file with a graph or map. .largePng - View a large .png image file with a graph or map. .transparentPng - View a .png image file (just the data, without axes, landmask, or legend).

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The Dataset Attribute Structure (.das) for this Dataset

Attributes {
 s {
  Station_Name {
    String ioos_category "Identifier";
    String long_name "Station Identifier";
    String units "unitless";
  }
  Station_ID {
    Int32 actual_range 1, 33;
    String cf_role "profile_id";
    String ioos_category "Identifier";
    String long_name "Station Identifier";
    String units "unitless";
  }
  time {
    String _CoordinateAxisType "Time";
    Float64 actual_range 1.688593206e+9, 1.68911983e+9;
    String axis "T";
    String calendar "proleptic_gregorian";
    String coverage_content_type "coordinate";
    String ioos_category "Time";
    String long_name "Time";
    String name "time";
    String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CFSN0115/";
    String standard_name "time";
    String time_origin "01-JAN-1970 00:00:00";
    String timezone "UTC";
    String units "seconds since 1970-01-01T00:00:00Z";
  }
  latitude {
    String _CoordinateAxisType "Lat";
    Float64 _FillValue NaN;
    Float64 actual_range 47.92932, 50.17888;
    String axis "Y";
    Float64 colorBarMaximum 90.0;
    Float64 colorBarMinimum -90.0;
    String coverage_content_type "coordinate";
    String ioos_category "Location";
    String long_name "Latitude";
    String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CFSN0600/";
    String standard_name "latitude";
    String units "degrees_north";
  }
  longitude {
    String _CoordinateAxisType "Lon";
    Float64 _FillValue NaN;
    Float64 actual_range -70.87116, -63.30505;
    String axis "X";
    Float64 colorBarMaximum 180.0;
    Float64 colorBarMinimum -180.0;
    String coverage_content_type "coordinate";
    String ioos_category "Location";
    String long_name "Longitude";
    String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CFSN0554/";
    String standard_name "longitude";
    String units "degrees_east";
  }
  depth {
    String _CoordinateAxisType "Height";
    String _CoordinateZisPositive "down";
    Float32 _FillValue NaN;
    Float32 actual_range 0.49574497, 371.97107;
    String ancillary_variables "QPRES_01 QCFF_01";
    String axis "Z";
    Float64 colorBarMaximum 400.0;
    Float64 colorBarMinimum 0.0;
    String coverage_content_type "coordinate";
    String ioos_category "Location";
    String legacy_gf3_code "PRES_01";
    String long_name "Depth (spatial coordinate) relative to water surface in the water body";
    String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CFSN0721/";
    String positive "down";
    String sdn_P02_urn "SDN:P02::AHGT";
    String sdn_parameter_name "Depth (spatial coordinate) relative to water surface in the water body";
    String sdn_parameter_urn "SDN:P01::ADEPZZ01";
    String sdn_uom_name "Metres";
    String sdn_uom_urn "SDN:P06::ULAA";
    String standard_name "depth";
    String units "m";
  }
  SeaFloorDepth {
    Float64 actual_range 10.0, 380.8;
    Float64 colorBarMaximum 400.0;
    Float64 colorBarMinimum 0.0;
    String ioos_category "Bathymetry";
    String long_name "Sea floor depth";
    String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CFV13N17/";
    String standard_name "sea_floor_depth_below_sea_surface";
    String units "m";
  }
  PRESPR01 {
    Float64 _FillValue NaN;
    Float64 actual_range 0.5, 375.5;
    String ancillary_variables "QPRES_01 QCFF_01";
    Float64 colorBarMaximum 400.0;
    Float64 colorBarMinimum 0.0;
    String coverage_content_type "coordinate";
    String instrument "Pressure, Digiquartz with TC";
    String ioos_category "Location";
    String legacy_gf3_code "PRES_01";
    String long_name "Pressure (spatial coordinate) exerted by the water body by profiling pressure sensor and correction to read zero at sea level";
    String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CFSN0330/";
    String Quality_Flag "1 - Value seems correct";
    String sdn_P02_urn "SDN:P02::AHGT";
    String sdn_parameter_name "Pressure (spatial coordinate) exerted by the water body by profiling pressure sensor and correction to read zero at sea level";
    String sdn_parameter_urn "SDN:P01::PRESPR01";
    String sdn_uom_name "Decibars";
    String sdn_uom_urn "SDN:P06::UPDB";
    String standard_name "sea_water_pressure";
    String units "decibar";
  }
  TEMPS902 {
    Float64 _FillValue NaN;
    Float64 actual_range 0.1234, 18.3784;
    String ancillary_variables "QTEMP_02 QCFF_01";
    Float64 colorBarMaximum 20.0;
    Float64 colorBarMinimum 0.0;
    String coverage_content_type "physicalMeasurement";
    String instrument "Sea-Bird SBE 3plus";
    String ioos_category "Temperature";
    String legacy_gf3_code "TE90_02";
    String long_name "Temperature (ITS-90) of the water body, 2";
    String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CFSN0335/";
    String scale "ITS-90";
    String sdn_parameter_name "Temperature (ITS-90) of the water body";
    String sdn_parameter_urn "SDN:P01::TEMPP902";
    String sdn_uom_name "Degrees Celsius";
    String sdn_uom_urn "SDN:P06::UPAA";
    String standard_name "sea_water_temperature";
    String units "degree_C";
  }
  QTEMP_02 {
    Int32 _FillValue 2147483647;
    Int32 actual_range 1, 3;
    Float64 colorBarMaximum 10.0;
    Float64 colorBarMinimum 0.0;
    String coverage_content_type "qualityInformation";
    String flag_meanings "not_evaluated correct inconsistent_with_other_values doubtful erroneous modified missing";
    Int32 flag_values 0, 1, 2, 3, 4, 5, 9;
    String ioos_category "Quality";
    String legacy_gf3_code "QQQQ_03";
    String long_name "Quality Flag for Parameter: Temperature (1990 scale)";
    String standard_name "status_flag";
    String units "unitless";
  }
  PSALST02 {
    Float64 _FillValue NaN;
    Float64 actual_range 7.3744, 34.922;
    String ancillary_variables "QPSAL_02 QCFF_01";
    Float64 colorBarMaximum 35.0;
    Float64 colorBarMinimum 7.0;
    String coverage_content_type "physicalMeasurement";
    String instrument "Sea-Bird SBE4";
    String ioos_category "Salinity";
    String legacy_gf3_code "PSAL_02";
    String long_name "Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm, 2";
    String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/IADIHDIJ/";
    String scale "PSS-78";
    String sdn_P02_urn "SDN:P02::PSAL";
    String sdn_parameter_name "Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm";
    String sdn_parameter_urn "SDN:P01::PSALST02";
    String sdn_uom_name "Dimensionless";
    String sdn_uom_urn "SDN:P06::UUUU";
    String standard_name "sea_water_practical_salinity";
    String units "psu";
  }
  QPSAL_02 {
    Int32 _FillValue 2147483647;
    Int32 actual_range 1, 3;
    Float64 colorBarMaximum 10.0;
    Float64 colorBarMinimum 0.0;
    String coverage_content_type "qualityInformation";
    String flag_meanings "not_evaluated correct inconsistent_with_other_values doubtful erroneous modified missing";
    Int32 flag_values 0, 1, 2, 3, 4, 5, 9;
    String ioos_category "Quality";
    String legacy_gf3_code "QQQQ_08";
    String long_name "Quality Flag for Parameter: Practical Salinity";
    String standard_name "status_flag";
    String units "unitless";
  }
  DOXYSCKG {
    Float64 _FillValue NaN;
    Float64 actual_range 31.867, 346.121;
    String ancillary_variables "QOXYM_01 QCFF_01";
    Float64 colorBarMaximum 400.0;
    Float64 colorBarMinimum 0.0;
    String instrument "Sea-Bird SBE 43 Dissolved Oxygen Sensor";
    String legacy_gf3_code "OXYM_01";
    String long_name "Dissolved Oxygen";
    Float64 missing_value NaN;
    String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CF14N29/";
    String standard_name "mole_concentration_of_dissolved_molecular_oxygen_in_sea_water";
    String units "µM";
  }
  QDOXYSCKG {
    Int32 _FillValue 2147483647;
    Int32 actual_range 1, 9;
    Float64 colorBarMaximum 10.0;
    Float64 colorBarMinimum 0.0;
    String coverage_content_type "qualityInformation";
    String flag_meanings "not_evaluated correct inconsistent_with_other_values doubtful erroneous modified missing";
    Int32 flag_values 0, 1, 2, 3, 4, 5, 9;
    String ioos_category "Quality";
    String legacy_gf3_code "QQQQ_10";
    String long_name "Quality Flag for Parameter: Dissolved Oxygen";
    String standard_name "status_flag";
    String units "unitless";
  }
  CPHLPR01 {
    Float64 _FillValue NaN;
    Float64 actual_range -0.055, 7.9423;
    String ancillary_variables "QCPHLPR01 QCFF_01";
    Float64 colorBarMaximum 10.0;
    Float64 colorBarMinimum 0.01;
    String colorBarScale "Log";
    String coverage_content_type "physicalMeasurement";
    String instrument "Sea-Bird ECO";
    String ioos_category "Other";
    String legacy_gf3_code "FLOR_01";
    String long_name "Concentration of chlorophyll-a {chl-a CAS 479-61-8} per unit volume of the water body [particulate >unknown phase] by in-situ chlorophyll fluorometer";
    String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CF14N7/";
    String sdn_P02_urn "SDN:P02::CPWC";
    String sdn_parameter_name "Concentration of chlorophyll-a {chl-a CAS 479-61-8} per unit volume of the water body [particulate >unknown phase] by in-situ chlorophyll fluorometer";
    String sdn_parameter_urn "SDN:P01::CPHLPR01";
    String sdn_uom_name "Milligrams per cubic metre";
    String sdn_uom_urn "SDN:P06::UMMC";
    String standard_name "mass_concentration_of_chlorophyll_in_sea_water";
    String units "mg m-3";
  }
  QCPHLPR01 {
    Int32 _FillValue 2147483647;
    Int32 actual_range 1, 5;
    Float64 colorBarMaximum 10.0;
    Float64 colorBarMinimum 0.0;
    String coverage_content_type "qualityInformation";
    String flag_meanings "not_evaluated correct inconsistent_with_other_values doubtful erroneous modified missing";
    Int32 flag_values 0, 1, 2, 3, 4, 5, 9;
    String ioos_category "Quality";
    String legacy_gf3_code "QQQQ_05";
    String long_name "Quality Flag for Parameter: Fluorescence";
    String standard_name "status_flag";
    String units "unitless";
  }
  PHXXZZ01 {
    Float64 _FillValue NaN;
    Float64 actual_range 7.391, 8.137;
    String ancillary_variables "QPHPH_01 QCFF_01";
    Float64 colorBarMaximum 8.2;
    Float64 colorBarMinimum 7.3;
    String coverage_content_type "physicalMeasurement";
    String instrument "Sea-Bird SBE18";
    String ioos_category "Other";
    String legacy_gf3_code "PHPH_01";
    String long_name "pH (NBS) of the water body";
    Float64 missing_value NaN;
    String nerc_identifier "https://vocab.nerc.ac.uk/collection/P01/current/PHNBISGE/";
    String nerc_standard_name "pH_NBS_scale_of_the_water_body";
    String scale "NBS";
    String sdn_parameter_name "pH (unspecified scale) of the water body";
    String sdn_parameter_urn "SDN:P01::PHXXZZ01";
    String sdn_uom_name "Dimensionless";
    String sdn_uom_urn "SDN:P06::UUUU";
    String standard_name "sea_water_ph_reported_on_total_scale";
    String units "dimensionless";
  }
  QPHPH_01 {
    Int32 _FillValue 2147483647;
    Int32 actual_range 1, 9;
    Float64 colorBarMaximum 10.0;
    Float64 colorBarMinimum 0.0;
    String coverage_content_type "qualityInformation";
    String flag_meanings "not_evaluated correct inconsistent_with_other_values doubtful erroneous modified missing";
    Int32 flag_values 0, 1, 2, 3, 4, 5, 9;
    String ioos_category "Quality";
    String legacy_gf3_code "QQQQ_06";
    String long_name "Quality Flag for Parameter: Hydrogen Ion Concentration (pH)";
    String standard_name "status_flag";
    String units "unitless";
  }
  TRAN_01 {
    Float64 _FillValue NaN;
    Float64 actual_range 18.86, 99.93;
    String ancillary_variables "QTRAN_01 QCFF_01";
    Float64 colorBarMaximum 100.0;
    Float64 colorBarMinimum 0.0;
    String instrument "Sea-Bird C-Star Transmissometer (WetLabs)";
    String ioos_category "Optical Properties";
    String legacy_gf3_code "TRAN_01";
    String long_name "Light Transmission";
    String units "percent";
  }
  QTRAN_01 {
    Int32 _FillValue 2147483647;
    Int32 actual_range 1, 3;
    Float64 colorBarMaximum 10.0;
    Float64 colorBarMinimum 0.0;
    String coverage_content_type "qualityInformation";
    String flag_meanings "not_evaluated correct inconsistent_with_other_values doubtful erroneous modified missing";
    Int32 flag_values 0, 1, 2, 3, 4, 5, 9;
    String ioos_category "Quality";
    String legacy_gf3_code "QQQQ_04";
    String long_name "Quality Flag for Parameter: Light Transmission";
    String standard_name "status_flag";
    String units "unitless";
  }
  IRRDUV01 {
    Float64 _FillValue NaN;
    Float64 actual_range 0.059, 85.588;
    String ancillary_variables "QCFF_01";
    Float64 colorBarMaximum 100.0;
    Float64 colorBarMinimum 0.0;
    String coverage_content_type "physicalMeasurement";
    String instrument "PAR/Irradiance, Biospherical/Licor";
    String ioos_category "Optical Properties";
    String legacy_gf3_code "PSAR_01";
    String long_name "Photosynthetically Active Radiation";
    Float64 missing_value NaN;
    String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CFSN0678/";
    String sdn_P02_urn "SDN:P02::VSRW";
    String sdn_parameter_name "Downwelling vector irradiance as photons of electromagnetic radiation (PAR wavelengths) in the water body by cosine-collector radiometer";
    String sdn_parameter_urn "SDN:P01::IRRDUV01";
    String sdn_uom_name "MicroEinsteins per square metre per second";
    String sdn_uom_urn "SDN:P06::UMES";
    String standard_name "downwelling_photosynthetic_photon_spherical_irradiance_in_sea_water";
    String units "µEinsteins s-1 m-2";
  }
  SIGTEQST02 {
    Float64 _FillValue NaN;
    Float64 actual_range 4.4143, 27.3918;
    String ancillary_variables "QSIGT_02 QCFF_01";
    Float64 colorBarMaximum 30.0;
    Float64 colorBarMinimum 0.0;
    String coverage_content_type "physicalMeasurement";
    String ioos_category "Other";
    String legacy_gf3_code "SIGT_02";
    String long_name "Sigma-T of the water body by computation from salinity and temperature using UNESCO algorithm, 2";
    String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CFSN0332/";
    String sdn_P02_urn "SDN:P02::SIGT";
    String sdn_parameter_name "Sigma-T of the water body by computation from salinity and temperature using UNESCO algorithm";
    String sdn_parameter_urn "SDN:P01::SIGTEQST";
    String sdn_uom_name "Kilograms per cubic metre";
    String sdn_uom_urn "SDN:P06::UKMC";
    String standard_name "sea_water_sigma_t";
    String units "kg m-3";
  }
  QSIGT_02 {
    Int32 _FillValue 2147483647;
    Int32 actual_range 1, 3;
    Float64 colorBarMaximum 10.0;
    Float64 colorBarMinimum 0.0;
    String coverage_content_type "qualityInformation";
    String flag_meanings "not_evaluated correct inconsistent_with_other_values doubtful erroneous modified missing";
    Int32 flag_values 0, 1, 2, 3, 4, 5, 9;
    String ioos_category "Quality";
    String legacy_gf3_code "QQQQ_13";
    String long_name "Quality Flag for Parameter: Sigma-T (rho(s, t, 0)-1000)";
    String standard_name "status_flag";
    String units "unitless";
  }
  SIGTEQ02 {
    Float64 _FillValue NaN;
    Float64 actual_range 4.4144, 27.3964;
    String ancillary_variables "QSIGP_02 QCFF_01";
    Float64 colorBarMaximum 30.0;
    Float64 colorBarMinimum 0.0;
    String coverage_content_type "physicalMeasurement";
    String ioos_category "Other";
    String legacy_gf3_code "SIGP_02";
    String long_name "Sigma-theta of the water body by computation from salinity and potential temperature using UNESCO algorithm, 2";
    String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CFSN0333/";
    String sdn_parameter_name "Sigma-theta of the water body by computation from salinity and potential temperature using UNESCO algorithm";
    String sdn_parameter_urn "SDN:P01::SIGTEQ02";
    String sdn_uom_name "Kilograms per cubic metre";
    String sdn_uom_urn "SDN:P06::UKMC";
    String standard_name "sea_water_sigma_theta";
    String units "kg m-3";
  }
  QSIGP_02 {
    Int32 _FillValue 2147483647;
    Int32 actual_range 1, 3;
    Float64 colorBarMaximum 10.0;
    Float64 colorBarMinimum 0.0;
    String coverage_content_type "qualityInformation";
    String flag_meanings "not_evaluated correct inconsistent_with_other_values doubtful erroneous modified missing";
    Int32 flag_values 0, 1, 2, 3, 4, 5, 9;
    String ioos_category "Quality";
    String legacy_gf3_code "QQQQ_14";
    String long_name "Quality Flag for Parameter: Sigma-Theta (rho(s, Theta, 0)-1000)";
    String standard_name "status_flag";
    String units "unitless";
  }
  QCFF_01 {
    Int32 _FillValue 2147483647;
    Int32 actual_range 0, 6144;
    Float64 colorBarMaximum 1.5;
    Float64 colorBarMinimum 0.0;
    String coverage_content_type "qualityInformation";
    String flag_meanings "QCFF values are derived from tests of GTSPP stage 2. A quality flag modified by hand has a QCFF value of 1";
    Int32 flag_values 0, 1;
    String ioos_category "Quality";
    String legacy_gf3_code "QCFF_01";
    String long_name "Quality flag: QCFF";
    String standard_name "status_flag";
    String units "unitless";
  }
 }
  NC_GLOBAL {
    String call_sign "CGDN";
    String cdm_data_type "Profile";
    String cdm_profile_variables "Station_ID";
    String Conventions "COARDS, CF-1.10, ACDD-1.3";
    String country_institute_code "18QO";
    String country_of_origin "Canada";
    String creator_country "Canada";
    String creator_email "ismer@uqar.ca";
    String creator_institution "UQAR-ISMER";
    String creator_name "UQAR-ISMER";
    String creator_type "institution";
    String creator_url "https://www.ismer.ca/";
    String cruise_chief_scientist "Maude Boissonault, Ludovic Pascal";
    String cruise_description "MAP: mission annuelle PLAINE";
    String cruise_end_date "2023-07-11T12:00:00Z";
    String cruise_name "Mission PLAINE";
    String cruise_number "2023_13";
    String cruise_start_date "2023-07-05T12:00:00Z";
    String date_issued "2024-01-25T10:27:51Z";
    String date_modified "2024-06-26T16:24:43.580000Z";
    String defaultDataQuery "&time>=min(time)";
    String defaultGraphQuery "&time>=min(time)&.bgColor=0xffffffff";
    String DOI "https://doi.org/10.26071/34b9-46cd-a9a9-9b63517349be";
    Float64 Easternmost_Easting -63.30505;
    String event_data_type "CTD";
    Float64 event_depth_off_bottom 7.97;
    String event_end_date_time "2023-07-12T00:07:00Z";
    Float64 event_end_latitude 48.2199;
    Float64 event_end_longitude -69.88031;
    Float64 event_initial_latitude 48.22;
    Float64 event_initial_longitude -69.8804;
    Float64 event_max_depth 77.82;
    Float64 event_min_depth 1.98;
    Float64 event_qualifier1 1;
    String event_qualifier2 "DN";
    Float64 event_sampling_interval -99.0;
    String event_start_date_time "2023-07-11T23:57:10Z";
    String featureType "Profile";
    Float64 geospatial_lat_max 50.17888;
    Float64 geospatial_lat_min 47.92932;
    String geospatial_lat_units "degrees_north";
    Float64 geospatial_lon_max -63.30505;
    Float64 geospatial_lon_min -70.87116;
    String geospatial_lon_units "degrees_east";
    Float64 geospatial_vertical_max 371.9711;
    Float64 geospatial_vertical_min 0.495745;
    String geospatial_vertical_positive "down";
    String geospatial_vertical_units "m";
    String history 
"# SEA-BIRD INSTRUMENTS HEADER
2024-03-27T12:28:03Z # datcnv_date = Jan 25 2024 10:27:51, 7.26.7.129 [datcnv_vars = 23]
2024-03-27T12:28:03Z # datcnv_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\00_raw\\CTD_2023_13_033.hex E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\00_raw\\CTD_2023_13_033.XMLCON
2024-03-27T12:28:03Z # datcnv_skipover = 0
2024-03-27T12:28:03Z # datcnv_ox_hysteresis_correction = yes
2024-03-27T12:28:03Z # datcnv_ox_tau_correction = yes
2024-03-27T12:28:03Z # wildedit_date = Mar 27 2024 12:11:51, 7.26.7.129
2024-03-27T12:28:03Z # wildedit_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\01_datCnv\\newcnv\\CTD_2023_13_033.cnv
2024-03-27T12:28:03Z # wildedit_pass1_nstd = 2.0
2024-03-27T12:28:03Z # wildedit_pass2_nstd = 20.0
2024-03-27T12:28:03Z # wildedit_pass2_mindelta = 0.000e+000
2024-03-27T12:28:03Z # wildedit_npoint = 100
2024-03-27T12:28:03Z # wildedit_vars = prDM t090C t190C c0mS/cm c1mS/cm CStarTr0 ph par sbeox0V v1 v3
2024-03-27T12:28:03Z # wildedit_excl_bad_scans = yes
2024-03-27T12:28:03Z # filter_date = Mar 27 2024 12:13:33, 7.26.7.129
2024-03-27T12:28:03Z # filter_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv
2024-03-27T12:28:03Z # filter_low_pass_tc_A = 0.030
2024-03-27T12:28:03Z # filter_low_pass_tc_B = 0.150
2024-03-27T12:28:03Z # filter_low_pass_A_vars =
2024-03-27T12:28:03Z # filter_low_pass_B_vars = prDM
2024-03-27T12:28:03Z # alignctd_date = Mar 27 2024 12:15:32, 7.26.7.129
2024-03-27T12:28:03Z # alignctd_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv
2024-03-27T12:28:03Z # alignctd_adv = sbeox0V 0.500
2024-03-27T12:28:03Z # celltm_date = Mar 27 2024 12:20:34, 7.26.7.129
2024-03-27T12:28:03Z # celltm_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv
2024-03-27T12:28:03Z # celltm_alpha = 0.0300, 0.0300
2024-03-27T12:28:03Z # celltm_tau = 7.0000, 7.0000
2024-03-27T12:28:03Z # celltm_temp_sensor_use_for_cond = primary, secondary
2024-03-27T12:28:03Z # loopedit_date = Mar 27 2024 12:22:07, 7.26.7.129
2024-03-27T12:28:03Z # loopedit_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv
2024-03-27T12:28:03Z # loopedit_minVelocity = 0.200
2024-03-27T12:28:03Z # loopedit_surfaceSoak: do not remove
2024-03-27T12:28:03Z # loopedit_excl_bad_scans = yes
2024-03-27T12:28:03Z # strip_date = Mar 27 2024 12:23:51, 7.26.7.129
2024-03-27T12:28:03Z # strip_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv
2024-03-27T12:28:03Z # Derive_date = Mar 27 2024 12:25:21, 7.26.7.129 [derive_vars = 9]
2024-03-27T12:28:03Z # Derive_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.XMLCON
2024-03-27T12:28:03Z # derive_time_window_docdt = seconds: 2
2024-03-27T12:28:03Z # derive_ox_tau_correction = yes
2024-03-27T12:28:03Z # derive_time_window_dzdt = seconds: 2
2024-03-27T12:28:03Z # binavg_date = Mar 27 2024 12:28:03, 7.26.7.129
2024-03-27T12:28:03Z # binavg_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\03_derive\\CTD_2023_13_033.cnv
2024-03-27T12:28:03Z # binavg_bintype = decibars
2024-03-27T12:28:03Z # binavg_binsize = 0.5
2024-03-27T12:28:03Z # binavg_excl_bad_scans = yes
2024-03-27T12:28:03Z # binavg_skipover = 0
2024-03-27T12:28:03Z # binavg_omit = 0
2024-03-27T12:28:03Z # binavg_min_scans_bin = 1
2024-03-27T12:28:03Z # binavg_max_scans_bin = 2147483647
2024-03-27T12:28:03Z # binavg_surface_bin = no, min = 0.000, max = 0.000, value = 0.000
2024-03-27T12:28:03Z # file_type = ascii
# ODF Internal Processing Notes
2024-04-02T14:45:36Z Conversion from CNV to ODF
2024-04-02T14:46:20Z Update metadata (organization, chief scientist, cruise description) for the cruise header
2024-04-02T14:49:50Z Update metadata (meteo. latitude, longitude, time, station name, sounding) for the event header
2024-06-25T11:58:23Z Add a simple offset on the data (FLOR_01) to deacrease the background noise.
2024-06-25T11:58:23Z CTD fluorescence (FLOR_01) calibrated with field titrations.
2024-06-25T11:58:23Z Performed a small normalization to the beam transmission data (TRAN_01).
2024-06-26T09:55:50Z The downcast profiles were choosen for the QAQC..
2024-06-26T09:55:50Z Performed a test to detect records with CTD pump off.
2024-06-26T09:55:51Z Perform the GTSPP quality control.
# Convert ODF to NetCDF with ocean_data_parser V 0.3.0
2024-07-15T12:44:45Z Rename QQQQ flags to QXXXX convention: {'QQQQ_01': 'QPRES_01', 'QQQQ_02': 'QTE90_01', 'QQQQ_03': 'QTE90_02', 'QQQQ_04': 'QTRAN_01', 'QQQQ_05': 'QFLOR_01', 'QQQQ_06': 'QPHPH_01', 'QQQQ_07': 'QPSAL_01', 'QQQQ_08': 'QPSAL_02', 'QQQQ_10': 'QOXYM_01', 'QQQQ_11': 'QSIGT_01', 'QQQQ_12': 'QSIGP_01', 'QQQQ_13': 'QSIGT_02', 'QQQQ_14': 'QSIGP_02'}
2024-07-15T12:44:45Z Generate new vocabulary variables: PRES_01 = PRESPR01; TE90_01 = TEMPP901; TE90_02 = TEMPP902; FLOR_01 = CPHLPR01; PHPH_01 = PHXXZZ01; PSAR_01 = IRRDUV01; PSAL_01 = PSLTZZ01; PSAL_02 = PSLTZZ02; SIGT_01 = SIGTEQST01; SIGP_01 = SIGTEQ01; SIGT_02 = SIGTEQST02; SIGP_02 = SIGTEQ02; 

2025-01-22T11:41:35Z (local files)
2025-01-22T11:41:35Z https://erddap.ogsl.ca/erddap/tabledap/rqmMap2023Ctd.html";
    String ices_platform_codes "18OL";
    String infoUrl "https://www.rqm.quebec/missions-annuelles/coriolis-2023/";
    String institution "Réseau Québec maritime";
    String instrument "Sea-Bird SBE 911plus";
    String instrument_description "CTD_2023_13_033.hex CTD_2023_13_033.XMLCON";
    String instrument_inst_type "Sea-Bird";
    String instrument_manufacturer_header 
"* Sea-Bird SBE 9 Data File:
* FileName = C:\\CTD911plus\\CTDdocument\\CTDdata\\MAP2023\\MAP2023033.hex
* Software Version Seasave V 7.26.7.121
* Temperature SN = 5769
* Conductivity SN = 4244
* Number of Bytes Per Scan = 41
* Number of Voltage Words = 4
* Number of Scans Averaged by the Deck Unit = 1
* System UpLoad Time = Jul 11 2023 23:57:10
* NMEA Latitude = 48 14.25 N
* NMEA Longitude = 069 57.54 W
* NMEA UTC (Time) = Jul 11 2023 23:24:48
* Store Lat/Lon Data = Append to Every Scan
* SBE 11plus V 5.1e
* number of scans to average = 1
* pressure baud rate = 9600
* NMEA baud rate = 4800
* GPIB address = 1
* advance primary conductivity  0.073 seconds
* advance secondary conductivity  0.073 seconds
* S>
** Coriolis II
** MAP2023
** mission Plaine RQM
** Chef de mission Maude Boissonneault et Ludovic Pascal
* System UTC = Jul 11 2023 23:57:10
# nquan = 29
# nvalues = 310
# units = specified
# name 0 = prDM: Pressure, Digiquartz [db]
# name 1 = t090C: Temperature [ITS-90, deg C]
# name 2 = t190C: Temperature, 2 [ITS-90, deg C]
# name 3 = c0mS/cm: Conductivity [mS/cm]
# name 4 = c1mS/cm: Conductivity, 2 [mS/cm]
# name 5 = modError: Modulo Error Count
# name 6 = longitude: Longitude [deg]
# name 7 = latitude: Latitude [deg]
# name 8 = CStarTr0: Beam Transmission, WET Labs C-Star [%]
# name 9 = flECO-AFL: Fluorescence, WET Labs ECO-AFL/FL [mg/m^3]
# name 10 = ph: pH
# name 11 = par: PAR/Irradiance, Biospherical/Licor
# name 12 = sfdSM: Seafloor depth [salt water, m]
# name 13 = pumps: Pump Status
# name 14 = timeM: Time, Elapsed [minutes]
# name 15 = sbeox0V: Oxygen raw, SBE 43 [V]
# name 16 = v1: Voltage 1
# name 17 = v2: Voltage 2
# name 18 = v3: Voltage 3
# name 19 = sal00: Salinity, Practical [PSU]
# name 20 = sal11: Salinity, Practical, 2 [PSU]
# name 21 = sbeox0ML/L: Oxygen, SBE 43 [ml/l], WS = 2
# name 22 = sbeox0Mm/L: Oxygen, SBE 43 [umol/l], WS = 2
# name 23 = sigma-t00: Density [sigma-t, kg/m^3 ]
# name 24 = sigma-é00: Density [sigma-theta, kg/m^3]
# name 25 = sigma-t11: Density, 2 [sigma-t, kg/m^3 ]
# name 26 = sigma-é11: Density, 2 [sigma-theta, kg/m^3]
# name 27 = dz/dtM: Descent Rate [m/s], WS = 2
# name 28 = flag: flag
# span 0 =      0.500,     78.500
# span 1 =     5.2711,    13.4480
# span 2 =     5.2758,    13.6944
# span 3 =  19.941193,  27.345350
# span 4 =  19.507207,  27.346769
# span 5 =          0,          0
# span 6 =  -69.88040,  -69.87998
# span 7 =   48.21988,   48.22006
# span 8 =    76.0137,    95.3439
# span 9 =     0.2728,     1.2594
# span 10 =      7.753,      7.898
# span 11 = 5.8501e-02, 5.8501e-02
# span 12 =     77.562,     87.834
# span 13 =          1,          1
# span 14 =     1.5360,     9.8344
# span 15 =     2.3281,     2.6101
# span 16 =     2.7423,     2.7790
# span 17 =     0.0219,     0.0614
# span 18 =     3.4841,     4.3688
# span 19 =    15.6505,    27.6635
# span 20 =    15.1796,    27.6606
# span 21 =     6.4448,     6.6850
# span 22 =    287.825,    298.552
# span 23 =    11.3818,    21.8378
# span 24 =    11.3818,    21.8383
# span 25 =    10.9786,    21.8350
# span 26 =    10.9786,    21.8355
# span 27 =     -0.730,      0.663
# span 28 = 0.0000e+00, 0.0000e+00
# interval = decibars: 0.5
# start_time = Jul 11 2023 23:57:10 [System UpLoad Time]
# bad_flag = -9.990e-29
# <Sensors count=\"13\" >
#   <sensor Channel=\"1\" >
#     <!-- Frequency 0, Temperature -->
#     <TemperatureSensor SensorID=\"55\" >
#       <SerialNumber>5769</SerialNumber>
#       <CalibrationDate>2023-03-14</CalibrationDate>
#       <UseG_J>1</UseG_J>
#       <A>0.00000000e+000</A>
#       <B>0.00000000e+000</B>
#       <C>0.00000000e+000</C>
#       <D>0.00000000e+000</D>
#       <F0_Old>0.000</F0_Old>
#       <G>4.30758385e-003</G>
#       <H>6.24923426e-004</H>
#       <I>1.93163880e-005</I>
#       <J>1.44283417e-006</J>
#       <F0>1000.000</F0>
#       <Slope>1.00000000</Slope>
#       <Offset>0.0000</Offset>
#     </TemperatureSensor>
#   </sensor>
#   <sensor Channel=\"2\" >
#     <!-- Frequency 1, Conductivity -->
#     <ConductivitySensor SensorID=\"3\" >
#       <SerialNumber>4244</SerialNumber>
#       <CalibrationDate>2023-03-31</CalibrationDate>
#       <UseG_J>1</UseG_J>
#       <!-- Cell const and series R are applicable only for wide range sensors. -->
#       <SeriesR>0.0000</SeriesR>
#       <CellConst>2000.0000</CellConst>
#       <ConductivityType>0</ConductivityType>
#       <Coefficients equation=\"0\" >
#         <A>0.00000000e+000</A>
#         <B>0.00000000e+000</B>
#         <C>0.00000000e+000</C>
#         <D>0.00000000e+000</D>
#         <M>0.0</M>
#         <CPcor>-9.57000000e-008</CPcor>
#       </Coefficients>
#       <Coefficients equation=\"1\" >
#         <G>-9.88694765e+000</G>
#         <H>1.37070078e+000</H>
#         <I>-2.34724804e-003</I>
#         <J>2.55488112e-004</J>
#         <CPcor>-9.57000000e-008</CPcor>
#         <CTcor>3.2500e-006</CTcor>
#         <!-- WBOTC not applicable unless ConductivityType = 1. -->
#         <WBOTC>0.00000000e+000</WBOTC>
#       </Coefficients>
#       <Slope>1.00000000</Slope>
#       <Offset>0.00000</Offset>
#     </ConductivitySensor>
#   </sensor>
#   <sensor Channel=\"3\" >
#     <!-- Frequency 2, Pressure, Digiquartz with TC -->
#     <PressureSensor SensorID=\"45\" >
#       <SerialNumber>1168</SerialNumber>
#       <CalibrationDate>2023-03-03</CalibrationDate>
#       <C1>-8.664850e+003</C1>
#       <C2>-1.495314e-001</C2>
#       <C3>2.343420e-003</C3>
#       <D1>5.131200e-002</D1>
#       <D2>0.000000e+000</D2>
#       <T1>3.039627e+001</T1>
#       <T2>-4.605810e-004</T2>
#       <T3>3.338000e-006</T3>
#       <T4>3.648380e-009</T4>
#       <Slope>0.99995620</Slope>
#       <Offset>-3.03723</Offset>
#       <T5>0.000000e+000</T5>
#       <AD590M>1.285600e-002</AD590M>
#       <AD590B>-9.232086e+000</AD590B>
#     </PressureSensor>
#   </sensor>
#   <sensor Channel=\"4\" >
#     <!-- Frequency 3, Temperature, 2 -->
#     <TemperatureSensor SensorID=\"55\" >
#       <SerialNumber>6622</SerialNumber>
#       <CalibrationDate>2022-08-06</CalibrationDate>
#       <UseG_J>1</UseG_J>
#       <A>0.00000000e+000</A>
#       <B>0.00000000e+000</B>
#       <C>0.00000000e+000</C>
#       <D>0.00000000e+000</D>
#       <F0_Old>0.000</F0_Old>
#       <G>4.32612945e-003</G>
#       <H>6.38997606e-004</H>
#       <I>2.17826466e-005</I>
#       <J>2.01541785e-006</J>
#       <F0>1000.000</F0>
#       <Slope>1.00000000</Slope>
#       <Offset>0.0000</Offset>
#     </TemperatureSensor>
#   </sensor>
#   <sensor Channel=\"5\" >
#     <!-- Frequency 4, Conductivity, 2 -->
#     <ConductivitySensor SensorID=\"3\" >
#       <SerialNumber>6090</SerialNumber>
#       <CalibrationDate>2022-08-05</CalibrationDate>
#       <UseG_J>1</UseG_J>
#       <!-- Cell const and series R are applicable only for wide range sensors. -->
#       <SeriesR>0.0000</SeriesR>
#       <CellConst>2000.0000</CellConst>
#       <ConductivityType>0</ConductivityType>
#       <Coefficients equation=\"0\" >
#         <A>0.00000000e+000</A>
#         <B>0.00000000e+000</B>
#         <C>0.00000000e+000</C>
#         <D>0.00000000e+000</D>
#         <M>0.0</M>
#         <CPcor>-9.57000000e-008</CPcor>
#       </Coefficients>
#       <Coefficients equation=\"1\" >
#         <G>-1.01645829e+001</G>
#         <H>1.59071415e+000</H>
#         <I>-3.20077302e-003</I>
#         <J>3.42191272e-004</J>
#         <CPcor>-9.57000000e-008</CPcor>
#         <CTcor>3.2500e-006</CTcor>
#         <!-- WBOTC not applicable unless ConductivityType = 1. -->
#         <WBOTC>0.00000000e+000</WBOTC>
#       </Coefficients>
#       <Slope>1.00000000</Slope>
#       <Offset>0.00000</Offset>
#     </ConductivitySensor>
#   </sensor>
#   <sensor Channel=\"6\" >
#     <!-- A/D voltage 0, Oxygen, SBE 43 -->
#     <OxygenSensor SensorID=\"38\" >
#       <SerialNumber>2766</SerialNumber>
#       <CalibrationDate>2023-03-25</CalibrationDate>
#       <Use2007Equation>1</Use2007Equation>
#       <CalibrationCoefficients equation=\"0\" >
#         <!-- Coefficients for Owens-Millard equation. -->
#         <Boc>0.0000</Boc>
#         <Soc>0.0000e+000</Soc>
#         <offset>0.0000</offset>
#         <Pcor>0.00e+000</Pcor>
#         <Tcor>0.0000</Tcor>
#         <Tau>0.0</Tau>
#       </CalibrationCoefficients>
#       <CalibrationCoefficients equation=\"1\" >
#         <!-- Coefficients for Sea-Bird equation - SBE calibration in 2007 and later. -->
#         <Soc>4.8140e-001</Soc>
#         <offset>-0.5019</offset>
#         <A>-3.4501e-003</A>
#         <B> 1.9177e-004</B>
#         <C>-3.3396e-006</C>
#         <D0> 2.5826e+000</D0>
#         <D1> 1.92634e-004</D1>
#         <D2>-4.64803e-002</D2>
#         <E> 3.6000e-002</E>
#         <Tau20> 1.2500</Tau20>
#         <H1>-3.3000e-002</H1>
#         <H2> 5.0000e+003</H2>
#         <H3> 1.4500e+003</H3>
#       </CalibrationCoefficients>
#     </OxygenSensor>
#   </sensor>
#   <sensor Channel=\"7\" >
#     <!-- A/D voltage 1, pH -->
#     <pH_Sensor SensorID=\"43\" >
#       <SerialNumber>1078</SerialNumber>
#       <CalibrationDate>2023-04-13</CalibrationDate>
#       <Slope>4.6486</Slope>
#       <Offset>2.5487</Offset>
#     </pH_Sensor>
#   </sensor>
#   <sensor Channel=\"8\" >
#     <!-- A/D voltage 2, Fluorometer, WET Labs ECO-AFL/FL -->
#     <FluoroWetlabECO_AFL_FL_Sensor SensorID=\"20\" >
#       <SerialNumber>FLRT-3363</SerialNumber>
#       <CalibrationDate>2023-01-25</CalibrationDate>
#       <ScaleFactor>2.50000000e+001</ScaleFactor>
#       <!-- Dark output -->
#       <Vblank>0.0110</Vblank>
#     </FluoroWetlabECO_AFL_FL_Sensor>
#   </sensor>
#   <sensor Channel=\"9\" >
#     <!-- A/D voltage 3, Transmissometer, WET Labs C-Star -->
#     <WET_LabsCStar SensorID=\"71\" >
#       <SerialNumber>CST-1628PR</SerialNumber>
#       <CalibrationDate>2023-04-14</CalibrationDate>
#       <M>21.8490</M>
#       <B>-0.1090</B>
#       <PathLength>0.250</PathLength>
#     </WET_LabsCStar>
#   </sensor>
#   <sensor Channel=\"10\" >
#     <!-- A/D voltage 4, Altimeter -->
#     <AltimeterSensor SensorID=\"0\" >
#       <SerialNumber>61114</SerialNumber>
#       <CalibrationDate></CalibrationDate>
#       <ScaleFactor>15.000</ScaleFactor>
#       <Offset>0.000</Offset>
#     </AltimeterSensor>
#   </sensor>
#   <sensor Channel=\"11\" >
#     <!-- A/D voltage 5, PAR/Irradiance, Biospherical/Licor -->
#     <PAR_BiosphericalLicorChelseaSensor SensorID=\"42\" >
#       <SerialNumber>70455</SerialNumber>
#       <CalibrationDate>2023-01-25</CalibrationDate>
#       <M>1.00000000</M>
#       <B>0.00000000</B>
#       <CalibrationConstant>19455000000.00000000</CalibrationConstant>
#       <Multiplier>1.00000000</Multiplier>
#       <Offset>0.00710000</Offset>
#     </PAR_BiosphericalLicorChelseaSensor>
#   </sensor>
#   <sensor Channel=\"12\" >
#     <!-- A/D voltage 6, Free -->
#   </sensor>
#   <sensor Channel=\"13\" >
#     <!-- A/D voltage 7, Free -->
#   </sensor>
# </Sensors>
# datcnv_date = Jan 25 2024 10:27:51, 7.26.7.129 [datcnv_vars = 23]
# datcnv_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\00_raw\\CTD_2023_13_033.hex E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\00_raw\\CTD_2023_13_033.XMLCON
# datcnv_skipover = 0
# datcnv_ox_hysteresis_correction = yes
# datcnv_ox_tau_correction = yes
# wildedit_date = Mar 27 2024 12:11:51, 7.26.7.129
# wildedit_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\01_datCnv\\newcnv\\CTD_2023_13_033.cnv
# wildedit_pass1_nstd = 2.0
# wildedit_pass2_nstd = 20.0
# wildedit_pass2_mindelta = 0.000e+000
# wildedit_npoint = 100
# wildedit_vars = prDM t090C t190C c0mS/cm c1mS/cm CStarTr0 ph par sbeox0V v1 v3
# wildedit_excl_bad_scans = yes
# filter_date = Mar 27 2024 12:13:33, 7.26.7.129
# filter_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv
# filter_low_pass_tc_A = 0.030
# filter_low_pass_tc_B = 0.150
# filter_low_pass_A_vars =
# filter_low_pass_B_vars = prDM
# alignctd_date = Mar 27 2024 12:15:32, 7.26.7.129
# alignctd_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv
# alignctd_adv = sbeox0V 0.500
# celltm_date = Mar 27 2024 12:20:34, 7.26.7.129
# celltm_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv
# celltm_alpha = 0.0300, 0.0300
# celltm_tau = 7.0000, 7.0000
# celltm_temp_sensor_use_for_cond = primary, secondary
# loopedit_date = Mar 27 2024 12:22:07, 7.26.7.129
# loopedit_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv
# loopedit_minVelocity = 0.200
# loopedit_surfaceSoak: do not remove
# loopedit_excl_bad_scans = yes
# strip_date = Mar 27 2024 12:23:51, 7.26.7.129
# strip_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv
# Derive_date = Mar 27 2024 12:25:21, 7.26.7.129 [derive_vars = 9]
# Derive_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.XMLCON
# derive_time_window_docdt = seconds: 2
# derive_ox_tau_correction = yes
# derive_time_window_dzdt = seconds: 2
# binavg_date = Mar 27 2024 12:28:03, 7.26.7.129
# binavg_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\03_derive\\CTD_2023_13_033.cnv
# binavg_bintype = decibars
# binavg_binsize = 0.5
# binavg_excl_bad_scans = yes
# binavg_skipover = 0
# binavg_omit = 0
# binavg_min_scans_bin = 1
# binavg_max_scans_bin = 2147483647
# binavg_surface_bin = no, min = 0.000, max = 0.000, value = 0.000
# file_type = ascii
*END*
";
    String instrument_model "SBE 9";
    Float64 instrument_serial_number 5769;
    String instrument_type "CTD";
    String internal_processing_notes 
"2024-04-02T14:45:36Z Conversion from CNV to ODF
2024-04-02T14:46:20Z Update metadata (organization, chief scientist, cruise description) for the cruise header
2024-04-02T14:49:50Z Update metadata (meteo. latitude, longitude, time, station name, sounding) for the event header
2024-06-25T11:58:23Z Add a simple offset on the data (FLOR_01) to deacrease the background noise.
2024-06-25T11:58:23Z CTD fluorescence (FLOR_01) calibrated with field titrations.
2024-06-25T11:58:23Z Performed a small normalization to the beam transmission data (TRAN_01).
2024-06-26T09:55:50Z The downcast profiles were choosen for the QAQC..
2024-06-26T09:55:50Z Performed a test to detect records with CTD pump off.
2024-06-26T09:55:51Z Perform the GTSPP quality control.
";
    String keywords "CTD, fluorescence, oceanographic missions, oxygen, physical-chemical, salinity, water density, water temperature";
    String keywords_fr "CTD, température de l'eau, oxygène, fluorescence, salinité, densité eau, missions océanographiques, physico-chimie";
    String keywords_vocabulary "GCMD Science Keywords";
    String license "Creative Commons Attribution 4.0 International license CC-BY 4.0";
    String licenseUrl "https://creativecommons.org/licenses/by/4.0/";
    Float64 Northernmost_Northing 50.17888;
    String odf_data_type "CTD";
    String organization "RQM / ISMER / Québec Océan";
    String original_odf_header 
"ODF_HEADER,
  FILE_SPECIFICATION = CTD_2023_13_033_1_DN,
CRUISE_HEADER,
  COUNTRY_INSTITUTE_CODE = 18QO,
  CRUISE_NUMBER = '2023_13',
  ORGANIZATION = 'RQM/QO',
  CHIEF_SCIENTIST = 'Maude Boissonault, Ludovic Pascal',
  START_DATE = '05-JUL-2023 12:00:00.00',
  END_DATE = '11-JUL-2023 12:00:00.00',
  PLATFORM = 'Coriolis',
  CRUISE_NAME = '2023_13_MAP',
  CRUISE_DESCRIPTION = 'MAP: mission annuelle PLAIN',
EVENT_HEADER,
  DATA_TYPE= 'CTD',
  EVENT_NUMBER= '033',
  EVENT_STATION= 'ST20',
  EVENT_QUALIFIER1= '1',
  EVENT_QUALIFIER2= 'DN',
  CREATION_DATE= '26-JUN-2024 16:24:43.58',
  ORIG_CREATION_DATE= '25-JAN-2024 10:27:51.00',
  START_DATE_TIME= '11-JUL-2023 23:57:10.00',
  END_DATE_TIME= '12-JUL-2023 00:07:00.00',
  INITIAL_LATITUDE= 48.220000,
  INITIAL_LONGITUDE= -69.880400,
  END_LATITUDE= 48.219900,
  END_LONGITUDE= -69.880310,
  MIN_DEPTH= 1.98,
  MAX_DEPTH= 77.82,
  SAMPLING_INTERVAL= -99.0,
  SOUNDING= 85.79,
  DEPTH_OFF_BOTTOM= 7.97,
  EVENT_COMMENTS= '',
METEO_HEADER,
  AIR_TEMPERATURE= 19.00,
  ATMOSPHERIC_PRESSURE= -99.00,
  WIND_SPEED= 9.77,
  WIND_DIRECTION= NaN,
  SEA_STATE= 0,
  CLOUD_COVER= -99,
  ICE_THICKNESS= -99.00,
  METEO_COMMENTS= 'Air_Temperature: degrees C',
  METEO_COMMENTS= 'Wind_Speed: m/s',
  METEO_COMMENTS= 'Wind_Direction(0-360): True North degrees',
  METEO_COMMENTS= 'Atmospheric_Pressure: hpa',
  METEO_COMMENTS= 'Sea_State(0->9): WMO code table 3700',
  METEO_COMMENTS= 'Cloud_Cover(0->9): WMO code table 2700',
  METEO_COMMENTS= 'Ice_Thickness: m',
INSTRUMENT_HEADER,
  INST_TYPE= 'Sea-Bird',
  MODEL= 'SBE 9',
  SERIAL_NUMBER= '5769',
  DESCRIPTION= 'CTD_2023_13_033.hex CTD_2023_13_033.XMLCON',
QUALITY_HEADER,
  QUALITY_DATE= '26-JUN-2024 14:59:43.74',
  QUALITY_TESTS= 'Test 1.1: GTSPP Platform Identification',
  QUALITY_TESTS= 'Test 1.2: GTSPP Impossible Date/Time',
  QUALITY_TESTS= 'Test 1.3: GTSPP Impossible Location',
  QUALITY_TESTS= 'Test 1.4: GTSPP Position on Land',
  QUALITY_TESTS= 'Test 1.5: GTSPP Impossible Speed',
  QUALITY_TESTS= 'Test 1.6: GTSPP Impossible Sounding',
  QUALITY_TESTS= 'Test 5.1: GTSPP Cruise Track Visual Inspection',
  QUALITY_TESTS= 'Test 2.0: IML Minimum Descent Rate (2) (0.10m/s)',
  QUALITY_TESTS= 'Test 2.1: GTSPP Global Impossible Parameter Values (4)',
  QUALITY_TESTS= 'Test 2.2: GTSPP Regional Impossible Parameter Values (8)',
  QUALITY_TESTS= 'Test 2.3: GTSPP Increasing Depth (16)',
  QUALITY_TESTS= 'Test 2.4: GTSPP Profile Envelope (Temperature and Salinity) (32)',
  QUALITY_TESTS= 'Test 2.6: GTSPP Freezing Point (128)',
  QUALITY_TESTS= 'Test 2.7: GTSPP Spike in Temperature and Salinity (one point) (256)',
  QUALITY_TESTS= 'Test 2.8: GTSPP Top and Bottom Spike in Temperature and Salinity (512)',
  QUALITY_TESTS= 'Test 2.9: GTSPP Gradient in Temperature and Salinity (1024)',
  QUALITY_TESTS= 'Test 2.10: GTSPP Density Inversion (point to point) (2048)',
  QUALITY_TESTS= 'Test 2.11: IML Spike in Pressure, Temperature and Salinity (one point or more) (4096)',
  QUALITY_TESTS= 'Test 3.5: IML Petrie Monthly Climatology (Temperature, Salinity and Sigma-T)',
  QUALITY_COMMENTS= 'QCFF values are derived from tests of GTSPP stage 2',
  QUALITY_COMMENTS= 'A quality flag modified by hand has a QCFF value of 1',
GENERAL_CAL_HEADER,
  PARAMETER_CODE= 'PRES_01',
  CALIBRATION_TYPE= 'PRES06',
  CALIBRATION_DATE= '03-MAR-2023 00:00:00.00',
  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',
  NUMBER_COEFFICIENTS= 14,
  COEFFICIENTS= -8.66485000e+03  -1.49531400e-01  2.34342000e-03  5.13120000e-02  0.00000000e+00  3.03962700e+01  -4.60581000e-04  3.33800000e-06  3.64838000e-09  0.00000000e+00  1.28560000e-02  -9.23208600e+00  9.99956200e-01  -3.03723000e+00 ,
  CALIBRATION_EQUATION= 'U = C10*BIN-C11',
  CALIBRATION_EQUATION= 'T0=C0+C1*U+C2*U^2+C3*U^3+C4*^4',
  CALIBRATION_EQUATION= 'PRES={(C5+C6*U+C7*U^2)*(1-T0^2/T^2)*(1-(C8 + C9*U)*(1-T0^2/T^2))}*C12 + C13',
  CALIBRATION_EQUATION= 'U=temperature (deg C), BIN=binary temperature, T=pressure period (usec), P=pressure (psia).',
  CALIBRATION_COMMENTS= '',
GENERAL_CAL_HEADER,
  PARAMETER_CODE= 'TE90_01',
  CALIBRATION_TYPE= 'TEMP06',
  CALIBRATION_DATE= '14-MAR-2023 00:00:00.00',
  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',
  NUMBER_COEFFICIENTS= 7,
  COEFFICIENTS= 4.30758385e-03  6.24923426e-04  1.93163880e-05  1.44283417e-06  1.00000000e+03  1.00000000e+00  0.00000000e+00 ,
  CALIBRATION_EQUATION= '[TE90 = (1/(C0 + C1*ln(C4/N) + C2*(ln(C4/N))^2 + C3*(ln(C4/N))^3) - 273.15)] * C5 + C6',
  CALIBRATION_COMMENTS= 'Use g, h, i, j coefficients',
GENERAL_CAL_HEADER,
  PARAMETER_CODE= 'TE90_02',
  CALIBRATION_TYPE= 'TEMP06',
  CALIBRATION_DATE= '06-AUG-2022 00:00:00.00',
  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',
  NUMBER_COEFFICIENTS= 7,
  COEFFICIENTS= 4.32612945e-03  6.38997606e-04  2.17826466e-05  2.01541785e-06  1.00000000e+03  1.00000000e+00  0.00000000e+00 ,
  CALIBRATION_EQUATION= '[TE90 = (1/(C0 + C1*ln(C4/N) + C2*(ln(C4/N))^2 + C3*(ln(C4/N))^3) - 273.15)] * C5 + C6',
  CALIBRATION_COMMENTS= 'Use g, h, i, j coefficients',
GENERAL_CAL_HEADER,
  PARAMETER_CODE= 'CNDC_01',
  CALIBRATION_TYPE= 'COND04',
  CALIBRATION_DATE= '31-MAR-2023 00:00:00.00',
  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',
  NUMBER_COEFFICIENTS= 8,
  COEFFICIENTS= -9.88694765e+00  1.37070078e+00  -2.34724804e-03  2.55488112e-04  3.25000000e-06  -9.57000000e-08  1.00000000e+00  0.00000000e+00 ,
  CALIBRATION_EQUATION= 'CNDC = ((C0 + C1*N^2 + C2*N^3 + C3*N^4)/(1+C4*TEMP+C5*PRES))*C6 + C7',
  CALIBRATION_COMMENTS= 'Use g, h, i, j coefficients',
  CALIBRATION_COMMENTS= 'Unit: Siemens/meter',
GENERAL_CAL_HEADER,
  PARAMETER_CODE= 'CNDC_02',
  CALIBRATION_TYPE= 'COND04',
  CALIBRATION_DATE= '05-AUG-2022 00:00:00.00',
  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',
  NUMBER_COEFFICIENTS= 8,
  COEFFICIENTS= -1.01645829e+01  1.59071415e+00  -3.20077302e-03  3.42191272e-04  3.25000000e-06  -9.57000000e-08  1.00000000e+00  0.00000000e+00 ,
  CALIBRATION_EQUATION= 'CNDC = ((C0 + C1*N^2 + C2*N^3 + C3*N^4)/(1+C4*TEMP+C5*PRES))*C6 + C7',
  CALIBRATION_COMMENTS= 'Use g, h, i, j coefficients',
  CALIBRATION_COMMENTS= 'Unit: Siemens/meter',
GENERAL_CAL_HEADER,
  PARAMETER_CODE= 'TRAN_01',
  CALIBRATION_TYPE= 'TRANS03',
  CALIBRATION_DATE= '14-APR-2023 00:00:00.00',
  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',
  NUMBER_COEFFICIENTS= 2,
  COEFFICIENTS= -1.09000000e-01  2.18490000e+01 ,
  CALIBRATION_EQUATION= 'TRAN = C0 + C1*N',
  CALIBRATION_COMMENTS= 'Path Length [m]: 0.250',
  CALIBRATION_COMMENTS= 'The data have been normalized',
GENERAL_CAL_HEADER,
  PARAMETER_CODE= 'FLOR_01',
  CALIBRATION_TYPE= 'FLUO06',
  CALIBRATION_DATE= '25-JAN-2023 00:00:00.00',
  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',
  NUMBER_COEFFICIENTS= 2,
  COEFFICIENTS= 1.10000000e-02  2.50000000e+01 ,
  CALIBRATION_EQUATION= 'FLOR = (N - C0)*C1',
  CALIBRATION_COMMENTS= 'Add an 0.091 offset.',
  CALIBRATION_COMMENTS= '',
  CALIBRATION_COMMENTS= '',
  CALIBRATION_COMMENTS= 'CTD fluorescence calibrated with field titrations.',
  CALIBRATION_COMMENTS= 'Calculate a new scale factor',
  CALIBRATION_COMMENTS= 'new scale factor = 45.8300',
GENERAL_CAL_HEADER,
  PARAMETER_CODE= 'PHPH_01',
  CALIBRATION_TYPE= 'PHPH',
  CALIBRATION_DATE= '13-APR-2023 00:00:00.00',
  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',
  NUMBER_COEFFICIENTS= 2,
  COEFFICIENTS= 2.54870000e+00  4.64860000e+00 ,
  CALIBRATION_EQUATION= 'PHPH = 7+(N-C1)/((TEMP-273.15)*1.98416e-4*C0)',
  CALIBRATION_COMMENTS= '',
GENERAL_CAL_HEADER,
  PARAMETER_CODE= 'PSAR_01',
  CALIBRATION_TYPE= 'PSAR01',
  CALIBRATION_DATE= '25-JAN-2023 00:00:00.00',
  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',
  NUMBER_COEFFICIENTS= 5,
  COEFFICIENTS= 1.00000000e+00  1.94550000e+10  0.00000000e+00  1.00000000e+00  7.10000000e-03 ,
  CALIBRATION_EQUATION= 'PSAR = (C0/C1)*(10^9*10^((N-C2)/C3)) + C4',
  CALIBRATION_COMMENTS= 'The sensor was not operational.',
GENERAL_CAL_HEADER,
  PARAMETER_CODE= 'DOXY_01',
  CALIBRATION_TYPE= 'OXY04',
  CALIBRATION_DATE= '25-MAR-2023 00:00:00.00',
  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',
  NUMBER_COEFFICIENTS= 12,
  COEFFICIENTS= 4.81400000e-01  -5.01900000e-01  1.25000000e+00  -3.45010000e-03  1.91770000e-04  -3.33960000e-06  3.60000000e-02  1.92634000e-04  -4.64803000e-02  -3.30000000e-02  5.00000000e+03  1.45000000e+03 ,
  CALIBRATION_EQUATION= 'DOXY = C0*(OXV_ + C1 + C2*dOXV_/dt) * OXSOL(TEMP,PSAL) * (1.0 + C3*TEMP + C4*TEMP^2 + C5*TEMP^3) * exp(C6*PRES/(TEMP-273.15)',
  CALIBRATION_COMMENTS= 'Use Sea-Bird equation',
  CALIBRATION_COMMENTS= 'C7 = D1 and C8 = D2 used in the calculation of tau.',
  CALIBRATION_COMMENTS= 'C9 = H1, C10 = H2 and C11 = H3 are the new hysteresis correction terms.',
  CALIBRATION_COMMENTS= 'CTD O2 calibrated with Winkler titrations.',
  CALIBRATION_COMMENTS= 'Use a regression',
  CALIBRATION_COMMENTS= 'slope=0.95900000 intercept=3.05070000',
HISTORY_HEADER,
  CREATION_DATE= '27-MAR-2024 12:28:03.00',
  PROCESS= '* Sea-Bird SBE 9 Data File:',
  PROCESS= '* FileName = C:\\CTD911plus\\CTDdocument\\CTDdata\\MAP2023\\MAP2023033.hex',
  PROCESS= '* Software Version Seasave V 7.26.7.121',
  PROCESS= '* Temperature SN = 5769',
  PROCESS= '* Conductivity SN = 4244',
  PROCESS= '* Number of Bytes Per Scan = 41',
  PROCESS= '* Number of Voltage Words = 4',
  PROCESS= '* Number of Scans Averaged by the Deck Unit = 1',
  PROCESS= '* System UpLoad Time = Jul 11 2023 23:57:10',
  PROCESS= '* NMEA Latitude = 48 14.25 N',
  PROCESS= '* NMEA Longitude = 069 57.54 W',
  PROCESS= '* NMEA UTC (Time) = Jul 11 2023 23:24:48',
  PROCESS= '* Store Lat/Lon Data = Append to Every Scan',
  PROCESS= '* SBE 11plus V 5.1e',
  PROCESS= '* number of scans to average = 1',
  PROCESS= '* pressure baud rate = 9600',
  PROCESS= '* NMEA baud rate = 4800',
  PROCESS= '* GPIB address = 1',
  PROCESS= '* advance primary conductivity  0.073 seconds',
  PROCESS= '* advance secondary conductivity  0.073 seconds',
  PROCESS= '* S>',
  PROCESS= '** Coriolis II',
  PROCESS= '** MAP2023',
  PROCESS= '** mission Plaine RQM',
  PROCESS= '** Chef de mission Maude Boissonneault et Ludovic Pascal',
  PROCESS= '* System UTC = Jul 11 2023 23:57:10',
  PROCESS= '# nquan = 29',
  PROCESS= '# nvalues = 310',
  PROCESS= '# units = specified',
  PROCESS= '# name 0 = prDM: Pressure, Digiquartz [db]',
  PROCESS= '# name 1 = t090C: Temperature [ITS-90, deg C]',
  PROCESS= '# name 2 = t190C: Temperature, 2 [ITS-90, deg C]',
  PROCESS= '# name 3 = c0mS/cm: Conductivity [mS/cm]',
  PROCESS= '# name 4 = c1mS/cm: Conductivity, 2 [mS/cm]',
  PROCESS= '# name 5 = modError: Modulo Error Count',
  PROCESS= '# name 6 = longitude: Longitude [deg]',
  PROCESS= '# name 7 = latitude: Latitude [deg]',
  PROCESS= '# name 8 = CStarTr0: Beam Transmission, WET Labs C-Star [%]',
  PROCESS= '# name 9 = flECO-AFL: Fluorescence, WET Labs ECO-AFL/FL [mg/m^3]',
  PROCESS= '# name 10 = ph: pH',
  PROCESS= '# name 11 = par: PAR/Irradiance, Biospherical/Licor',
  PROCESS= '# name 12 = sfdSM: Seafloor depth [salt water, m]',
  PROCESS= '# name 13 = pumps: Pump Status',
  PROCESS= '# name 14 = timeM: Time, Elapsed [minutes]',
  PROCESS= '# name 15 = sbeox0V: Oxygen raw, SBE 43 [V]',
  PROCESS= '# name 16 = v1: Voltage 1',
  PROCESS= '# name 17 = v2: Voltage 2',
  PROCESS= '# name 18 = v3: Voltage 3',
  PROCESS= '# name 19 = sal00: Salinity, Practical [PSU]',
  PROCESS= '# name 20 = sal11: Salinity, Practical, 2 [PSU]',
  PROCESS= '# name 21 = sbeox0ML/L: Oxygen, SBE 43 [ml/l], WS = 2',
  PROCESS= '# name 22 = sbeox0Mm/L: Oxygen, SBE 43 [umol/l], WS = 2',
  PROCESS= '# name 23 = sigma-t00: Density [sigma-t, kg/m^3 ]',
  PROCESS= '# name 24 = sigma-é00: Density [sigma-theta, kg/m^3]',
  PROCESS= '# name 25 = sigma-t11: Density, 2 [sigma-t, kg/m^3 ]',
  PROCESS= '# name 26 = sigma-é11: Density, 2 [sigma-theta, kg/m^3]',
  PROCESS= '# name 27 = dz/dtM: Descent Rate [m/s], WS = 2',
  PROCESS= '# name 28 = flag: flag',
  PROCESS= '# span 0 =      0.500,     78.500',
  PROCESS= '# span 1 =     5.2711,    13.4480',
  PROCESS= '# span 2 =     5.2758,    13.6944',
  PROCESS= '# span 3 =  19.941193,  27.345350',
  PROCESS= '# span 4 =  19.507207,  27.346769',
  PROCESS= '# span 5 =          0,          0',
  PROCESS= '# span 6 =  -69.88040,  -69.87998',
  PROCESS= '# span 7 =   48.21988,   48.22006',
  PROCESS= '# span 8 =    76.0137,    95.3439',
  PROCESS= '# span 9 =     0.2728,     1.2594',
  PROCESS= '# span 10 =      7.753,      7.898',
  PROCESS= '# span 11 = 5.8501e-02, 5.8501e-02',
  PROCESS= '# span 12 =     77.562,     87.834',
  PROCESS= '# span 13 =          1,          1',
  PROCESS= '# span 14 =     1.5360,     9.8344',
  PROCESS= '# span 15 =     2.3281,     2.6101',
  PROCESS= '# span 16 =     2.7423,     2.7790',
  PROCESS= '# span 17 =     0.0219,     0.0614',
  PROCESS= '# span 18 =     3.4841,     4.3688',
  PROCESS= '# span 19 =    15.6505,    27.6635',
  PROCESS= '# span 20 =    15.1796,    27.6606',
  PROCESS= '# span 21 =     6.4448,     6.6850',
  PROCESS= '# span 22 =    287.825,    298.552',
  PROCESS= '# span 23 =    11.3818,    21.8378',
  PROCESS= '# span 24 =    11.3818,    21.8383',
  PROCESS= '# span 25 =    10.9786,    21.8350',
  PROCESS= '# span 26 =    10.9786,    21.8355',
  PROCESS= '# span 27 =     -0.730,      0.663',
  PROCESS= '# span 28 = 0.0000e+00, 0.0000e+00',
  PROCESS= '# interval = decibars: 0.5',
  PROCESS= '# start_time = Jul 11 2023 23:57:10 [System UpLoad Time]',
  PROCESS= '# bad_flag = -9.990e-29',
  PROCESS= '# <Sensors count=\"13\" >',
  PROCESS= '#   <sensor Channel=\"1\" >',
  PROCESS= '#     <!-- Frequency 0, Temperature -->',
  PROCESS= '#     <TemperatureSensor SensorID=\"55\" >',
  PROCESS= '#       <SerialNumber>5769</SerialNumber>',
  PROCESS= '#       <CalibrationDate>2023-03-14</CalibrationDate>',
  PROCESS= '#       <UseG_J>1</UseG_J>',
  PROCESS= '#       <A>0.00000000e+000</A>',
  PROCESS= '#       <B>0.00000000e+000</B>',
  PROCESS= '#       <C>0.00000000e+000</C>',
  PROCESS= '#       <D>0.00000000e+000</D>',
  PROCESS= '#       <F0_Old>0.000</F0_Old>',
  PROCESS= '#       <G>4.30758385e-003</G>',
  PROCESS= '#       <H>6.24923426e-004</H>',
  PROCESS= '#       <I>1.93163880e-005</I>',
  PROCESS= '#       <J>1.44283417e-006</J>',
  PROCESS= '#       <F0>1000.000</F0>',
  PROCESS= '#       <Slope>1.00000000</Slope>',
  PROCESS= '#       <Offset>0.0000</Offset>',
  PROCESS= '#     </TemperatureSensor>',
  PROCESS= '#   </sensor>',
  PROCESS= '#   <sensor Channel=\"2\" >',
  PROCESS= '#     <!-- Frequency 1, Conductivity -->',
  PROCESS= '#     <ConductivitySensor SensorID=\"3\" >',
  PROCESS= '#       <SerialNumber>4244</SerialNumber>',
  PROCESS= '#       <CalibrationDate>2023-03-31</CalibrationDate>',
  PROCESS= '#       <UseG_J>1</UseG_J>',
  PROCESS= '#       <!-- Cell const and series R are applicable only for wide range sensors. -->',
  PROCESS= '#       <SeriesR>0.0000</SeriesR>',
  PROCESS= '#       <CellConst>2000.0000</CellConst>',
  PROCESS= '#       <ConductivityType>0</ConductivityType>',
  PROCESS= '#       <Coefficients equation=\"0\" >',
  PROCESS= '#         <A>0.00000000e+000</A>',
  PROCESS= '#         <B>0.00000000e+000</B>',
  PROCESS= '#         <C>0.00000000e+000</C>',
  PROCESS= '#         <D>0.00000000e+000</D>',
  PROCESS= '#         <M>0.0</M>',
  PROCESS= '#         <CPcor>-9.57000000e-008</CPcor>',
  PROCESS= '#       </Coefficients>',
  PROCESS= '#       <Coefficients equation=\"1\" >',
  PROCESS= '#         <G>-9.88694765e+000</G>',
  PROCESS= '#         <H>1.37070078e+000</H>',
  PROCESS= '#         <I>-2.34724804e-003</I>',
  PROCESS= '#         <J>2.55488112e-004</J>',
  PROCESS= '#         <CPcor>-9.57000000e-008</CPcor>',
  PROCESS= '#         <CTcor>3.2500e-006</CTcor>',
  PROCESS= '#         <!-- WBOTC not applicable unless ConductivityType = 1. -->',
  PROCESS= '#         <WBOTC>0.00000000e+000</WBOTC>',
  PROCESS= '#       </Coefficients>',
  PROCESS= '#       <Slope>1.00000000</Slope>',
  PROCESS= '#       <Offset>0.00000</Offset>',
  PROCESS= '#     </ConductivitySensor>',
  PROCESS= '#   </sensor>',
  PROCESS= '#   <sensor Channel=\"3\" >',
  PROCESS= '#     <!-- Frequency 2, Pressure, Digiquartz with TC -->',
  PROCESS= '#     <PressureSensor SensorID=\"45\" >',
  PROCESS= '#       <SerialNumber>1168</SerialNumber>',
  PROCESS= '#       <CalibrationDate>2023-03-03</CalibrationDate>',
  PROCESS= '#       <C1>-8.664850e+003</C1>',
  PROCESS= '#       <C2>-1.495314e-001</C2>',
  PROCESS= '#       <C3>2.343420e-003</C3>',
  PROCESS= '#       <D1>5.131200e-002</D1>',
  PROCESS= '#       <D2>0.000000e+000</D2>',
  PROCESS= '#       <T1>3.039627e+001</T1>',
  PROCESS= '#       <T2>-4.605810e-004</T2>',
  PROCESS= '#       <T3>3.338000e-006</T3>',
  PROCESS= '#       <T4>3.648380e-009</T4>',
  PROCESS= '#       <Slope>0.99995620</Slope>',
  PROCESS= '#       <Offset>-3.03723</Offset>',
  PROCESS= '#       <T5>0.000000e+000</T5>',
  PROCESS= '#       <AD590M>1.285600e-002</AD590M>',
  PROCESS= '#       <AD590B>-9.232086e+000</AD590B>',
  PROCESS= '#     </PressureSensor>',
  PROCESS= '#   </sensor>',
  PROCESS= '#   <sensor Channel=\"4\" >',
  PROCESS= '#     <!-- Frequency 3, Temperature, 2 -->',
  PROCESS= '#     <TemperatureSensor SensorID=\"55\" >',
  PROCESS= '#       <SerialNumber>6622</SerialNumber>',
  PROCESS= '#       <CalibrationDate>2022-08-06</CalibrationDate>',
  PROCESS= '#       <UseG_J>1</UseG_J>',
  PROCESS= '#       <A>0.00000000e+000</A>',
  PROCESS= '#       <B>0.00000000e+000</B>',
  PROCESS= '#       <C>0.00000000e+000</C>',
  PROCESS= '#       <D>0.00000000e+000</D>',
  PROCESS= '#       <F0_Old>0.000</F0_Old>',
  PROCESS= '#       <G>4.32612945e-003</G>',
  PROCESS= '#       <H>6.38997606e-004</H>',
  PROCESS= '#       <I>2.17826466e-005</I>',
  PROCESS= '#       <J>2.01541785e-006</J>',
  PROCESS= '#       <F0>1000.000</F0>',
  PROCESS= '#       <Slope>1.00000000</Slope>',
  PROCESS= '#       <Offset>0.0000</Offset>',
  PROCESS= '#     </TemperatureSensor>',
  PROCESS= '#   </sensor>',
  PROCESS= '#   <sensor Channel=\"5\" >',
  PROCESS= '#     <!-- Frequency 4, Conductivity, 2 -->',
  PROCESS= '#     <ConductivitySensor SensorID=\"3\" >',
  PROCESS= '#       <SerialNumber>6090</SerialNumber>',
  PROCESS= '#       <CalibrationDate>2022-08-05</CalibrationDate>',
  PROCESS= '#       <UseG_J>1</UseG_J>',
  PROCESS= '#       <!-- Cell const and series R are applicable only for wide range sensors. -->',
  PROCESS= '#       <SeriesR>0.0000</SeriesR>',
  PROCESS= '#       <CellConst>2000.0000</CellConst>',
  PROCESS= '#       <ConductivityType>0</ConductivityType>',
  PROCESS= '#       <Coefficients equation=\"0\" >',
  PROCESS= '#         <A>0.00000000e+000</A>',
  PROCESS= '#         <B>0.00000000e+000</B>',
  PROCESS= '#         <C>0.00000000e+000</C>',
  PROCESS= '#         <D>0.00000000e+000</D>',
  PROCESS= '#         <M>0.0</M>',
  PROCESS= '#         <CPcor>-9.57000000e-008</CPcor>',
  PROCESS= '#       </Coefficients>',
  PROCESS= '#       <Coefficients equation=\"1\" >',
  PROCESS= '#         <G>-1.01645829e+001</G>',
  PROCESS= '#         <H>1.59071415e+000</H>',
  PROCESS= '#         <I>-3.20077302e-003</I>',
  PROCESS= '#         <J>3.42191272e-004</J>',
  PROCESS= '#         <CPcor>-9.57000000e-008</CPcor>',
  PROCESS= '#         <CTcor>3.2500e-006</CTcor>',
  PROCESS= '#         <!-- WBOTC not applicable unless ConductivityType = 1. -->',
  PROCESS= '#         <WBOTC>0.00000000e+000</WBOTC>',
  PROCESS= '#       </Coefficients>',
  PROCESS= '#       <Slope>1.00000000</Slope>',
  PROCESS= '#       <Offset>0.00000</Offset>',
  PROCESS= '#     </ConductivitySensor>',
  PROCESS= '#   </sensor>',
  PROCESS= '#   <sensor Channel=\"6\" >',
  PROCESS= '#     <!-- A/D voltage 0, Oxygen, SBE 43 -->',
  PROCESS= '#     <OxygenSensor SensorID=\"38\" >',
  PROCESS= '#       <SerialNumber>2766</SerialNumber>',
  PROCESS= '#       <CalibrationDate>2023-03-25</CalibrationDate>',
  PROCESS= '#       <Use2007Equation>1</Use2007Equation>',
  PROCESS= '#       <CalibrationCoefficients equation=\"0\" >',
  PROCESS= '#         <!-- Coefficients for Owens-Millard equation. -->',
  PROCESS= '#         <Boc>0.0000</Boc>',
  PROCESS= '#         <Soc>0.0000e+000</Soc>',
  PROCESS= '#         <offset>0.0000</offset>',
  PROCESS= '#         <Pcor>0.00e+000</Pcor>',
  PROCESS= '#         <Tcor>0.0000</Tcor>',
  PROCESS= '#         <Tau>0.0</Tau>',
  PROCESS= '#       </CalibrationCoefficients>',
  PROCESS= '#       <CalibrationCoefficients equation=\"1\" >',
  PROCESS= '#         <!-- Coefficients for Sea-Bird equation - SBE calibration in 2007 and later. -->',
  PROCESS= '#         <Soc>4.8140e-001</Soc>',
  PROCESS= '#         <offset>-0.5019</offset>',
  PROCESS= '#         <A>-3.4501e-003</A>',
  PROCESS= '#         <B> 1.9177e-004</B>',
  PROCESS= '#         <C>-3.3396e-006</C>',
  PROCESS= '#         <D0> 2.5826e+000</D0>',
  PROCESS= '#         <D1> 1.92634e-004</D1>',
  PROCESS= '#         <D2>-4.64803e-002</D2>',
  PROCESS= '#         <E> 3.6000e-002</E>',
  PROCESS= '#         <Tau20> 1.2500</Tau20>',
  PROCESS= '#         <H1>-3.3000e-002</H1>',
  PROCESS= '#         <H2> 5.0000e+003</H2>',
  PROCESS= '#         <H3> 1.4500e+003</H3>',
  PROCESS= '#       </CalibrationCoefficients>',
  PROCESS= '#     </OxygenSensor>',
  PROCESS= '#   </sensor>',
  PROCESS= '#   <sensor Channel=\"7\" >',
  PROCESS= '#     <!-- A/D voltage 1, pH -->',
  PROCESS= '#     <pH_Sensor SensorID=\"43\" >',
  PROCESS= '#       <SerialNumber>1078</SerialNumber>',
  PROCESS= '#       <CalibrationDate>2023-04-13</CalibrationDate>',
  PROCESS= '#       <Slope>4.6486</Slope>',
  PROCESS= '#       <Offset>2.5487</Offset>',
  PROCESS= '#     </pH_Sensor>',
  PROCESS= '#   </sensor>',
  PROCESS= '#   <sensor Channel=\"8\" >',
  PROCESS= '#     <!-- A/D voltage 2, Fluorometer, WET Labs ECO-AFL/FL -->',
  PROCESS= '#     <FluoroWetlabECO_AFL_FL_Sensor SensorID=\"20\" >',
  PROCESS= '#       <SerialNumber>FLRT-3363</SerialNumber>',
  PROCESS= '#       <CalibrationDate>2023-01-25</CalibrationDate>',
  PROCESS= '#       <ScaleFactor>2.50000000e+001</ScaleFactor>',
  PROCESS= '#       <!-- Dark output -->',
  PROCESS= '#       <Vblank>0.0110</Vblank>',
  PROCESS= '#     </FluoroWetlabECO_AFL_FL_Sensor>',
  PROCESS= '#   </sensor>',
  PROCESS= '#   <sensor Channel=\"9\" >',
  PROCESS= '#     <!-- A/D voltage 3, Transmissometer, WET Labs C-Star -->',
  PROCESS= '#     <WET_LabsCStar SensorID=\"71\" >',
  PROCESS= '#       <SerialNumber>CST-1628PR</SerialNumber>',
  PROCESS= '#       <CalibrationDate>2023-04-14</CalibrationDate>',
  PROCESS= '#       <M>21.8490</M>',
  PROCESS= '#       <B>-0.1090</B>',
  PROCESS= '#       <PathLength>0.250</PathLength>',
  PROCESS= '#     </WET_LabsCStar>',
  PROCESS= '#   </sensor>',
  PROCESS= '#   <sensor Channel=\"10\" >',
  PROCESS= '#     <!-- A/D voltage 4, Altimeter -->',
  PROCESS= '#     <AltimeterSensor SensorID=\"0\" >',
  PROCESS= '#       <SerialNumber>61114</SerialNumber>',
  PROCESS= '#       <CalibrationDate></CalibrationDate>',
  PROCESS= '#       <ScaleFactor>15.000</ScaleFactor>',
  PROCESS= '#       <Offset>0.000</Offset>',
  PROCESS= '#     </AltimeterSensor>',
  PROCESS= '#   </sensor>',
  PROCESS= '#   <sensor Channel=\"11\" >',
  PROCESS= '#     <!-- A/D voltage 5, PAR/Irradiance, Biospherical/Licor -->',
  PROCESS= '#     <PAR_BiosphericalLicorChelseaSensor SensorID=\"42\" >',
  PROCESS= '#       <SerialNumber>70455</SerialNumber>',
  PROCESS= '#       <CalibrationDate>2023-01-25</CalibrationDate>',
  PROCESS= '#       <M>1.00000000</M>',
  PROCESS= '#       <B>0.00000000</B>',
  PROCESS= '#       <CalibrationConstant>19455000000.00000000</CalibrationConstant>',
  PROCESS= '#       <Multiplier>1.00000000</Multiplier>',
  PROCESS= '#       <Offset>0.00710000</Offset>',
  PROCESS= '#     </PAR_BiosphericalLicorChelseaSensor>',
  PROCESS= '#   </sensor>',
  PROCESS= '#   <sensor Channel=\"12\" >',
  PROCESS= '#     <!-- A/D voltage 6, Free -->',
  PROCESS= '#   </sensor>',
  PROCESS= '#   <sensor Channel=\"13\" >',
  PROCESS= '#     <!-- A/D voltage 7, Free -->',
  PROCESS= '#   </sensor>',
  PROCESS= '# </Sensors>',
  PROCESS= '# datcnv_date = Jan 25 2024 10:27:51, 7.26.7.129 [datcnv_vars = 23]',
  PROCESS= '# datcnv_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\00_raw\\CTD_2023_13_033.hex E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\00_raw\\CTD_2023_13_033.XMLCON',
  PROCESS= '# datcnv_skipover = 0',
  PROCESS= '# datcnv_ox_hysteresis_correction = yes',
  PROCESS= '# datcnv_ox_tau_correction = yes',
  PROCESS= '# wildedit_date = Mar 27 2024 12:11:51, 7.26.7.129',
  PROCESS= '# wildedit_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\01_datCnv\\newcnv\\CTD_2023_13_033.cnv',
  PROCESS= '# wildedit_pass1_nstd = 2.0',
  PROCESS= '# wildedit_pass2_nstd = 20.0',
  PROCESS= '# wildedit_pass2_mindelta = 0.000e+000',
  PROCESS= '# wildedit_npoint = 100',
  PROCESS= '# wildedit_vars = prDM t090C t190C c0mS/cm c1mS/cm CStarTr0 ph par sbeox0V v1 v3',
  PROCESS= '# wildedit_excl_bad_scans = yes',
  PROCESS= '# filter_date = Mar 27 2024 12:13:33, 7.26.7.129',
  PROCESS= '# filter_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv',
  PROCESS= '# filter_low_pass_tc_A = 0.030',
  PROCESS= '# filter_low_pass_tc_B = 0.150',
  PROCESS= '# filter_low_pass_A_vars =',
  PROCESS= '# filter_low_pass_B_vars = prDM',
  PROCESS= '# alignctd_date = Mar 27 2024 12:15:32, 7.26.7.129',
  PROCESS= '# alignctd_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv',
  PROCESS= '# alignctd_adv = sbeox0V 0.500',
  PROCESS= '# celltm_date = Mar 27 2024 12:20:34, 7.26.7.129',
  PROCESS= '# celltm_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv',
  PROCESS= '# celltm_alpha = 0.0300, 0.0300',
  PROCESS= '# celltm_tau = 7.0000, 7.0000',
  PROCESS= '# celltm_temp_sensor_use_for_cond = primary, secondary',
  PROCESS= '# loopedit_date = Mar 27 2024 12:22:07, 7.26.7.129',
  PROCESS= '# loopedit_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv',
  PROCESS= '# loopedit_minVelocity = 0.200',
  PROCESS= '# loopedit_surfaceSoak: do not remove',
  PROCESS= '# loopedit_excl_bad_scans = yes',
  PROCESS= '# strip_date = Mar 27 2024 12:23:51, 7.26.7.129',
  PROCESS= '# strip_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv',
  PROCESS= '# Derive_date = Mar 27 2024 12:25:21, 7.26.7.129 [derive_vars = 9]',
  PROCESS= '# Derive_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.XMLCON',
  PROCESS= '# derive_time_window_docdt = seconds: 2',
  PROCESS= '# derive_ox_tau_correction = yes',
  PROCESS= '# derive_time_window_dzdt = seconds: 2',
  PROCESS= '# binavg_date = Mar 27 2024 12:28:03, 7.26.7.129',
  PROCESS= '# binavg_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\03_derive\\CTD_2023_13_033.cnv',
  PROCESS= '# binavg_bintype = decibars',
  PROCESS= '# binavg_binsize = 0.5',
  PROCESS= '# binavg_excl_bad_scans = yes',
  PROCESS= '# binavg_skipover = 0',
  PROCESS= '# binavg_omit = 0',
  PROCESS= '# binavg_min_scans_bin = 1',
  PROCESS= '# binavg_max_scans_bin = 2147483647',
  PROCESS= '# binavg_surface_bin = no, min = 0.000, max = 0.000, value = 0.000',
  PROCESS= '# file_type = ascii',
  PROCESS= '*END*',
HISTORY_HEADER,
  CREATION_DATE= '02-APR-2024 14:45:36.35',
  PROCESS= 'Conversion from CNV to ODF',
HISTORY_HEADER,
  CREATION_DATE= '02-APR-2024 14:46:20.69',
  PROCESS= 'Update metadata (organization, chief scientist, cruise description) for the cruise header',
HISTORY_HEADER,
  CREATION_DATE= '02-APR-2024 14:49:50.56',
  PROCESS= 'Update metadata (meteo. latitude, longitude, time, station name, sounding) for the event header',
HISTORY_HEADER,
  CREATION_DATE= '25-JUN-2024 11:58:23.73',
  PROCESS= 'Add a simple offset on the data (FLOR_01) to deacrease the background noise.',
  PROCESS= 'CTD fluorescence (FLOR_01) calibrated with field titrations.',
  PROCESS= 'Performed a small normalization to the beam transmission data (TRAN_01).',
HISTORY_HEADER,
  CREATION_DATE= '26-JUN-2024 09:55:50.29',
  PROCESS= 'The downcast profiles were choosen for the QAQC..',
HISTORY_HEADER,
  CREATION_DATE= '26-JUN-2024 09:55:50.71',
  PROCESS= 'Performed a test to detect records with CTD pump off.',
HISTORY_HEADER,
  CREATION_DATE= '26-JUN-2024 09:55:51.06',
  PROCESS= 'Perform the GTSPP quality control.',
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Sea Pressure (sea surface - 0)',
  UNITS= 'decibars',
  CODE= 'PRES_01',
  NULL_VALUE= -9.900000E+01,
  PRINT_FIELD_WIDTH= 10,
  PRINT_DECIMAL_PLACES= 3,
  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
  MINIMUM_VALUE= 2,
  MAXIMUM_VALUE= 78.5,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Quality flag: Sea Pressure (sea surface - 0)',
  UNITS= 'none',
  CODE= 'QQQQ_01',
  NULL_VALUE= -9.900000E+01,
  PRINT_FIELD_WIDTH= 1,
  PRINT_DECIMAL_PLACES= 0,
  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
  MINIMUM_VALUE= 1,
  MAXIMUM_VALUE= 1,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Temperature (1990 scale)',
  UNITS= 'deg C',
  CODE= 'TE90_01',
  NULL_VALUE= -9.900000E+01,
  PRINT_FIELD_WIDTH= 10,
  PRINT_DECIMAL_PLACES= 4,
  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
  MINIMUM_VALUE= 5.2711,
  MAXIMUM_VALUE= 11.9568,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Quality flag: Temperature (1990 scale)',
  UNITS= 'none',
  CODE= 'QQQQ_02',
  NULL_VALUE= -9.900000E+01,
  PRINT_FIELD_WIDTH= 1,
  PRINT_DECIMAL_PLACES= 0,
  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
  MINIMUM_VALUE= 1,
  MAXIMUM_VALUE= 3,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Temperature (1990 scale)',
  UNITS= 'deg C',
  CODE= 'TE90_02',
  NULL_VALUE= -9.900000E+01,
  PRINT_FIELD_WIDTH= 10,
  PRINT_DECIMAL_PLACES= 4,
  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
  MINIMUM_VALUE= 5.2758,
  MAXIMUM_VALUE= 11.9332,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Quality flag: Temperature (1990 scale)',
  UNITS= 'none',
  CODE= 'QQQQ_03',
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  MAXIMUM_VALUE= 3,
  NUMBER_VALID= 154,
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PARAMETER_HEADER,
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  NAME= 'Light Transmission',
  UNITS= '%',
  CODE= 'TRAN_01',
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  ANGLE_OF_SECTION= 0.000000,
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  MINIMUM_VALUE= 83.8336,
  MAXIMUM_VALUE= 92.9819,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
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  MAXIMUM_VALUE= 1,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Fluorescence',
  UNITS= 'mg/m**3',
  CODE= 'FLOR_01',
  NULL_VALUE= -9.900000E+01,
  PRINT_FIELD_WIDTH= 10,
  PRINT_DECIMAL_PLACES= 4,
  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
  MINIMUM_VALUE= 0.49955,
  MAXIMUM_VALUE= 1.9432,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Quality flag: Fluorescence',
  UNITS= 'none',
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  NULL_VALUE= -9.900000E+01,
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  PRINT_DECIMAL_PLACES= 0,
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  MAXIMUM_VALUE= 1,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
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  NAME= 'Hydrogen Ion Concentration (pH)',
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  PRINT_DECIMAL_PLACES= 3,
  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
  MINIMUM_VALUE= 7.753,
  MAXIMUM_VALUE= 7.882,
  NUMBER_VALID= 119,
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PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Quality flag: Hydrogen Ion Concentration (pH)',
  UNITS= 'none',
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  PRINT_FIELD_WIDTH= 1,
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  MAXIMUM_VALUE= 9,
  NUMBER_VALID= 154,
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PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Photosynthetic Active Radiation',
  UNITS= 'ueinsteins/s/m**2',
  CODE= 'PSAR_01',
  NULL_VALUE= -9.900000E+01,
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  PRINT_DECIMAL_PLACES= 3,
  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
  MINIMUM_VALUE= NaN,
  MAXIMUM_VALUE= NaN,
  NUMBER_VALID= 0,
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PARAMETER_HEADER,
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  NAME= 'Practical Salinity',
  UNITS= 'psu',
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  PRINT_DECIMAL_PLACES= 4,
  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
  MINIMUM_VALUE= 18.3702,
  MAXIMUM_VALUE= 27.6635,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
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  NAME= 'Quality flag: Practical Salinity',
  UNITS= 'none',
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  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
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  MAXIMUM_VALUE= 3,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Practical Salinity',
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  PRINT_FIELD_WIDTH= 10,
  PRINT_DECIMAL_PLACES= 4,
  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
  MINIMUM_VALUE= 18.3955,
  MAXIMUM_VALUE= 27.6606,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
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  NAME= 'Quality flag: Practical Salinity',
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  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Dissolved Oxygen',
  UNITS= 'µM',
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  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
  MINIMUM_VALUE= 279.0749,
  MAXIMUM_VALUE= 288.6179,
  NUMBER_VALID= 150,
  NUMBER_NULL= 4,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Quality flag: Dissolved Oxygen',
  UNITS= 'none',
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  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Sigma-T (rho(s, t, 0)-1000)',
  UNITS= 'kg/m^3',
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  PRINT_DECIMAL_PLACES= 4,
  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
  MINIMUM_VALUE= 13.7187,
  MAXIMUM_VALUE= 21.8378,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
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  NAME= 'Quality flag: Sigma-T (rho(s, t, 0)-1000)',
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  PRINT_DECIMAL_PLACES= 0,
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  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Sigma-Theta (rho(s, Theta, 0)-1000)',
  UNITS= 'kg/m^3',
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  PRINT_FIELD_WIDTH= 10,
  PRINT_DECIMAL_PLACES= 4,
  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
  MINIMUM_VALUE= 13.7187,
  MAXIMUM_VALUE= 21.8383,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Quality flag: Sigma-Theta (rho(s, Theta, 0)-1000)',
  UNITS= 'none',
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  PRINT_FIELD_WIDTH= 1,
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  DEPTH= 0.000000 ,
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  MAXIMUM_VALUE= 3,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Sigma-T (rho(s, t, 0)-1000)',
  UNITS= 'kg/m^3',
  CODE= 'SIGT_02',
  NULL_VALUE= -9.900000E+01,
  PRINT_FIELD_WIDTH= 10,
  PRINT_DECIMAL_PLACES= 4,
  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
  MINIMUM_VALUE= 13.7419,
  MAXIMUM_VALUE= 21.835,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Quality flag: Sigma-T (rho(s, t, 0)-1000)',
  UNITS= 'none',
  CODE= 'QQQQ_13',
  NULL_VALUE= -9.900000E+01,
  PRINT_FIELD_WIDTH= 1,
  PRINT_DECIMAL_PLACES= 0,
  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
  MINIMUM_VALUE= 1,
  MAXIMUM_VALUE= 3,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Sigma-Theta (rho(s, Theta, 0)-1000)',
  UNITS= 'kg/m^3',
  CODE= 'SIGP_02',
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  PRINT_FIELD_WIDTH= 10,
  PRINT_DECIMAL_PLACES= 4,
  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
  DEPTH= 0.000000 ,
  MINIMUM_VALUE= 13.7419,
  MAXIMUM_VALUE= 21.8355,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Quality flag: Sigma-Theta (rho(s, Theta, 0)-1000)',
  UNITS= 'none',
  CODE= 'QQQQ_14',
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  PRINT_FIELD_WIDTH= 1,
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  MAXIMUM_VALUE= 3,
  NUMBER_VALID= 154,
  NUMBER_NULL= 0,
PARAMETER_HEADER,
  TYPE= 'DOUB',
  NAME= 'Quality flag: QCFF',
  UNITS= 'none',
  CODE= 'QCFF_01',
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  PRINT_FIELD_WIDTH= 4,
  PRINT_DECIMAL_PLACES= 0,
  ANGLE_OF_SECTION= 0.000000,
  MAGNETIC_VARIATION= 0.000000,
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RECORD_HEADER,
  NUM_CALIBRATION= 10,
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  NUM_HISTORY= 8,
  NUM_CYCLE= 154,
  NUM_PARAM= 28,
 -- DATA -- ";
    String original_odf_header_json 
"{
\"ODF_HEADER\": {
\"FILE_SPECIFICATION\": \"CTD_2023_13_033_1_DN\"
},
\"CRUISE_HEADER\": {
\"COUNTRY_INSTITUTE_CODE\": \"18QO\",
\"CRUISE_NUMBER\": \"2023_13\",
\"ORGANIZATION\": \"RQM/QO\",
\"CHIEF_SCIENTIST\": \"Maude Boissonault, Ludovic Pascal\",
\"START_DATE\": \"2023-07-05 12:00:00+00:00\",
\"END_DATE\": \"2023-07-11 12:00:00+00:00\",
\"PLATFORM\": \"Coriolis\",
\"CRUISE_NAME\": \"2023_13_MAP\",
\"CRUISE_DESCRIPTION\": \"MAP: mission annuelle PLAIN\"
},
\"EVENT_HEADER\": {
\"DATA_TYPE\": \"CTD\",
\"EVENT_NUMBER\": 33,
\"EVENT_STATION\": \"ST20\",
\"EVENT_QUALIFIER1\": 1,
\"EVENT_QUALIFIER2\": \"DN\",
\"CREATION_DATE\": \"2024-06-26 16:24:43.580000+00:00\",
\"ORIG_CREATION_DATE\": \"2024-01-25 10:27:51+00:00\",
\"START_DATE_TIME\": \"2023-07-11 23:57:10+00:00\",
\"END_DATE_TIME\": \"2023-07-12 00:07:00+00:00\",
\"INITIAL_LATITUDE\": 48.22,
\"INITIAL_LONGITUDE\": -69.8804,
\"END_LATITUDE\": 48.2199,
\"END_LONGITUDE\": -69.88031,
\"MIN_DEPTH\": 1.98,
\"MAX_DEPTH\": 77.82,
\"SAMPLING_INTERVAL\": -99.0,
\"SOUNDING\": 85.79,
\"DEPTH_OFF_BOTTOM\": 7.97,
\"EVENT_COMMENTS\": null
},
\"METEO_HEADER\": {
\"AIR_TEMPERATURE\": 19.0,
\"ATMOSPHERIC_PRESSURE\": -99.0,
\"WIND_SPEED\": 9.77,
\"WIND_DIRECTION\": \"NaN\",
\"SEA_STATE\": 0,
\"CLOUD_COVER\": -99,
\"ICE_THICKNESS\": -99.0,
\"METEO_COMMENTS\": [
\"Air_Temperature: degrees C\",
\"Wind_Speed: m/s\",
\"Wind_Direction(0-360): True North degrees\",
\"Atmospheric_Pressure: hpa\",
\"Sea_State(0->9): WMO code table 3700\",
\"Cloud_Cover(0->9): WMO code table 2700\",
\"Ice_Thickness: m\"
]
},
\"INSTRUMENT_HEADER\": {
\"INST_TYPE\": \"Sea-Bird\",
\"MODEL\": \"SBE 9\",
\"SERIAL_NUMBER\": 5769,
\"DESCRIPTION\": \"CTD_2023_13_033.hex CTD_2023_13_033.XMLCON\"
},
\"QUALITY_HEADER\": [
{
\"QUALITY_DATE\": \"2024-06-26 14:59:43.740000+00:00\",
\"QUALITY_TESTS\": [
\"Test 1.1: GTSPP Platform Identification\",
\"Test 1.2: GTSPP Impossible Date/Time\",
\"Test 1.3: GTSPP Impossible Location\",
\"Test 1.4: GTSPP Position on Land\",
\"Test 1.5: GTSPP Impossible Speed\",
\"Test 1.6: GTSPP Impossible Sounding\",
\"Test 5.1: GTSPP Cruise Track Visual Inspection\",
\"Test 2.0: IML Minimum Descent Rate (2) (0.10m/s)\",
\"Test 2.1: GTSPP Global Impossible Parameter Values (4)\",
\"Test 2.2: GTSPP Regional Impossible Parameter Values (8)\",
\"Test 2.3: GTSPP Increasing Depth (16)\",
\"Test 2.4: GTSPP Profile Envelope (Temperature and Salinity) (32)\",
\"Test 2.6: GTSPP Freezing Point (128)\",
\"Test 2.7: GTSPP Spike in Temperature and Salinity (one point) (256)\",
\"Test 2.8: GTSPP Top and Bottom Spike in Temperature and Salinity (512)\",
\"Test 2.9: GTSPP Gradient in Temperature and Salinity (1024)\",
\"Test 2.10: GTSPP Density Inversion (point to point) (2048)\",
\"Test 2.11: IML Spike in Pressure, Temperature and Salinity (one point or more) (4096)\",
\"Test 3.5: IML Petrie Monthly Climatology (Temperature, Salinity and Sigma-T)\"
],
\"QUALITY_COMMENTS\": [
\"QCFF values are derived from tests of GTSPP stage 2\",
\"A quality flag modified by hand has a QCFF value of 1\"
]
}
],
\"GENERAL_CAL_HEADER\": [
{
\"PARAMETER_CODE\": \"PRES_01\",
\"CALIBRATION_TYPE\": \"PRES06\",
\"CALIBRATION_DATE\": \"2023-03-03 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2024-01-25 10:27:51+00:00\",
\"NUMBER_COEFFICIENTS\": 14,
\"COEFFICIENTS\": \"-8.66485000e+03  -1.49531400e-01  2.34342000e-03  5.13120000e-02  0.00000000e+00  3.03962700e+01  -4.60581000e-04  3.33800000e-06  3.64838000e-09  0.00000000e+00  1.28560000e-02  -9.23208600e+00  9.99956200e-01  -3.03723000e+00 \",
\"CALIBRATION_EQUATION\": [
\"U = C10*BIN-C11\",
\"T0=C0+C1*U+C2*U^2+C3*U^3+C4*^4\",
\"PRES={(C5+C6*U+C7*U^2)*(1-T0^2/T^2)*(1-(C8 + C9*U)*(1-T0^2/T^2))}*C12 + C13\",
\"U=temperature (deg C), BIN=binary temperature, T=pressure period (usec), P=pressure (psia).\"
],
\"CALIBRATION_COMMENTS\": null
},
{
\"PARAMETER_CODE\": \"TE90_01\",
\"CALIBRATION_TYPE\": \"TEMP06\",
\"CALIBRATION_DATE\": \"2023-03-14 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2024-01-25 10:27:51+00:00\",
\"NUMBER_COEFFICIENTS\": 7,
\"COEFFICIENTS\": \"4.30758385e-03  6.24923426e-04  1.93163880e-05  1.44283417e-06  1.00000000e+03  1.00000000e+00  0.00000000e+00 \",
\"CALIBRATION_EQUATION\": \"[TE90 = (1/(C0 + C1*ln(C4/N) + C2*(ln(C4/N))^2 + C3*(ln(C4/N))^3) - 273.15)] * C5 + C6\",
\"CALIBRATION_COMMENTS\": \"Use g, h, i, j coefficients\"
},
{
\"PARAMETER_CODE\": \"TE90_02\",
\"CALIBRATION_TYPE\": \"TEMP06\",
\"CALIBRATION_DATE\": \"2022-08-06 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2024-01-25 10:27:51+00:00\",
\"NUMBER_COEFFICIENTS\": 7,
\"COEFFICIENTS\": \"4.32612945e-03  6.38997606e-04  2.17826466e-05  2.01541785e-06  1.00000000e+03  1.00000000e+00  0.00000000e+00 \",
\"CALIBRATION_EQUATION\": \"[TE90 = (1/(C0 + C1*ln(C4/N) + C2*(ln(C4/N))^2 + C3*(ln(C4/N))^3) - 273.15)] * C5 + C6\",
\"CALIBRATION_COMMENTS\": \"Use g, h, i, j coefficients\"
},
{
\"PARAMETER_CODE\": \"CNDC_01\",
\"CALIBRATION_TYPE\": \"COND04\",
\"CALIBRATION_DATE\": \"2023-03-31 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2024-01-25 10:27:51+00:00\",
\"NUMBER_COEFFICIENTS\": 8,
\"COEFFICIENTS\": \"-9.88694765e+00  1.37070078e+00  -2.34724804e-03  2.55488112e-04  3.25000000e-06  -9.57000000e-08  1.00000000e+00  0.00000000e+00 \",
\"CALIBRATION_EQUATION\": \"CNDC = ((C0 + C1*N^2 + C2*N^3 + C3*N^4)/(1+C4*TEMP+C5*PRES))*C6 + C7\",
\"CALIBRATION_COMMENTS\": [
\"Use g, h, i, j coefficients\",
\"Unit: Siemens/meter\"
]
},
{
\"PARAMETER_CODE\": \"CNDC_02\",
\"CALIBRATION_TYPE\": \"COND04\",
\"CALIBRATION_DATE\": \"2022-08-05 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2024-01-25 10:27:51+00:00\",
\"NUMBER_COEFFICIENTS\": 8,
\"COEFFICIENTS\": \"-1.01645829e+01  1.59071415e+00  -3.20077302e-03  3.42191272e-04  3.25000000e-06  -9.57000000e-08  1.00000000e+00  0.00000000e+00 \",
\"CALIBRATION_EQUATION\": \"CNDC = ((C0 + C1*N^2 + C2*N^3 + C3*N^4)/(1+C4*TEMP+C5*PRES))*C6 + C7\",
\"CALIBRATION_COMMENTS\": [
\"Use g, h, i, j coefficients\",
\"Unit: Siemens/meter\"
]
},
{
\"PARAMETER_CODE\": \"TRAN_01\",
\"CALIBRATION_TYPE\": \"TRANS03\",
\"CALIBRATION_DATE\": \"2023-04-14 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2024-01-25 10:27:51+00:00\",
\"NUMBER_COEFFICIENTS\": 2,
\"COEFFICIENTS\": \"-1.09000000e-01  2.18490000e+01 \",
\"CALIBRATION_EQUATION\": \"TRAN = C0 + C1*N\",
\"CALIBRATION_COMMENTS\": [
\"Path Length [m]: 0.250\",
\"The data have been normalized\"
]
},
{
\"PARAMETER_CODE\": \"FLOR_01\",
\"CALIBRATION_TYPE\": \"FLUO06\",
\"CALIBRATION_DATE\": \"2023-01-25 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2024-01-25 10:27:51+00:00\",
\"NUMBER_COEFFICIENTS\": 2,
\"COEFFICIENTS\": \"1.10000000e-02  2.50000000e+01 \",
\"CALIBRATION_EQUATION\": \"FLOR = (N - C0)*C1\",
\"CALIBRATION_COMMENTS\": [
\"Add an 0.091 offset.\",
null,
null,
\"CTD fluorescence calibrated with field titrations.\",
\"Calculate a new scale factor\",
\"new scale factor = 45.8300\"
]
},
{
\"PARAMETER_CODE\": \"PHPH_01\",
\"CALIBRATION_TYPE\": \"PHPH\",
\"CALIBRATION_DATE\": \"2023-04-13 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2024-01-25 10:27:51+00:00\",
\"NUMBER_COEFFICIENTS\": 2,
\"COEFFICIENTS\": \"2.54870000e+00  4.64860000e+00 \",
\"CALIBRATION_EQUATION\": \"PHPH = 7+(N-C1)/((TEMP-273.15)*1.98416e-4*C0)\",
\"CALIBRATION_COMMENTS\": null
},
{
\"PARAMETER_CODE\": \"PSAR_01\",
\"CALIBRATION_TYPE\": \"PSAR01\",
\"CALIBRATION_DATE\": \"2023-01-25 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2024-01-25 10:27:51+00:00\",
\"NUMBER_COEFFICIENTS\": 5,
\"COEFFICIENTS\": \"1.00000000e+00  1.94550000e+10  0.00000000e+00  1.00000000e+00  7.10000000e-03 \",
\"CALIBRATION_EQUATION\": \"PSAR = (C0/C1)*(10^9*10^((N-C2)/C3)) + C4\",
\"CALIBRATION_COMMENTS\": \"The sensor was not operational.\"
},
{
\"PARAMETER_CODE\": \"DOXY_01\",
\"CALIBRATION_TYPE\": \"OXY04\",
\"CALIBRATION_DATE\": \"2023-03-25 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2024-01-25 10:27:51+00:00\",
\"NUMBER_COEFFICIENTS\": 12,
\"COEFFICIENTS\": \"4.81400000e-01  -5.01900000e-01  1.25000000e+00  -3.45010000e-03  1.91770000e-04  -3.33960000e-06  3.60000000e-02  1.92634000e-04  -4.64803000e-02  -3.30000000e-02  5.00000000e+03  1.45000000e+03 \",
\"CALIBRATION_EQUATION\": \"DOXY = C0*(OXV_ + C1 + C2*dOXV_/dt) * OXSOL(TEMP,PSAL) * (1.0 + C3*TEMP + C4*TEMP^2 + C5*TEMP^3) * exp(C6*PRES/(TEMP-273.15)\",
\"CALIBRATION_COMMENTS\": [
\"Use Sea-Bird equation\",
\"C7 = D1 and C8 = D2 used in the calculation of tau.\",
\"C9 = H1, C10 = H2 and C11 = H3 are the new hysteresis correction terms.\",
\"CTD O2 calibrated with Winkler titrations.\",
\"Use a regression\",
\"slope=0.95900000 intercept=3.05070000\"
]
}
],
\"HISTORY_HEADER\": [
{
\"CREATION_DATE\": \"2024-03-27 12:28:03+00:00\",
\"PROCESS\": [
\"* Sea-Bird SBE 9 Data File:\",
\"* FileName = C:\\\\CTD911plus\\\\CTDdocument\\\\CTDdata\\\\MAP2023\\\\MAP2023033.hex\",
\"* Software Version Seasave V 7.26.7.121\",
\"* Temperature SN = 5769\",
\"* Conductivity SN = 4244\",
\"* Number of Bytes Per Scan = 41\",
\"* Number of Voltage Words = 4\",
\"* Number of Scans Averaged by the Deck Unit = 1\",
\"* System UpLoad Time = Jul 11 2023 23:57:10\",
\"* NMEA Latitude = 48 14.25 N\",
\"* NMEA Longitude = 069 57.54 W\",
\"* NMEA UTC (Time) = Jul 11 2023 23:24:48\",
\"* Store Lat/Lon Data = Append to Every Scan\",
\"* SBE 11plus V 5.1e\",
\"* number of scans to average = 1\",
\"* pressure baud rate = 9600\",
\"* NMEA baud rate = 4800\",
\"* GPIB address = 1\",
\"* advance primary conductivity  0.073 seconds\",
\"* advance secondary conductivity  0.073 seconds\",
\"* S>\",
\"** Coriolis II\",
\"** MAP2023\",
\"** mission Plaine RQM\",
\"** Chef de mission Maude Boissonneault et Ludovic Pascal\",
\"* System UTC = Jul 11 2023 23:57:10\",
\"# nquan = 29\",
\"# nvalues = 310\",
\"# units = specified\",
\"# name 0 = prDM: Pressure, Digiquartz [db]\",
\"# name 1 = t090C: Temperature [ITS-90, deg C]\",
\"# name 2 = t190C: Temperature, 2 [ITS-90, deg C]\",
\"# name 3 = c0mS/cm: Conductivity [mS/cm]\",
\"# name 4 = c1mS/cm: Conductivity, 2 [mS/cm]\",
\"# name 5 = modError: Modulo Error Count\",
\"# name 6 = longitude: Longitude [deg]\",
\"# name 7 = latitude: Latitude [deg]\",
\"# name 8 = CStarTr0: Beam Transmission, WET Labs C-Star [%]\",
\"# name 9 = flECO-AFL: Fluorescence, WET Labs ECO-AFL/FL [mg/m^3]\",
\"# name 10 = ph: pH\",
\"# name 11 = par: PAR/Irradiance, Biospherical/Licor\",
\"# name 12 = sfdSM: Seafloor depth [salt water, m]\",
\"# name 13 = pumps: Pump Status\",
\"# name 14 = timeM: Time, Elapsed [minutes]\",
\"# name 15 = sbeox0V: Oxygen raw, SBE 43 [V]\",
\"# name 16 = v1: Voltage 1\",
\"# name 17 = v2: Voltage 2\",
\"# name 18 = v3: Voltage 3\",
\"# name 19 = sal00: Salinity, Practical [PSU]\",
\"# name 20 = sal11: Salinity, Practical, 2 [PSU]\",
\"# name 21 = sbeox0ML/L: Oxygen, SBE 43 [ml/l], WS = 2\",
\"# name 22 = sbeox0Mm/L: Oxygen, SBE 43 [umol/l], WS = 2\",
\"# name 23 = sigma-t00: Density [sigma-t, kg/m^3 ]\",
\"# name 24 = sigma-é00: Density [sigma-theta, kg/m^3]\",
\"# name 25 = sigma-t11: Density, 2 [sigma-t, kg/m^3 ]\",
\"# name 26 = sigma-é11: Density, 2 [sigma-theta, kg/m^3]\",
\"# name 27 = dz/dtM: Descent Rate [m/s], WS = 2\",
\"# name 28 = flag: flag\",
\"# span 0 =      0.500,     78.500\",
\"# span 1 =     5.2711,    13.4480\",
\"# span 2 =     5.2758,    13.6944\",
\"# span 3 =  19.941193,  27.345350\",
\"# span 4 =  19.507207,  27.346769\",
\"# span 5 =          0,          0\",
\"# span 6 =  -69.88040,  -69.87998\",
\"# span 7 =   48.21988,   48.22006\",
\"# span 8 =    76.0137,    95.3439\",
\"# span 9 =     0.2728,     1.2594\",
\"# span 10 =      7.753,      7.898\",
\"# span 11 = 5.8501e-02, 5.8501e-02\",
\"# span 12 =     77.562,     87.834\",
\"# span 13 =          1,          1\",
\"# span 14 =     1.5360,     9.8344\",
\"# span 15 =     2.3281,     2.6101\",
\"# span 16 =     2.7423,     2.7790\",
\"# span 17 =     0.0219,     0.0614\",
\"# span 18 =     3.4841,     4.3688\",
\"# span 19 =    15.6505,    27.6635\",
\"# span 20 =    15.1796,    27.6606\",
\"# span 21 =     6.4448,     6.6850\",
\"# span 22 =    287.825,    298.552\",
\"# span 23 =    11.3818,    21.8378\",
\"# span 24 =    11.3818,    21.8383\",
\"# span 25 =    10.9786,    21.8350\",
\"# span 26 =    10.9786,    21.8355\",
\"# span 27 =     -0.730,      0.663\",
\"# span 28 = 0.0000e+00, 0.0000e+00\",
\"# interval = decibars: 0.5\",
\"# start_time = Jul 11 2023 23:57:10 [System UpLoad Time]\",
\"# bad_flag = -9.990e-29\",
\"# <Sensors count=\\\"13\\\" >\",
\"#   <sensor Channel=\\\"1\\\" >\",
\"#     <!-- Frequency 0, Temperature -->\",
\"#     <TemperatureSensor SensorID=\\\"55\\\" >\",
\"#       <SerialNumber>5769</SerialNumber>\",
\"#       <CalibrationDate>2023-03-14</CalibrationDate>\",
\"#       <UseG_J>1</UseG_J>\",
\"#       <A>0.00000000e+000</A>\",
\"#       <B>0.00000000e+000</B>\",
\"#       <C>0.00000000e+000</C>\",
\"#       <D>0.00000000e+000</D>\",
\"#       <F0_Old>0.000</F0_Old>\",
\"#       <G>4.30758385e-003</G>\",
\"#       <H>6.24923426e-004</H>\",
\"#       <I>1.93163880e-005</I>\",
\"#       <J>1.44283417e-006</J>\",
\"#       <F0>1000.000</F0>\",
\"#       <Slope>1.00000000</Slope>\",
\"#       <Offset>0.0000</Offset>\",
\"#     </TemperatureSensor>\",
\"#   </sensor>\",
\"#   <sensor Channel=\\\"2\\\" >\",
\"#     <!-- Frequency 1, Conductivity -->\",
\"#     <ConductivitySensor SensorID=\\\"3\\\" >\",
\"#       <SerialNumber>4244</SerialNumber>\",
\"#       <CalibrationDate>2023-03-31</CalibrationDate>\",
\"#       <UseG_J>1</UseG_J>\",
\"#       <!-- Cell const and series R are applicable only for wide range sensors. -->\",
\"#       <SeriesR>0.0000</SeriesR>\",
\"#       <CellConst>2000.0000</CellConst>\",
\"#       <ConductivityType>0</ConductivityType>\",
\"#       <Coefficients equation=\\\"0\\\" >\",
\"#         <A>0.00000000e+000</A>\",
\"#         <B>0.00000000e+000</B>\",
\"#         <C>0.00000000e+000</C>\",
\"#         <D>0.00000000e+000</D>\",
\"#         <M>0.0</M>\",
\"#         <CPcor>-9.57000000e-008</CPcor>\",
\"#       </Coefficients>\",
\"#       <Coefficients equation=\\\"1\\\" >\",
\"#         <G>-9.88694765e+000</G>\",
\"#         <H>1.37070078e+000</H>\",
\"#         <I>-2.34724804e-003</I>\",
\"#         <J>2.55488112e-004</J>\",
\"#         <CPcor>-9.57000000e-008</CPcor>\",
\"#         <CTcor>3.2500e-006</CTcor>\",
\"#         <!-- WBOTC not applicable unless ConductivityType = 1. -->\",
\"#         <WBOTC>0.00000000e+000</WBOTC>\",
\"#       </Coefficients>\",
\"#       <Slope>1.00000000</Slope>\",
\"#       <Offset>0.00000</Offset>\",
\"#     </ConductivitySensor>\",
\"#   </sensor>\",
\"#   <sensor Channel=\\\"3\\\" >\",
\"#     <!-- Frequency 2, Pressure, Digiquartz with TC -->\",
\"#     <PressureSensor SensorID=\\\"45\\\" >\",
\"#       <SerialNumber>1168</SerialNumber>\",
\"#       <CalibrationDate>2023-03-03</CalibrationDate>\",
\"#       <C1>-8.664850e+003</C1>\",
\"#       <C2>-1.495314e-001</C2>\",
\"#       <C3>2.343420e-003</C3>\",
\"#       <D1>5.131200e-002</D1>\",
\"#       <D2>0.000000e+000</D2>\",
\"#       <T1>3.039627e+001</T1>\",
\"#       <T2>-4.605810e-004</T2>\",
\"#       <T3>3.338000e-006</T3>\",
\"#       <T4>3.648380e-009</T4>\",
\"#       <Slope>0.99995620</Slope>\",
\"#       <Offset>-3.03723</Offset>\",
\"#       <T5>0.000000e+000</T5>\",
\"#       <AD590M>1.285600e-002</AD590M>\",
\"#       <AD590B>-9.232086e+000</AD590B>\",
\"#     </PressureSensor>\",
\"#   </sensor>\",
\"#   <sensor Channel=\\\"4\\\" >\",
\"#     <!-- Frequency 3, Temperature, 2 -->\",
\"#     <TemperatureSensor SensorID=\\\"55\\\" >\",
\"#       <SerialNumber>6622</SerialNumber>\",
\"#       <CalibrationDate>2022-08-06</CalibrationDate>\",
\"#       <UseG_J>1</UseG_J>\",
\"#       <A>0.00000000e+000</A>\",
\"#       <B>0.00000000e+000</B>\",
\"#       <C>0.00000000e+000</C>\",
\"#       <D>0.00000000e+000</D>\",
\"#       <F0_Old>0.000</F0_Old>\",
\"#       <G>4.32612945e-003</G>\",
\"#       <H>6.38997606e-004</H>\",
\"#       <I>2.17826466e-005</I>\",
\"#       <J>2.01541785e-006</J>\",
\"#       <F0>1000.000</F0>\",
\"#       <Slope>1.00000000</Slope>\",
\"#       <Offset>0.0000</Offset>\",
\"#     </TemperatureSensor>\",
\"#   </sensor>\",
\"#   <sensor Channel=\\\"5\\\" >\",
\"#     <!-- Frequency 4, Conductivity, 2 -->\",
\"#     <ConductivitySensor SensorID=\\\"3\\\" >\",
\"#       <SerialNumber>6090</SerialNumber>\",
\"#       <CalibrationDate>2022-08-05</CalibrationDate>\",
\"#       <UseG_J>1</UseG_J>\",
\"#       <!-- Cell const and series R are applicable only for wide range sensors. -->\",
\"#       <SeriesR>0.0000</SeriesR>\",
\"#       <CellConst>2000.0000</CellConst>\",
\"#       <ConductivityType>0</ConductivityType>\",
\"#       <Coefficients equation=\\\"0\\\" >\",
\"#         <A>0.00000000e+000</A>\",
\"#         <B>0.00000000e+000</B>\",
\"#         <C>0.00000000e+000</C>\",
\"#         <D>0.00000000e+000</D>\",
\"#         <M>0.0</M>\",
\"#         <CPcor>-9.57000000e-008</CPcor>\",
\"#       </Coefficients>\",
\"#       <Coefficients equation=\\\"1\\\" >\",
\"#         <G>-1.01645829e+001</G>\",
\"#         <H>1.59071415e+000</H>\",
\"#         <I>-3.20077302e-003</I>\",
\"#         <J>3.42191272e-004</J>\",
\"#         <CPcor>-9.57000000e-008</CPcor>\",
\"#         <CTcor>3.2500e-006</CTcor>\",
\"#         <!-- WBOTC not applicable unless ConductivityType = 1. -->\",
\"#         <WBOTC>0.00000000e+000</WBOTC>\",
\"#       </Coefficients>\",
\"#       <Slope>1.00000000</Slope>\",
\"#       <Offset>0.00000</Offset>\",
\"#     </ConductivitySensor>\",
\"#   </sensor>\",
\"#   <sensor Channel=\\\"6\\\" >\",
\"#     <!-- A/D voltage 0, Oxygen, SBE 43 -->\",
\"#     <OxygenSensor SensorID=\\\"38\\\" >\",
\"#       <SerialNumber>2766</SerialNumber>\",
\"#       <CalibrationDate>2023-03-25</CalibrationDate>\",
\"#       <Use2007Equation>1</Use2007Equation>\",
\"#       <CalibrationCoefficients equation=\\\"0\\\" >\",
\"#         <!-- Coefficients for Owens-Millard equation. -->\",
\"#         <Boc>0.0000</Boc>\",
\"#         <Soc>0.0000e+000</Soc>\",
\"#         <offset>0.0000</offset>\",
\"#         <Pcor>0.00e+000</Pcor>\",
\"#         <Tcor>0.0000</Tcor>\",
\"#         <Tau>0.0</Tau>\",
\"#       </CalibrationCoefficients>\",
\"#       <CalibrationCoefficients equation=\\\"1\\\" >\",
\"#         <!-- Coefficients for Sea-Bird equation - SBE calibration in 2007 and later. -->\",
\"#         <Soc>4.8140e-001</Soc>\",
\"#         <offset>-0.5019</offset>\",
\"#         <A>-3.4501e-003</A>\",
\"#         <B> 1.9177e-004</B>\",
\"#         <C>-3.3396e-006</C>\",
\"#         <D0> 2.5826e+000</D0>\",
\"#         <D1> 1.92634e-004</D1>\",
\"#         <D2>-4.64803e-002</D2>\",
\"#         <E> 3.6000e-002</E>\",
\"#         <Tau20> 1.2500</Tau20>\",
\"#         <H1>-3.3000e-002</H1>\",
\"#         <H2> 5.0000e+003</H2>\",
\"#         <H3> 1.4500e+003</H3>\",
\"#       </CalibrationCoefficients>\",
\"#     </OxygenSensor>\",
\"#   </sensor>\",
\"#   <sensor Channel=\\\"7\\\" >\",
\"#     <!-- A/D voltage 1, pH -->\",
\"#     <pH_Sensor SensorID=\\\"43\\\" >\",
\"#       <SerialNumber>1078</SerialNumber>\",
\"#       <CalibrationDate>2023-04-13</CalibrationDate>\",
\"#       <Slope>4.6486</Slope>\",
\"#       <Offset>2.5487</Offset>\",
\"#     </pH_Sensor>\",
\"#   </sensor>\",
\"#   <sensor Channel=\\\"8\\\" >\",
\"#     <!-- A/D voltage 2, Fluorometer, WET Labs ECO-AFL/FL -->\",
\"#     <FluoroWetlabECO_AFL_FL_Sensor SensorID=\\\"20\\\" >\",
\"#       <SerialNumber>FLRT-3363</SerialNumber>\",
\"#       <CalibrationDate>2023-01-25</CalibrationDate>\",
\"#       <ScaleFactor>2.50000000e+001</ScaleFactor>\",
\"#       <!-- Dark output -->\",
\"#       <Vblank>0.0110</Vblank>\",
\"#     </FluoroWetlabECO_AFL_FL_Sensor>\",
\"#   </sensor>\",
\"#   <sensor Channel=\\\"9\\\" >\",
\"#     <!-- A/D voltage 3, Transmissometer, WET Labs C-Star -->\",
\"#     <WET_LabsCStar SensorID=\\\"71\\\" >\",
\"#       <SerialNumber>CST-1628PR</SerialNumber>\",
\"#       <CalibrationDate>2023-04-14</CalibrationDate>\",
\"#       <M>21.8490</M>\",
\"#       <B>-0.1090</B>\",
\"#       <PathLength>0.250</PathLength>\",
\"#     </WET_LabsCStar>\",
\"#   </sensor>\",
\"#   <sensor Channel=\\\"10\\\" >\",
\"#     <!-- A/D voltage 4, Altimeter -->\",
\"#     <AltimeterSensor SensorID=\\\"0\\\" >\",
\"#       <SerialNumber>61114</SerialNumber>\",
\"#       <CalibrationDate></CalibrationDate>\",
\"#       <ScaleFactor>15.000</ScaleFactor>\",
\"#       <Offset>0.000</Offset>\",
\"#     </AltimeterSensor>\",
\"#   </sensor>\",
\"#   <sensor Channel=\\\"11\\\" >\",
\"#     <!-- A/D voltage 5, PAR/Irradiance, Biospherical/Licor -->\",
\"#     <PAR_BiosphericalLicorChelseaSensor SensorID=\\\"42\\\" >\",
\"#       <SerialNumber>70455</SerialNumber>\",
\"#       <CalibrationDate>2023-01-25</CalibrationDate>\",
\"#       <M>1.00000000</M>\",
\"#       <B>0.00000000</B>\",
\"#       <CalibrationConstant>19455000000.00000000</CalibrationConstant>\",
\"#       <Multiplier>1.00000000</Multiplier>\",
\"#       <Offset>0.00710000</Offset>\",
\"#     </PAR_BiosphericalLicorChelseaSensor>\",
\"#   </sensor>\",
\"#   <sensor Channel=\\\"12\\\" >\",
\"#     <!-- A/D voltage 6, Free -->\",
\"#   </sensor>\",
\"#   <sensor Channel=\\\"13\\\" >\",
\"#     <!-- A/D voltage 7, Free -->\",
\"#   </sensor>\",
\"# </Sensors>\",
\"# datcnv_date = Jan 25 2024 10:27:51, 7.26.7.129 [datcnv_vars = 23]\",
\"# datcnv_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\00_raw\\\\CTD_2023_13_033.hex E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\00_raw\\\\CTD_2023_13_033.XMLCON\",
\"# datcnv_skipover = 0\",
\"# datcnv_ox_hysteresis_correction = yes\",
\"# datcnv_ox_tau_correction = yes\",
\"# wildedit_date = Mar 27 2024 12:11:51, 7.26.7.129\",
\"# wildedit_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\01_datCnv\\\\newcnv\\\\CTD_2023_13_033.cnv\",
\"# wildedit_pass1_nstd = 2.0\",
\"# wildedit_pass2_nstd = 20.0\",
\"# wildedit_pass2_mindelta = 0.000e+000\",
\"# wildedit_npoint = 100\",
\"# wildedit_vars = prDM t090C t190C c0mS/cm c1mS/cm CStarTr0 ph par sbeox0V v1 v3\",
\"# wildedit_excl_bad_scans = yes\",
\"# filter_date = Mar 27 2024 12:13:33, 7.26.7.129\",
\"# filter_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\02_processing\\\\CTD_2023_13_033.cnv\",
\"# filter_low_pass_tc_A = 0.030\",
\"# filter_low_pass_tc_B = 0.150\",
\"# filter_low_pass_A_vars =\",
\"# filter_low_pass_B_vars = prDM\",
\"# alignctd_date = Mar 27 2024 12:15:32, 7.26.7.129\",
\"# alignctd_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\02_processing\\\\CTD_2023_13_033.cnv\",
\"# alignctd_adv = sbeox0V 0.500\",
\"# celltm_date = Mar 27 2024 12:20:34, 7.26.7.129\",
\"# celltm_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\02_processing\\\\CTD_2023_13_033.cnv\",
\"# celltm_alpha = 0.0300, 0.0300\",
\"# celltm_tau = 7.0000, 7.0000\",
\"# celltm_temp_sensor_use_for_cond = primary, secondary\",
\"# loopedit_date = Mar 27 2024 12:22:07, 7.26.7.129\",
\"# loopedit_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\02_processing\\\\CTD_2023_13_033.cnv\",
\"# loopedit_minVelocity = 0.200\",
\"# loopedit_surfaceSoak: do not remove\",
\"# loopedit_excl_bad_scans = yes\",
\"# strip_date = Mar 27 2024 12:23:51, 7.26.7.129\",
\"# strip_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\02_processing\\\\CTD_2023_13_033.cnv\",
\"# Derive_date = Mar 27 2024 12:25:21, 7.26.7.129 [derive_vars = 9]\",
\"# Derive_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\02_processing\\\\CTD_2023_13_033.cnv E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\02_processing\\\\CTD_2023_13_033.XMLCON\",
\"# derive_time_window_docdt = seconds: 2\",
\"# derive_ox_tau_correction = yes\",
\"# derive_time_window_dzdt = seconds: 2\",
\"# binavg_date = Mar 27 2024 12:28:03, 7.26.7.129\",
\"# binavg_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\03_derive\\\\CTD_2023_13_033.cnv\",
\"# binavg_bintype = decibars\",
\"# binavg_binsize = 0.5\",
\"# binavg_excl_bad_scans = yes\",
\"# binavg_skipover = 0\",
\"# binavg_omit = 0\",
\"# binavg_min_scans_bin = 1\",
\"# binavg_max_scans_bin = 2147483647\",
\"# binavg_surface_bin = no, min = 0.000, max = 0.000, value = 0.000\",
\"# file_type = ascii\",
\"*END*\"
]
},
{
\"CREATION_DATE\": \"2024-04-02 14:45:36.350000+00:00\",
\"PROCESS\": [
\"Conversion from CNV to ODF\"
]
},
{
\"CREATION_DATE\": \"2024-04-02 14:46:20.690000+00:00\",
\"PROCESS\": [
\"Update metadata (organization, chief scientist, cruise description) for the cruise header\"
]
},
{
\"CREATION_DATE\": \"2024-04-02 14:49:50.560000+00:00\",
\"PROCESS\": [
\"Update metadata (meteo. latitude, longitude, time, station name, sounding) for the event header\"
]
},
{
\"CREATION_DATE\": \"2024-06-25 11:58:23.730000+00:00\",
\"PROCESS\": [
\"Add a simple offset on the data (FLOR_01) to deacrease the background noise.\",
\"CTD fluorescence (FLOR_01) calibrated with field titrations.\",
\"Performed a small normalization to the beam transmission data (TRAN_01).\"
]
},
{
\"CREATION_DATE\": \"2024-06-26 09:55:50.290000+00:00\",
\"PROCESS\": [
\"The downcast profiles were choosen for the QAQC..\"
]
},
{
\"CREATION_DATE\": \"2024-06-26 09:55:50.710000+00:00\",
\"PROCESS\": [
\"Performed a test to detect records with CTD pump off.\"
]
},
{
\"CREATION_DATE\": \"2024-06-26 09:55:51.060000+00:00\",
\"PROCESS\": [
\"Perform the GTSPP quality control.\"
]
}
],
\"PARAMETER_HEADER\": [
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Sea Pressure (sea surface - 0)\",
\"UNITS\": \"decibars\",
\"CODE\": \"PRES_01\",
\"NULL_VALUE\": -99.0,
\"PRINT_FIELD_WIDTH\": 10,
\"PRINT_DECIMAL_PLACES\": 3,
\"ANGLE_OF_SECTION\": 0.0,
\"MAGNETIC_VARIATION\": 0.0,
\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 2,
\"MAXIMUM_VALUE\": 78.5,
\"NUMBER_VALID\": 154,
\"NUMBER_NULL\": 0
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: Sea Pressure (sea surface - 0)\",
\"UNITS\": \"none\",
\"CODE\": \"QQQQ_01\",
\"NULL_VALUE\": -99.0,
\"PRINT_FIELD_WIDTH\": 1,
\"PRINT_DECIMAL_PLACES\": 0,
\"ANGLE_OF_SECTION\": 0.0,
\"MAGNETIC_VARIATION\": 0.0,
\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 1,
\"MAXIMUM_VALUE\": 1,
\"NUMBER_VALID\": 154,
\"NUMBER_NULL\": 0
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Temperature (1990 scale)\",
\"UNITS\": \"deg C\",
\"CODE\": \"TE90_01\",
\"NULL_VALUE\": -99.0,
\"PRINT_FIELD_WIDTH\": 10,
\"PRINT_DECIMAL_PLACES\": 4,
\"ANGLE_OF_SECTION\": 0.0,
\"MAGNETIC_VARIATION\": 0.0,
\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 5.2711,
\"MAXIMUM_VALUE\": 11.9568,
\"NUMBER_VALID\": 154,
\"NUMBER_NULL\": 0
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: Temperature (1990 scale)\",
\"UNITS\": \"none\",
\"CODE\": \"QQQQ_02\",
\"NULL_VALUE\": -99.0,
\"PRINT_FIELD_WIDTH\": 1,
\"PRINT_DECIMAL_PLACES\": 0,
\"ANGLE_OF_SECTION\": 0.0,
\"MAGNETIC_VARIATION\": 0.0,
\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 1,
\"MAXIMUM_VALUE\": 3,
\"NUMBER_VALID\": 154,
\"NUMBER_NULL\": 0
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Temperature (1990 scale)\",
\"UNITS\": \"deg C\",
\"CODE\": \"TE90_02\",
\"NULL_VALUE\": -99.0,
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},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: Temperature (1990 scale)\",
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},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Light Transmission\",
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},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: Light Transmission\",
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},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Fluorescence\",
\"UNITS\": \"mg/m**3\",
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},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: Fluorescence\",
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},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Hydrogen Ion Concentration (pH)\",
\"UNITS\": \"none\",
\"CODE\": \"PHPH_01\",
\"NULL_VALUE\": -99.0,
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\"DEPTH\": \"0.000000 \",
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\"MAXIMUM_VALUE\": 7.882,
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},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: Hydrogen Ion Concentration (pH)\",
\"UNITS\": \"none\",
\"CODE\": \"QQQQ_06\",
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},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Photosynthetic Active Radiation\",
\"UNITS\": \"ueinsteins/s/m**2\",
\"CODE\": \"PSAR_01\",
\"NULL_VALUE\": -99.0,
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\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": \"NaN\",
\"MAXIMUM_VALUE\": \"NaN\",
\"NUMBER_VALID\": 0,
\"NUMBER_NULL\": 154
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Practical Salinity\",
\"UNITS\": \"psu\",
\"CODE\": \"PSAL_01\",
\"NULL_VALUE\": -99.0,
\"PRINT_FIELD_WIDTH\": 10,
\"PRINT_DECIMAL_PLACES\": 4,
\"ANGLE_OF_SECTION\": 0.0,
\"MAGNETIC_VARIATION\": 0.0,
\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 18.3702,
\"MAXIMUM_VALUE\": 27.6635,
\"NUMBER_VALID\": 154,
\"NUMBER_NULL\": 0
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: Practical Salinity\",
\"UNITS\": \"none\",
\"CODE\": \"QQQQ_07\",
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\"MINIMUM_VALUE\": 1,
\"MAXIMUM_VALUE\": 3,
\"NUMBER_VALID\": 154,
\"NUMBER_NULL\": 0
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Practical Salinity\",
\"UNITS\": \"psu\",
\"CODE\": \"PSAL_02\",
\"NULL_VALUE\": -99.0,
\"PRINT_FIELD_WIDTH\": 10,
\"PRINT_DECIMAL_PLACES\": 4,
\"ANGLE_OF_SECTION\": 0.0,
\"MAGNETIC_VARIATION\": 0.0,
\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 18.3955,
\"MAXIMUM_VALUE\": 27.6606,
\"NUMBER_VALID\": 154,
\"NUMBER_NULL\": 0
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: Practical Salinity\",
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\"CODE\": \"QQQQ_08\",
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\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 1,
\"MAXIMUM_VALUE\": 3,
\"NUMBER_VALID\": 154,
\"NUMBER_NULL\": 0
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Dissolved Oxygen\",
\"UNITS\": \"µM\",
\"CODE\": \"OXYM_01\",
\"NULL_VALUE\": -99.0,
\"PRINT_FIELD_WIDTH\": 10,
\"PRINT_DECIMAL_PLACES\": 3,
\"ANGLE_OF_SECTION\": 0.0,
\"MAGNETIC_VARIATION\": 0.0,
\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 279.0749,
\"MAXIMUM_VALUE\": 288.6179,
\"NUMBER_VALID\": 150,
\"NUMBER_NULL\": 4
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: Dissolved Oxygen\",
\"UNITS\": \"none\",
\"CODE\": \"QQQQ_10\",
\"NULL_VALUE\": -99.0,
\"PRINT_FIELD_WIDTH\": 1,
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\"ANGLE_OF_SECTION\": 0.0,
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\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 1,
\"MAXIMUM_VALUE\": 9,
\"NUMBER_VALID\": 154,
\"NUMBER_NULL\": 0
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Sigma-T (rho(s, t, 0)-1000)\",
\"UNITS\": \"kg/m^3\",
\"CODE\": \"SIGT_01\",
\"NULL_VALUE\": -99.0,
\"PRINT_FIELD_WIDTH\": 10,
\"PRINT_DECIMAL_PLACES\": 4,
\"ANGLE_OF_SECTION\": 0.0,
\"MAGNETIC_VARIATION\": 0.0,
\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 13.7187,
\"MAXIMUM_VALUE\": 21.8378,
\"NUMBER_VALID\": 154,
\"NUMBER_NULL\": 0
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: Sigma-T (rho(s, t, 0)-1000)\",
\"UNITS\": \"none\",
\"CODE\": \"QQQQ_11\",
\"NULL_VALUE\": -99.0,
\"PRINT_FIELD_WIDTH\": 1,
\"PRINT_DECIMAL_PLACES\": 0,
\"ANGLE_OF_SECTION\": 0.0,
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\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 1,
\"MAXIMUM_VALUE\": 3,
\"NUMBER_VALID\": 154,
\"NUMBER_NULL\": 0
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Sigma-Theta (rho(s, Theta, 0)-1000)\",
\"UNITS\": \"kg/m^3\",
\"CODE\": \"SIGP_01\",
\"NULL_VALUE\": -99.0,
\"PRINT_FIELD_WIDTH\": 10,
\"PRINT_DECIMAL_PLACES\": 4,
\"ANGLE_OF_SECTION\": 0.0,
\"MAGNETIC_VARIATION\": 0.0,
\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 13.7187,
\"MAXIMUM_VALUE\": 21.8383,
\"NUMBER_VALID\": 154,
\"NUMBER_NULL\": 0
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: Sigma-Theta (rho(s, Theta, 0)-1000)\",
\"UNITS\": \"none\",
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\"PRINT_FIELD_WIDTH\": 1,
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\"DEPTH\": \"0.000000 \",
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\"MAXIMUM_VALUE\": 3,
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},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Sigma-T (rho(s, t, 0)-1000)\",
\"UNITS\": \"kg/m^3\",
\"CODE\": \"SIGT_02\",
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},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: Sigma-T (rho(s, t, 0)-1000)\",
\"UNITS\": \"none\",
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\"MAXIMUM_VALUE\": 3,
\"NUMBER_VALID\": 154,
\"NUMBER_NULL\": 0
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Sigma-Theta (rho(s, Theta, 0)-1000)\",
\"UNITS\": \"kg/m^3\",
\"CODE\": \"SIGP_02\",
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\"PRINT_FIELD_WIDTH\": 10,
\"PRINT_DECIMAL_PLACES\": 4,
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\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 13.7419,
\"MAXIMUM_VALUE\": 21.8355,
\"NUMBER_VALID\": 154,
\"NUMBER_NULL\": 0
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: Sigma-Theta (rho(s, Theta, 0)-1000)\",
\"UNITS\": \"none\",
\"CODE\": \"QQQQ_14\",
\"NULL_VALUE\": -99.0,
\"PRINT_FIELD_WIDTH\": 1,
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\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 1,
\"MAXIMUM_VALUE\": 3,
\"NUMBER_VALID\": 154,
\"NUMBER_NULL\": 0
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: QCFF\",
\"UNITS\": \"none\",
\"CODE\": \"QCFF_01\",
\"NULL_VALUE\": -99.0,
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\"ANGLE_OF_SECTION\": 0.0,
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\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 0,
\"MAXIMUM_VALUE\": 4352,
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\"NUMBER_NULL\": 0
}
],
\"RECORD_HEADER\": {
\"NUM_CALIBRATION\": 10,
\"NUM_SWING\": 0,
\"NUM_HISTORY\": 8,
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\"NUM_PARAM\": 28
},
\"original_header\": [
\"ODF_HEADER,\",
\"  FILE_SPECIFICATION = CTD_2023_13_033_1_DN,\",
\"CRUISE_HEADER,\",
\"  COUNTRY_INSTITUTE_CODE = 18QO,\",
\"  CRUISE_NUMBER = '2023_13',\",
\"  ORGANIZATION = 'RQM/QO',\",
\"  CHIEF_SCIENTIST = 'Maude Boissonault, Ludovic Pascal',\",
\"  START_DATE = '05-JUL-2023 12:00:00.00',\",
\"  END_DATE = '11-JUL-2023 12:00:00.00',\",
\"  PLATFORM = 'Coriolis',\",
\"  CRUISE_NAME = '2023_13_MAP',\",
\"  CRUISE_DESCRIPTION = 'MAP: mission annuelle PLAIN',\",
\"EVENT_HEADER,\",
\"  DATA_TYPE= 'CTD',\",
\"  EVENT_NUMBER= '033',\",
\"  EVENT_STATION= 'ST20',\",
\"  EVENT_QUALIFIER1= '1',\",
\"  EVENT_QUALIFIER2= 'DN',\",
\"  CREATION_DATE= '26-JUN-2024 16:24:43.58',\",
\"  ORIG_CREATION_DATE= '25-JAN-2024 10:27:51.00',\",
\"  START_DATE_TIME= '11-JUL-2023 23:57:10.00',\",
\"  END_DATE_TIME= '12-JUL-2023 00:07:00.00',\",
\"  INITIAL_LATITUDE= 48.220000,\",
\"  INITIAL_LONGITUDE= -69.880400,\",
\"  END_LATITUDE= 48.219900,\",
\"  END_LONGITUDE= -69.880310,\",
\"  MIN_DEPTH= 1.98,\",
\"  MAX_DEPTH= 77.82,\",
\"  SAMPLING_INTERVAL= -99.0,\",
\"  SOUNDING= 85.79,\",
\"  DEPTH_OFF_BOTTOM= 7.97,\",
\"  EVENT_COMMENTS= '',\",
\"METEO_HEADER,\",
\"  AIR_TEMPERATURE= 19.00,\",
\"  ATMOSPHERIC_PRESSURE= -99.00,\",
\"  WIND_SPEED= 9.77,\",
\"  WIND_DIRECTION= NaN,\",
\"  SEA_STATE= 0,\",
\"  CLOUD_COVER= -99,\",
\"  ICE_THICKNESS= -99.00,\",
\"  METEO_COMMENTS= 'Air_Temperature: degrees C',\",
\"  METEO_COMMENTS= 'Wind_Speed: m/s',\",
\"  METEO_COMMENTS= 'Wind_Direction(0-360): True North degrees',\",
\"  METEO_COMMENTS= 'Atmospheric_Pressure: hpa',\",
\"  METEO_COMMENTS= 'Sea_State(0->9): WMO code table 3700',\",
\"  METEO_COMMENTS= 'Cloud_Cover(0->9): WMO code table 2700',\",
\"  METEO_COMMENTS= 'Ice_Thickness: m',\",
\"INSTRUMENT_HEADER,\",
\"  INST_TYPE= 'Sea-Bird',\",
\"  MODEL= 'SBE 9',\",
\"  SERIAL_NUMBER= '5769',\",
\"  DESCRIPTION= 'CTD_2023_13_033.hex CTD_2023_13_033.XMLCON',\",
\"QUALITY_HEADER,\",
\"  QUALITY_DATE= '26-JUN-2024 14:59:43.74',\",
\"  QUALITY_TESTS= 'Test 1.1: GTSPP Platform Identification',\",
\"  QUALITY_TESTS= 'Test 1.2: GTSPP Impossible Date/Time',\",
\"  QUALITY_TESTS= 'Test 1.3: GTSPP Impossible Location',\",
\"  QUALITY_TESTS= 'Test 1.4: GTSPP Position on Land',\",
\"  QUALITY_TESTS= 'Test 1.5: GTSPP Impossible Speed',\",
\"  QUALITY_TESTS= 'Test 1.6: GTSPP Impossible Sounding',\",
\"  QUALITY_TESTS= 'Test 5.1: GTSPP Cruise Track Visual Inspection',\",
\"  QUALITY_TESTS= 'Test 2.0: IML Minimum Descent Rate (2) (0.10m/s)',\",
\"  QUALITY_TESTS= 'Test 2.1: GTSPP Global Impossible Parameter Values (4)',\",
\"  QUALITY_TESTS= 'Test 2.2: GTSPP Regional Impossible Parameter Values (8)',\",
\"  QUALITY_TESTS= 'Test 2.3: GTSPP Increasing Depth (16)',\",
\"  QUALITY_TESTS= 'Test 2.4: GTSPP Profile Envelope (Temperature and Salinity) (32)',\",
\"  QUALITY_TESTS= 'Test 2.6: GTSPP Freezing Point (128)',\",
\"  QUALITY_TESTS= 'Test 2.7: GTSPP Spike in Temperature and Salinity (one point) (256)',\",
\"  QUALITY_TESTS= 'Test 2.8: GTSPP Top and Bottom Spike in Temperature and Salinity (512)',\",
\"  QUALITY_TESTS= 'Test 2.9: GTSPP Gradient in Temperature and Salinity (1024)',\",
\"  QUALITY_TESTS= 'Test 2.10: GTSPP Density Inversion (point to point) (2048)',\",
\"  QUALITY_TESTS= 'Test 2.11: IML Spike in Pressure, Temperature and Salinity (one point or more) (4096)',\",
\"  QUALITY_TESTS= 'Test 3.5: IML Petrie Monthly Climatology (Temperature, Salinity and Sigma-T)',\",
\"  QUALITY_COMMENTS= 'QCFF values are derived from tests of GTSPP stage 2',\",
\"  QUALITY_COMMENTS= 'A quality flag modified by hand has a QCFF value of 1',\",
\"GENERAL_CAL_HEADER,\",
\"  PARAMETER_CODE= 'PRES_01',\",
\"  CALIBRATION_TYPE= 'PRES06',\",
\"  CALIBRATION_DATE= '03-MAR-2023 00:00:00.00',\",
\"  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',\",
\"  NUMBER_COEFFICIENTS= 14,\",
\"  COEFFICIENTS= -8.66485000e+03  -1.49531400e-01  2.34342000e-03  5.13120000e-02  0.00000000e+00  3.03962700e+01  -4.60581000e-04  3.33800000e-06  3.64838000e-09  0.00000000e+00  1.28560000e-02  -9.23208600e+00  9.99956200e-01  -3.03723000e+00 ,\",
\"  CALIBRATION_EQUATION= 'U = C10*BIN-C11',\",
\"  CALIBRATION_EQUATION= 'T0=C0+C1*U+C2*U^2+C3*U^3+C4*^4',\",
\"  CALIBRATION_EQUATION= 'PRES={(C5+C6*U+C7*U^2)*(1-T0^2/T^2)*(1-(C8 + C9*U)*(1-T0^2/T^2))}*C12 + C13',\",
\"  CALIBRATION_EQUATION= 'U=temperature (deg C), BIN=binary temperature, T=pressure period (usec), P=pressure (psia).',\",
\"  CALIBRATION_COMMENTS= '',\",
\"GENERAL_CAL_HEADER,\",
\"  PARAMETER_CODE= 'TE90_01',\",
\"  CALIBRATION_TYPE= 'TEMP06',\",
\"  CALIBRATION_DATE= '14-MAR-2023 00:00:00.00',\",
\"  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',\",
\"  NUMBER_COEFFICIENTS= 7,\",
\"  COEFFICIENTS= 4.30758385e-03  6.24923426e-04  1.93163880e-05  1.44283417e-06  1.00000000e+03  1.00000000e+00  0.00000000e+00 ,\",
\"  CALIBRATION_EQUATION= '[TE90 = (1/(C0 + C1*ln(C4/N) + C2*(ln(C4/N))^2 + C3*(ln(C4/N))^3) - 273.15)] * C5 + C6',\",
\"  CALIBRATION_COMMENTS= 'Use g, h, i, j coefficients',\",
\"GENERAL_CAL_HEADER,\",
\"  PARAMETER_CODE= 'TE90_02',\",
\"  CALIBRATION_TYPE= 'TEMP06',\",
\"  CALIBRATION_DATE= '06-AUG-2022 00:00:00.00',\",
\"  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',\",
\"  NUMBER_COEFFICIENTS= 7,\",
\"  COEFFICIENTS= 4.32612945e-03  6.38997606e-04  2.17826466e-05  2.01541785e-06  1.00000000e+03  1.00000000e+00  0.00000000e+00 ,\",
\"  CALIBRATION_EQUATION= '[TE90 = (1/(C0 + C1*ln(C4/N) + C2*(ln(C4/N))^2 + C3*(ln(C4/N))^3) - 273.15)] * C5 + C6',\",
\"  CALIBRATION_COMMENTS= 'Use g, h, i, j coefficients',\",
\"GENERAL_CAL_HEADER,\",
\"  PARAMETER_CODE= 'CNDC_01',\",
\"  CALIBRATION_TYPE= 'COND04',\",
\"  CALIBRATION_DATE= '31-MAR-2023 00:00:00.00',\",
\"  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',\",
\"  NUMBER_COEFFICIENTS= 8,\",
\"  COEFFICIENTS= -9.88694765e+00  1.37070078e+00  -2.34724804e-03  2.55488112e-04  3.25000000e-06  -9.57000000e-08  1.00000000e+00  0.00000000e+00 ,\",
\"  CALIBRATION_EQUATION= 'CNDC = ((C0 + C1*N^2 + C2*N^3 + C3*N^4)/(1+C4*TEMP+C5*PRES))*C6 + C7',\",
\"  CALIBRATION_COMMENTS= 'Use g, h, i, j coefficients',\",
\"  CALIBRATION_COMMENTS= 'Unit: Siemens/meter',\",
\"GENERAL_CAL_HEADER,\",
\"  PARAMETER_CODE= 'CNDC_02',\",
\"  CALIBRATION_TYPE= 'COND04',\",
\"  CALIBRATION_DATE= '05-AUG-2022 00:00:00.00',\",
\"  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',\",
\"  NUMBER_COEFFICIENTS= 8,\",
\"  COEFFICIENTS= -1.01645829e+01  1.59071415e+00  -3.20077302e-03  3.42191272e-04  3.25000000e-06  -9.57000000e-08  1.00000000e+00  0.00000000e+00 ,\",
\"  CALIBRATION_EQUATION= 'CNDC = ((C0 + C1*N^2 + C2*N^3 + C3*N^4)/(1+C4*TEMP+C5*PRES))*C6 + C7',\",
\"  CALIBRATION_COMMENTS= 'Use g, h, i, j coefficients',\",
\"  CALIBRATION_COMMENTS= 'Unit: Siemens/meter',\",
\"GENERAL_CAL_HEADER,\",
\"  PARAMETER_CODE= 'TRAN_01',\",
\"  CALIBRATION_TYPE= 'TRANS03',\",
\"  CALIBRATION_DATE= '14-APR-2023 00:00:00.00',\",
\"  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',\",
\"  NUMBER_COEFFICIENTS= 2,\",
\"  COEFFICIENTS= -1.09000000e-01  2.18490000e+01 ,\",
\"  CALIBRATION_EQUATION= 'TRAN = C0 + C1*N',\",
\"  CALIBRATION_COMMENTS= 'Path Length [m]: 0.250',\",
\"  CALIBRATION_COMMENTS= 'The data have been normalized',\",
\"GENERAL_CAL_HEADER,\",
\"  PARAMETER_CODE= 'FLOR_01',\",
\"  CALIBRATION_TYPE= 'FLUO06',\",
\"  CALIBRATION_DATE= '25-JAN-2023 00:00:00.00',\",
\"  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',\",
\"  NUMBER_COEFFICIENTS= 2,\",
\"  COEFFICIENTS= 1.10000000e-02  2.50000000e+01 ,\",
\"  CALIBRATION_EQUATION= 'FLOR = (N - C0)*C1',\",
\"  CALIBRATION_COMMENTS= 'Add an 0.091 offset.',\",
\"  CALIBRATION_COMMENTS= '',\",
\"  CALIBRATION_COMMENTS= '',\",
\"  CALIBRATION_COMMENTS= 'CTD fluorescence calibrated with field titrations.',\",
\"  CALIBRATION_COMMENTS= 'Calculate a new scale factor',\",
\"  CALIBRATION_COMMENTS= 'new scale factor = 45.8300',\",
\"GENERAL_CAL_HEADER,\",
\"  PARAMETER_CODE= 'PHPH_01',\",
\"  CALIBRATION_TYPE= 'PHPH',\",
\"  CALIBRATION_DATE= '13-APR-2023 00:00:00.00',\",
\"  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',\",
\"  NUMBER_COEFFICIENTS= 2,\",
\"  COEFFICIENTS= 2.54870000e+00  4.64860000e+00 ,\",
\"  CALIBRATION_EQUATION= 'PHPH = 7+(N-C1)/((TEMP-273.15)*1.98416e-4*C0)',\",
\"  CALIBRATION_COMMENTS= '',\",
\"GENERAL_CAL_HEADER,\",
\"  PARAMETER_CODE= 'PSAR_01',\",
\"  CALIBRATION_TYPE= 'PSAR01',\",
\"  CALIBRATION_DATE= '25-JAN-2023 00:00:00.00',\",
\"  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',\",
\"  NUMBER_COEFFICIENTS= 5,\",
\"  COEFFICIENTS= 1.00000000e+00  1.94550000e+10  0.00000000e+00  1.00000000e+00  7.10000000e-03 ,\",
\"  CALIBRATION_EQUATION= 'PSAR = (C0/C1)*(10^9*10^((N-C2)/C3)) + C4',\",
\"  CALIBRATION_COMMENTS= 'The sensor was not operational.',\",
\"GENERAL_CAL_HEADER,\",
\"  PARAMETER_CODE= 'DOXY_01',\",
\"  CALIBRATION_TYPE= 'OXY04',\",
\"  CALIBRATION_DATE= '25-MAR-2023 00:00:00.00',\",
\"  APPLICATION_DATE= '25-JAN-2024 10:27:51.00',\",
\"  NUMBER_COEFFICIENTS= 12,\",
\"  COEFFICIENTS= 4.81400000e-01  -5.01900000e-01  1.25000000e+00  -3.45010000e-03  1.91770000e-04  -3.33960000e-06  3.60000000e-02  1.92634000e-04  -4.64803000e-02  -3.30000000e-02  5.00000000e+03  1.45000000e+03 ,\",
\"  CALIBRATION_EQUATION= 'DOXY = C0*(OXV_ + C1 + C2*dOXV_/dt) * OXSOL(TEMP,PSAL) * (1.0 + C3*TEMP + C4*TEMP^2 + C5*TEMP^3) * exp(C6*PRES/(TEMP-273.15)',\",
\"  CALIBRATION_COMMENTS= 'Use Sea-Bird equation',\",
\"  CALIBRATION_COMMENTS= 'C7 = D1 and C8 = D2 used in the calculation of tau.',\",
\"  CALIBRATION_COMMENTS= 'C9 = H1, C10 = H2 and C11 = H3 are the new hysteresis correction terms.',\",
\"  CALIBRATION_COMMENTS= 'CTD O2 calibrated with Winkler titrations.',\",
\"  CALIBRATION_COMMENTS= 'Use a regression',\",
\"  CALIBRATION_COMMENTS= 'slope=0.95900000 intercept=3.05070000',\",
\"HISTORY_HEADER,\",
\"  CREATION_DATE= '27-MAR-2024 12:28:03.00',\",
\"  PROCESS= '* Sea-Bird SBE 9 Data File:',\",
\"  PROCESS= '* FileName = C:\\\\CTD911plus\\\\CTDdocument\\\\CTDdata\\\\MAP2023\\\\MAP2023033.hex',\",
\"  PROCESS= '* Software Version Seasave V 7.26.7.121',\",
\"  PROCESS= '* Temperature SN = 5769',\",
\"  PROCESS= '* Conductivity SN = 4244',\",
\"  PROCESS= '* Number of Bytes Per Scan = 41',\",
\"  PROCESS= '* Number of Voltage Words = 4',\",
\"  PROCESS= '* Number of Scans Averaged by the Deck Unit = 1',\",
\"  PROCESS= '* System UpLoad Time = Jul 11 2023 23:57:10',\",
\"  PROCESS= '* NMEA Latitude = 48 14.25 N',\",
\"  PROCESS= '* NMEA Longitude = 069 57.54 W',\",
\"  PROCESS= '* NMEA UTC (Time) = Jul 11 2023 23:24:48',\",
\"  PROCESS= '* Store Lat/Lon Data = Append to Every Scan',\",
\"  PROCESS= '* SBE 11plus V 5.1e',\",
\"  PROCESS= '* number of scans to average = 1',\",
\"  PROCESS= '* pressure baud rate = 9600',\",
\"  PROCESS= '* NMEA baud rate = 4800',\",
\"  PROCESS= '* GPIB address = 1',\",
\"  PROCESS= '* advance primary conductivity  0.073 seconds',\",
\"  PROCESS= '* advance secondary conductivity  0.073 seconds',\",
\"  PROCESS= '* S>',\",
\"  PROCESS= '** Coriolis II',\",
\"  PROCESS= '** MAP2023',\",
\"  PROCESS= '** mission Plaine RQM',\",
\"  PROCESS= '** Chef de mission Maude Boissonneault et Ludovic Pascal',\",
\"  PROCESS= '* System UTC = Jul 11 2023 23:57:10',\",
\"  PROCESS= '# nquan = 29',\",
\"  PROCESS= '# nvalues = 310',\",
\"  PROCESS= '# units = specified',\",
\"  PROCESS= '# name 0 = prDM: Pressure, Digiquartz [db]',\",
\"  PROCESS= '# name 1 = t090C: Temperature [ITS-90, deg C]',\",
\"  PROCESS= '# name 2 = t190C: Temperature, 2 [ITS-90, deg C]',\",
\"  PROCESS= '# name 3 = c0mS/cm: Conductivity [mS/cm]',\",
\"  PROCESS= '# name 4 = c1mS/cm: Conductivity, 2 [mS/cm]',\",
\"  PROCESS= '# name 5 = modError: Modulo Error Count',\",
\"  PROCESS= '# name 6 = longitude: Longitude [deg]',\",
\"  PROCESS= '# name 7 = latitude: Latitude [deg]',\",
\"  PROCESS= '# name 8 = CStarTr0: Beam Transmission, WET Labs C-Star [%]',\",
\"  PROCESS= '# name 9 = flECO-AFL: Fluorescence, WET Labs ECO-AFL/FL [mg/m^3]',\",
\"  PROCESS= '# name 10 = ph: pH',\",
\"  PROCESS= '# name 11 = par: PAR/Irradiance, Biospherical/Licor',\",
\"  PROCESS= '# name 12 = sfdSM: Seafloor depth [salt water, m]',\",
\"  PROCESS= '# name 13 = pumps: Pump Status',\",
\"  PROCESS= '# name 14 = timeM: Time, Elapsed [minutes]',\",
\"  PROCESS= '# name 15 = sbeox0V: Oxygen raw, SBE 43 [V]',\",
\"  PROCESS= '# name 16 = v1: Voltage 1',\",
\"  PROCESS= '# name 17 = v2: Voltage 2',\",
\"  PROCESS= '# name 18 = v3: Voltage 3',\",
\"  PROCESS= '# name 19 = sal00: Salinity, Practical [PSU]',\",
\"  PROCESS= '# name 20 = sal11: Salinity, Practical, 2 [PSU]',\",
\"  PROCESS= '# name 21 = sbeox0ML/L: Oxygen, SBE 43 [ml/l], WS = 2',\",
\"  PROCESS= '# name 22 = sbeox0Mm/L: Oxygen, SBE 43 [umol/l], WS = 2',\",
\"  PROCESS= '# name 23 = sigma-t00: Density [sigma-t, kg/m^3 ]',\",
\"  PROCESS= '# name 24 = sigma-é00: Density [sigma-theta, kg/m^3]',\",
\"  PROCESS= '# name 25 = sigma-t11: Density, 2 [sigma-t, kg/m^3 ]',\",
\"  PROCESS= '# name 26 = sigma-é11: Density, 2 [sigma-theta, kg/m^3]',\",
\"  PROCESS= '# name 27 = dz/dtM: Descent Rate [m/s], WS = 2',\",
\"  PROCESS= '# name 28 = flag: flag',\",
\"  PROCESS= '# span 0 =      0.500,     78.500',\",
\"  PROCESS= '# span 1 =     5.2711,    13.4480',\",
\"  PROCESS= '# span 2 =     5.2758,    13.6944',\",
\"  PROCESS= '# span 3 =  19.941193,  27.345350',\",
\"  PROCESS= '# span 4 =  19.507207,  27.346769',\",
\"  PROCESS= '# span 5 =          0,          0',\",
\"  PROCESS= '# span 6 =  -69.88040,  -69.87998',\",
\"  PROCESS= '# span 7 =   48.21988,   48.22006',\",
\"  PROCESS= '# span 8 =    76.0137,    95.3439',\",
\"  PROCESS= '# span 9 =     0.2728,     1.2594',\",
\"  PROCESS= '# span 10 =      7.753,      7.898',\",
\"  PROCESS= '# span 11 = 5.8501e-02, 5.8501e-02',\",
\"  PROCESS= '# span 12 =     77.562,     87.834',\",
\"  PROCESS= '# span 13 =          1,          1',\",
\"  PROCESS= '# span 14 =     1.5360,     9.8344',\",
\"  PROCESS= '# span 15 =     2.3281,     2.6101',\",
\"  PROCESS= '# span 16 =     2.7423,     2.7790',\",
\"  PROCESS= '# span 17 =     0.0219,     0.0614',\",
\"  PROCESS= '# span 18 =     3.4841,     4.3688',\",
\"  PROCESS= '# span 19 =    15.6505,    27.6635',\",
\"  PROCESS= '# span 20 =    15.1796,    27.6606',\",
\"  PROCESS= '# span 21 =     6.4448,     6.6850',\",
\"  PROCESS= '# span 22 =    287.825,    298.552',\",
\"  PROCESS= '# span 23 =    11.3818,    21.8378',\",
\"  PROCESS= '# span 24 =    11.3818,    21.8383',\",
\"  PROCESS= '# span 25 =    10.9786,    21.8350',\",
\"  PROCESS= '# span 26 =    10.9786,    21.8355',\",
\"  PROCESS= '# span 27 =     -0.730,      0.663',\",
\"  PROCESS= '# span 28 = 0.0000e+00, 0.0000e+00',\",
\"  PROCESS= '# interval = decibars: 0.5',\",
\"  PROCESS= '# start_time = Jul 11 2023 23:57:10 [System UpLoad Time]',\",
\"  PROCESS= '# bad_flag = -9.990e-29',\",
\"  PROCESS= '# <Sensors count=\\\"13\\\" >',\",
\"  PROCESS= '#   <sensor Channel=\\\"1\\\" >',\",
\"  PROCESS= '#     <!-- Frequency 0, Temperature -->',\",
\"  PROCESS= '#     <TemperatureSensor SensorID=\\\"55\\\" >',\",
\"  PROCESS= '#       <SerialNumber>5769</SerialNumber>',\",
\"  PROCESS= '#       <CalibrationDate>2023-03-14</CalibrationDate>',\",
\"  PROCESS= '#       <UseG_J>1</UseG_J>',\",
\"  PROCESS= '#       <A>0.00000000e+000</A>',\",
\"  PROCESS= '#       <B>0.00000000e+000</B>',\",
\"  PROCESS= '#       <C>0.00000000e+000</C>',\",
\"  PROCESS= '#       <D>0.00000000e+000</D>',\",
\"  PROCESS= '#       <F0_Old>0.000</F0_Old>',\",
\"  PROCESS= '#       <G>4.30758385e-003</G>',\",
\"  PROCESS= '#       <H>6.24923426e-004</H>',\",
\"  PROCESS= '#       <I>1.93163880e-005</I>',\",
\"  PROCESS= '#       <J>1.44283417e-006</J>',\",
\"  PROCESS= '#       <F0>1000.000</F0>',\",
\"  PROCESS= '#       <Slope>1.00000000</Slope>',\",
\"  PROCESS= '#       <Offset>0.0000</Offset>',\",
\"  PROCESS= '#     </TemperatureSensor>',\",
\"  PROCESS= '#   </sensor>',\",
\"  PROCESS= '#   <sensor Channel=\\\"2\\\" >',\",
\"  PROCESS= '#     <!-- Frequency 1, Conductivity -->',\",
\"  PROCESS= '#     <ConductivitySensor SensorID=\\\"3\\\" >',\",
\"  PROCESS= '#       <SerialNumber>4244</SerialNumber>',\",
\"  PROCESS= '#       <CalibrationDate>2023-03-31</CalibrationDate>',\",
\"  PROCESS= '#       <UseG_J>1</UseG_J>',\",
\"  PROCESS= '#       <!-- Cell const and series R are applicable only for wide range sensors. -->',\",
\"  PROCESS= '#       <SeriesR>0.0000</SeriesR>',\",
\"  PROCESS= '#       <CellConst>2000.0000</CellConst>',\",
\"  PROCESS= '#       <ConductivityType>0</ConductivityType>',\",
\"  PROCESS= '#       <Coefficients equation=\\\"0\\\" >',\",
\"  PROCESS= '#         <A>0.00000000e+000</A>',\",
\"  PROCESS= '#         <B>0.00000000e+000</B>',\",
\"  PROCESS= '#         <C>0.00000000e+000</C>',\",
\"  PROCESS= '#         <D>0.00000000e+000</D>',\",
\"  PROCESS= '#         <M>0.0</M>',\",
\"  PROCESS= '#         <CPcor>-9.57000000e-008</CPcor>',\",
\"  PROCESS= '#       </Coefficients>',\",
\"  PROCESS= '#       <Coefficients equation=\\\"1\\\" >',\",
\"  PROCESS= '#         <G>-9.88694765e+000</G>',\",
\"  PROCESS= '#         <H>1.37070078e+000</H>',\",
\"  PROCESS= '#         <I>-2.34724804e-003</I>',\",
\"  PROCESS= '#         <J>2.55488112e-004</J>',\",
\"  PROCESS= '#         <CPcor>-9.57000000e-008</CPcor>',\",
\"  PROCESS= '#         <CTcor>3.2500e-006</CTcor>',\",
\"  PROCESS= '#         <!-- WBOTC not applicable unless ConductivityType = 1. -->',\",
\"  PROCESS= '#         <WBOTC>0.00000000e+000</WBOTC>',\",
\"  PROCESS= '#       </Coefficients>',\",
\"  PROCESS= '#       <Slope>1.00000000</Slope>',\",
\"  PROCESS= '#       <Offset>0.00000</Offset>',\",
\"  PROCESS= '#     </ConductivitySensor>',\",
\"  PROCESS= '#   </sensor>',\",
\"  PROCESS= '#   <sensor Channel=\\\"3\\\" >',\",
\"  PROCESS= '#     <!-- Frequency 2, Pressure, Digiquartz with TC -->',\",
\"  PROCESS= '#     <PressureSensor SensorID=\\\"45\\\" >',\",
\"  PROCESS= '#       <SerialNumber>1168</SerialNumber>',\",
\"  PROCESS= '#       <CalibrationDate>2023-03-03</CalibrationDate>',\",
\"  PROCESS= '#       <C1>-8.664850e+003</C1>',\",
\"  PROCESS= '#       <C2>-1.495314e-001</C2>',\",
\"  PROCESS= '#       <C3>2.343420e-003</C3>',\",
\"  PROCESS= '#       <D1>5.131200e-002</D1>',\",
\"  PROCESS= '#       <D2>0.000000e+000</D2>',\",
\"  PROCESS= '#       <T1>3.039627e+001</T1>',\",
\"  PROCESS= '#       <T2>-4.605810e-004</T2>',\",
\"  PROCESS= '#       <T3>3.338000e-006</T3>',\",
\"  PROCESS= '#       <T4>3.648380e-009</T4>',\",
\"  PROCESS= '#       <Slope>0.99995620</Slope>',\",
\"  PROCESS= '#       <Offset>-3.03723</Offset>',\",
\"  PROCESS= '#       <T5>0.000000e+000</T5>',\",
\"  PROCESS= '#       <AD590M>1.285600e-002</AD590M>',\",
\"  PROCESS= '#       <AD590B>-9.232086e+000</AD590B>',\",
\"  PROCESS= '#     </PressureSensor>',\",
\"  PROCESS= '#   </sensor>',\",
\"  PROCESS= '#   <sensor Channel=\\\"4\\\" >',\",
\"  PROCESS= '#     <!-- Frequency 3, Temperature, 2 -->',\",
\"  PROCESS= '#     <TemperatureSensor SensorID=\\\"55\\\" >',\",
\"  PROCESS= '#       <SerialNumber>6622</SerialNumber>',\",
\"  PROCESS= '#       <CalibrationDate>2022-08-06</CalibrationDate>',\",
\"  PROCESS= '#       <UseG_J>1</UseG_J>',\",
\"  PROCESS= '#       <A>0.00000000e+000</A>',\",
\"  PROCESS= '#       <B>0.00000000e+000</B>',\",
\"  PROCESS= '#       <C>0.00000000e+000</C>',\",
\"  PROCESS= '#       <D>0.00000000e+000</D>',\",
\"  PROCESS= '#       <F0_Old>0.000</F0_Old>',\",
\"  PROCESS= '#       <G>4.32612945e-003</G>',\",
\"  PROCESS= '#       <H>6.38997606e-004</H>',\",
\"  PROCESS= '#       <I>2.17826466e-005</I>',\",
\"  PROCESS= '#       <J>2.01541785e-006</J>',\",
\"  PROCESS= '#       <F0>1000.000</F0>',\",
\"  PROCESS= '#       <Slope>1.00000000</Slope>',\",
\"  PROCESS= '#       <Offset>0.0000</Offset>',\",
\"  PROCESS= '#     </TemperatureSensor>',\",
\"  PROCESS= '#   </sensor>',\",
\"  PROCESS= '#   <sensor Channel=\\\"5\\\" >',\",
\"  PROCESS= '#     <!-- Frequency 4, Conductivity, 2 -->',\",
\"  PROCESS= '#     <ConductivitySensor SensorID=\\\"3\\\" >',\",
\"  PROCESS= '#       <SerialNumber>6090</SerialNumber>',\",
\"  PROCESS= '#       <CalibrationDate>2022-08-05</CalibrationDate>',\",
\"  PROCESS= '#       <UseG_J>1</UseG_J>',\",
\"  PROCESS= '#       <!-- Cell const and series R are applicable only for wide range sensors. -->',\",
\"  PROCESS= '#       <SeriesR>0.0000</SeriesR>',\",
\"  PROCESS= '#       <CellConst>2000.0000</CellConst>',\",
\"  PROCESS= '#       <ConductivityType>0</ConductivityType>',\",
\"  PROCESS= '#       <Coefficients equation=\\\"0\\\" >',\",
\"  PROCESS= '#         <A>0.00000000e+000</A>',\",
\"  PROCESS= '#         <B>0.00000000e+000</B>',\",
\"  PROCESS= '#         <C>0.00000000e+000</C>',\",
\"  PROCESS= '#         <D>0.00000000e+000</D>',\",
\"  PROCESS= '#         <M>0.0</M>',\",
\"  PROCESS= '#         <CPcor>-9.57000000e-008</CPcor>',\",
\"  PROCESS= '#       </Coefficients>',\",
\"  PROCESS= '#       <Coefficients equation=\\\"1\\\" >',\",
\"  PROCESS= '#         <G>-1.01645829e+001</G>',\",
\"  PROCESS= '#         <H>1.59071415e+000</H>',\",
\"  PROCESS= '#         <I>-3.20077302e-003</I>',\",
\"  PROCESS= '#         <J>3.42191272e-004</J>',\",
\"  PROCESS= '#         <CPcor>-9.57000000e-008</CPcor>',\",
\"  PROCESS= '#         <CTcor>3.2500e-006</CTcor>',\",
\"  PROCESS= '#         <!-- WBOTC not applicable unless ConductivityType = 1. -->',\",
\"  PROCESS= '#         <WBOTC>0.00000000e+000</WBOTC>',\",
\"  PROCESS= '#       </Coefficients>',\",
\"  PROCESS= '#       <Slope>1.00000000</Slope>',\",
\"  PROCESS= '#       <Offset>0.00000</Offset>',\",
\"  PROCESS= '#     </ConductivitySensor>',\",
\"  PROCESS= '#   </sensor>',\",
\"  PROCESS= '#   <sensor Channel=\\\"6\\\" >',\",
\"  PROCESS= '#     <!-- A/D voltage 0, Oxygen, SBE 43 -->',\",
\"  PROCESS= '#     <OxygenSensor SensorID=\\\"38\\\" >',\",
\"  PROCESS= '#       <SerialNumber>2766</SerialNumber>',\",
\"  PROCESS= '#       <CalibrationDate>2023-03-25</CalibrationDate>',\",
\"  PROCESS= '#       <Use2007Equation>1</Use2007Equation>',\",
\"  PROCESS= '#       <CalibrationCoefficients equation=\\\"0\\\" >',\",
\"  PROCESS= '#         <!-- Coefficients for Owens-Millard equation. -->',\",
\"  PROCESS= '#         <Boc>0.0000</Boc>',\",
\"  PROCESS= '#         <Soc>0.0000e+000</Soc>',\",
\"  PROCESS= '#         <offset>0.0000</offset>',\",
\"  PROCESS= '#         <Pcor>0.00e+000</Pcor>',\",
\"  PROCESS= '#         <Tcor>0.0000</Tcor>',\",
\"  PROCESS= '#         <Tau>0.0</Tau>',\",
\"  PROCESS= '#       </CalibrationCoefficients>',\",
\"  PROCESS= '#       <CalibrationCoefficients equation=\\\"1\\\" >',\",
\"  PROCESS= '#         <!-- Coefficients for Sea-Bird equation - SBE calibration in 2007 and later. -->',\",
\"  PROCESS= '#         <Soc>4.8140e-001</Soc>',\",
\"  PROCESS= '#         <offset>-0.5019</offset>',\",
\"  PROCESS= '#         <A>-3.4501e-003</A>',\",
\"  PROCESS= '#         <B> 1.9177e-004</B>',\",
\"  PROCESS= '#         <C>-3.3396e-006</C>',\",
\"  PROCESS= '#         <D0> 2.5826e+000</D0>',\",
\"  PROCESS= '#         <D1> 1.92634e-004</D1>',\",
\"  PROCESS= '#         <D2>-4.64803e-002</D2>',\",
\"  PROCESS= '#         <E> 3.6000e-002</E>',\",
\"  PROCESS= '#         <Tau20> 1.2500</Tau20>',\",
\"  PROCESS= '#         <H1>-3.3000e-002</H1>',\",
\"  PROCESS= '#         <H2> 5.0000e+003</H2>',\",
\"  PROCESS= '#         <H3> 1.4500e+003</H3>',\",
\"  PROCESS= '#       </CalibrationCoefficients>',\",
\"  PROCESS= '#     </OxygenSensor>',\",
\"  PROCESS= '#   </sensor>',\",
\"  PROCESS= '#   <sensor Channel=\\\"7\\\" >',\",
\"  PROCESS= '#     <!-- A/D voltage 1, pH -->',\",
\"  PROCESS= '#     <pH_Sensor SensorID=\\\"43\\\" >',\",
\"  PROCESS= '#       <SerialNumber>1078</SerialNumber>',\",
\"  PROCESS= '#       <CalibrationDate>2023-04-13</CalibrationDate>',\",
\"  PROCESS= '#       <Slope>4.6486</Slope>',\",
\"  PROCESS= '#       <Offset>2.5487</Offset>',\",
\"  PROCESS= '#     </pH_Sensor>',\",
\"  PROCESS= '#   </sensor>',\",
\"  PROCESS= '#   <sensor Channel=\\\"8\\\" >',\",
\"  PROCESS= '#     <!-- A/D voltage 2, Fluorometer, WET Labs ECO-AFL/FL -->',\",
\"  PROCESS= '#     <FluoroWetlabECO_AFL_FL_Sensor SensorID=\\\"20\\\" >',\",
\"  PROCESS= '#       <SerialNumber>FLRT-3363</SerialNumber>',\",
\"  PROCESS= '#       <CalibrationDate>2023-01-25</CalibrationDate>',\",
\"  PROCESS= '#       <ScaleFactor>2.50000000e+001</ScaleFactor>',\",
\"  PROCESS= '#       <!-- Dark output -->',\",
\"  PROCESS= '#       <Vblank>0.0110</Vblank>',\",
\"  PROCESS= '#     </FluoroWetlabECO_AFL_FL_Sensor>',\",
\"  PROCESS= '#   </sensor>',\",
\"  PROCESS= '#   <sensor Channel=\\\"9\\\" >',\",
\"  PROCESS= '#     <!-- A/D voltage 3, Transmissometer, WET Labs C-Star -->',\",
\"  PROCESS= '#     <WET_LabsCStar SensorID=\\\"71\\\" >',\",
\"  PROCESS= '#       <SerialNumber>CST-1628PR</SerialNumber>',\",
\"  PROCESS= '#       <CalibrationDate>2023-04-14</CalibrationDate>',\",
\"  PROCESS= '#       <M>21.8490</M>',\",
\"  PROCESS= '#       <B>-0.1090</B>',\",
\"  PROCESS= '#       <PathLength>0.250</PathLength>',\",
\"  PROCESS= '#     </WET_LabsCStar>',\",
\"  PROCESS= '#   </sensor>',\",
\"  PROCESS= '#   <sensor Channel=\\\"10\\\" >',\",
\"  PROCESS= '#     <!-- A/D voltage 4, Altimeter -->',\",
\"  PROCESS= '#     <AltimeterSensor SensorID=\\\"0\\\" >',\",
\"  PROCESS= '#       <SerialNumber>61114</SerialNumber>',\",
\"  PROCESS= '#       <CalibrationDate></CalibrationDate>',\",
\"  PROCESS= '#       <ScaleFactor>15.000</ScaleFactor>',\",
\"  PROCESS= '#       <Offset>0.000</Offset>',\",
\"  PROCESS= '#     </AltimeterSensor>',\",
\"  PROCESS= '#   </sensor>',\",
\"  PROCESS= '#   <sensor Channel=\\\"11\\\" >',\",
\"  PROCESS= '#     <!-- A/D voltage 5, PAR/Irradiance, Biospherical/Licor -->',\",
\"  PROCESS= '#     <PAR_BiosphericalLicorChelseaSensor SensorID=\\\"42\\\" >',\",
\"  PROCESS= '#       <SerialNumber>70455</SerialNumber>',\",
\"  PROCESS= '#       <CalibrationDate>2023-01-25</CalibrationDate>',\",
\"  PROCESS= '#       <M>1.00000000</M>',\",
\"  PROCESS= '#       <B>0.00000000</B>',\",
\"  PROCESS= '#       <CalibrationConstant>19455000000.00000000</CalibrationConstant>',\",
\"  PROCESS= '#       <Multiplier>1.00000000</Multiplier>',\",
\"  PROCESS= '#       <Offset>0.00710000</Offset>',\",
\"  PROCESS= '#     </PAR_BiosphericalLicorChelseaSensor>',\",
\"  PROCESS= '#   </sensor>',\",
\"  PROCESS= '#   <sensor Channel=\\\"12\\\" >',\",
\"  PROCESS= '#     <!-- A/D voltage 6, Free -->',\",
\"  PROCESS= '#   </sensor>',\",
\"  PROCESS= '#   <sensor Channel=\\\"13\\\" >',\",
\"  PROCESS= '#     <!-- A/D voltage 7, Free -->',\",
\"  PROCESS= '#   </sensor>',\",
\"  PROCESS= '# </Sensors>',\",
\"  PROCESS= '# datcnv_date = Jan 25 2024 10:27:51, 7.26.7.129 [datcnv_vars = 23]',\",
\"  PROCESS= '# datcnv_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\00_raw\\\\CTD_2023_13_033.hex E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\00_raw\\\\CTD_2023_13_033.XMLCON',\",
\"  PROCESS= '# datcnv_skipover = 0',\",
\"  PROCESS= '# datcnv_ox_hysteresis_correction = yes',\",
\"  PROCESS= '# datcnv_ox_tau_correction = yes',\",
\"  PROCESS= '# wildedit_date = Mar 27 2024 12:11:51, 7.26.7.129',\",
\"  PROCESS= '# wildedit_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\01_datCnv\\\\newcnv\\\\CTD_2023_13_033.cnv',\",
\"  PROCESS= '# wildedit_pass1_nstd = 2.0',\",
\"  PROCESS= '# wildedit_pass2_nstd = 20.0',\",
\"  PROCESS= '# wildedit_pass2_mindelta = 0.000e+000',\",
\"  PROCESS= '# wildedit_npoint = 100',\",
\"  PROCESS= '# wildedit_vars = prDM t090C t190C c0mS/cm c1mS/cm CStarTr0 ph par sbeox0V v1 v3',\",
\"  PROCESS= '# wildedit_excl_bad_scans = yes',\",
\"  PROCESS= '# filter_date = Mar 27 2024 12:13:33, 7.26.7.129',\",
\"  PROCESS= '# filter_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\02_processing\\\\CTD_2023_13_033.cnv',\",
\"  PROCESS= '# filter_low_pass_tc_A = 0.030',\",
\"  PROCESS= '# filter_low_pass_tc_B = 0.150',\",
\"  PROCESS= '# filter_low_pass_A_vars =',\",
\"  PROCESS= '# filter_low_pass_B_vars = prDM',\",
\"  PROCESS= '# alignctd_date = Mar 27 2024 12:15:32, 7.26.7.129',\",
\"  PROCESS= '# alignctd_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\02_processing\\\\CTD_2023_13_033.cnv',\",
\"  PROCESS= '# alignctd_adv = sbeox0V 0.500',\",
\"  PROCESS= '# celltm_date = Mar 27 2024 12:20:34, 7.26.7.129',\",
\"  PROCESS= '# celltm_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\02_processing\\\\CTD_2023_13_033.cnv',\",
\"  PROCESS= '# celltm_alpha = 0.0300, 0.0300',\",
\"  PROCESS= '# celltm_tau = 7.0000, 7.0000',\",
\"  PROCESS= '# celltm_temp_sensor_use_for_cond = primary, secondary',\",
\"  PROCESS= '# loopedit_date = Mar 27 2024 12:22:07, 7.26.7.129',\",
\"  PROCESS= '# loopedit_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\02_processing\\\\CTD_2023_13_033.cnv',\",
\"  PROCESS= '# loopedit_minVelocity = 0.200',\",
\"  PROCESS= '# loopedit_surfaceSoak: do not remove',\",
\"  PROCESS= '# loopedit_excl_bad_scans = yes',\",
\"  PROCESS= '# strip_date = Mar 27 2024 12:23:51, 7.26.7.129',\",
\"  PROCESS= '# strip_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\02_processing\\\\CTD_2023_13_033.cnv',\",
\"  PROCESS= '# Derive_date = Mar 27 2024 12:25:21, 7.26.7.129 [derive_vars = 9]',\",
\"  PROCESS= '# Derive_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\02_processing\\\\CTD_2023_13_033.cnv E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\02_processing\\\\CTD_2023_13_033.XMLCON',\",
\"  PROCESS= '# derive_time_window_docdt = seconds: 2',\",
\"  PROCESS= '# derive_ox_tau_correction = yes',\",
\"  PROCESS= '# derive_time_window_dzdt = seconds: 2',\",
\"  PROCESS= '# binavg_date = Mar 27 2024 12:28:03, 7.26.7.129',\",
\"  PROCESS= '# binavg_in = E:\\\\Data\\\\CTD\\\\2023\\\\2023_13_MAP\\\\Data\\\\03_derive\\\\CTD_2023_13_033.cnv',\",
\"  PROCESS= '# binavg_bintype = decibars',\",
\"  PROCESS= '# binavg_binsize = 0.5',\",
\"  PROCESS= '# binavg_excl_bad_scans = yes',\",
\"  PROCESS= '# binavg_skipover = 0',\",
\"  PROCESS= '# binavg_omit = 0',\",
\"  PROCESS= '# binavg_min_scans_bin = 1',\",
\"  PROCESS= '# binavg_max_scans_bin = 2147483647',\",
\"  PROCESS= '# binavg_surface_bin = no, min = 0.000, max = 0.000, value = 0.000',\",
\"  PROCESS= '# file_type = ascii',\",
\"  PROCESS= '*END*',\",
\"HISTORY_HEADER,\",
\"  CREATION_DATE= '02-APR-2024 14:45:36.35',\",
\"  PROCESS= 'Conversion from CNV to ODF',\",
\"HISTORY_HEADER,\",
\"  CREATION_DATE= '02-APR-2024 14:46:20.69',\",
\"  PROCESS= 'Update metadata (organization, chief scientist, cruise description) for the cruise header',\",
\"HISTORY_HEADER,\",
\"  CREATION_DATE= '02-APR-2024 14:49:50.56',\",
\"  PROCESS= 'Update metadata (meteo. latitude, longitude, time, station name, sounding) for the event header',\",
\"HISTORY_HEADER,\",
\"  CREATION_DATE= '25-JUN-2024 11:58:23.73',\",
\"  PROCESS= 'Add a simple offset on the data (FLOR_01) to deacrease the background noise.',\",
\"  PROCESS= 'CTD fluorescence (FLOR_01) calibrated with field titrations.',\",
\"  PROCESS= 'Performed a small normalization to the beam transmission data (TRAN_01).',\",
\"HISTORY_HEADER,\",
\"  CREATION_DATE= '26-JUN-2024 09:55:50.29',\",
\"  PROCESS= 'The downcast profiles were choosen for the QAQC..',\",
\"HISTORY_HEADER,\",
\"  CREATION_DATE= '26-JUN-2024 09:55:50.71',\",
\"  PROCESS= 'Performed a test to detect records with CTD pump off.',\",
\"HISTORY_HEADER,\",
\"  CREATION_DATE= '26-JUN-2024 09:55:51.06',\",
\"  PROCESS= 'Perform the GTSPP quality control.',\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Sea Pressure (sea surface - 0)',\",
\"  UNITS= 'decibars',\",
\"  CODE= 'PRES_01',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 10,\",
\"  PRINT_DECIMAL_PLACES= 3,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 2,\",
\"  MAXIMUM_VALUE= 78.5,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Quality flag: Sea Pressure (sea surface - 0)',\",
\"  UNITS= 'none',\",
\"  CODE= 'QQQQ_01',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 1,\",
\"  PRINT_DECIMAL_PLACES= 0,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 1,\",
\"  MAXIMUM_VALUE= 1,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Temperature (1990 scale)',\",
\"  UNITS= 'deg C',\",
\"  CODE= 'TE90_01',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 10,\",
\"  PRINT_DECIMAL_PLACES= 4,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 5.2711,\",
\"  MAXIMUM_VALUE= 11.9568,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Quality flag: Temperature (1990 scale)',\",
\"  UNITS= 'none',\",
\"  CODE= 'QQQQ_02',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 1,\",
\"  PRINT_DECIMAL_PLACES= 0,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 1,\",
\"  MAXIMUM_VALUE= 3,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Temperature (1990 scale)',\",
\"  UNITS= 'deg C',\",
\"  CODE= 'TE90_02',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 10,\",
\"  PRINT_DECIMAL_PLACES= 4,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 5.2758,\",
\"  MAXIMUM_VALUE= 11.9332,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Quality flag: Temperature (1990 scale)',\",
\"  UNITS= 'none',\",
\"  CODE= 'QQQQ_03',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 1,\",
\"  PRINT_DECIMAL_PLACES= 0,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 1,\",
\"  MAXIMUM_VALUE= 3,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Light Transmission',\",
\"  UNITS= '%',\",
\"  CODE= 'TRAN_01',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 10,\",
\"  PRINT_DECIMAL_PLACES= 2,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 83.8336,\",
\"  MAXIMUM_VALUE= 92.9819,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Quality flag: Light Transmission',\",
\"  UNITS= 'none',\",
\"  CODE= 'QQQQ_04',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 1,\",
\"  PRINT_DECIMAL_PLACES= 0,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 1,\",
\"  MAXIMUM_VALUE= 1,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Fluorescence',\",
\"  UNITS= 'mg/m**3',\",
\"  CODE= 'FLOR_01',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 10,\",
\"  PRINT_DECIMAL_PLACES= 4,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 0.49955,\",
\"  MAXIMUM_VALUE= 1.9432,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Quality flag: Fluorescence',\",
\"  UNITS= 'none',\",
\"  CODE= 'QQQQ_05',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 1,\",
\"  PRINT_DECIMAL_PLACES= 0,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 1,\",
\"  MAXIMUM_VALUE= 1,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Hydrogen Ion Concentration (pH)',\",
\"  UNITS= 'none',\",
\"  CODE= 'PHPH_01',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 10,\",
\"  PRINT_DECIMAL_PLACES= 3,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 7.753,\",
\"  MAXIMUM_VALUE= 7.882,\",
\"  NUMBER_VALID= 119,\",
\"  NUMBER_NULL= 35,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Quality flag: Hydrogen Ion Concentration (pH)',\",
\"  UNITS= 'none',\",
\"  CODE= 'QQQQ_06',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 1,\",
\"  PRINT_DECIMAL_PLACES= 0,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 1,\",
\"  MAXIMUM_VALUE= 9,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Photosynthetic Active Radiation',\",
\"  UNITS= 'ueinsteins/s/m**2',\",
\"  CODE= 'PSAR_01',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 10,\",
\"  PRINT_DECIMAL_PLACES= 3,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= NaN,\",
\"  MAXIMUM_VALUE= NaN,\",
\"  NUMBER_VALID= 0,\",
\"  NUMBER_NULL= 154,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Practical Salinity',\",
\"  UNITS= 'psu',\",
\"  CODE= 'PSAL_01',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 10,\",
\"  PRINT_DECIMAL_PLACES= 4,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 18.3702,\",
\"  MAXIMUM_VALUE= 27.6635,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Quality flag: Practical Salinity',\",
\"  UNITS= 'none',\",
\"  CODE= 'QQQQ_07',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 1,\",
\"  PRINT_DECIMAL_PLACES= 0,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 1,\",
\"  MAXIMUM_VALUE= 3,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Practical Salinity',\",
\"  UNITS= 'psu',\",
\"  CODE= 'PSAL_02',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 10,\",
\"  PRINT_DECIMAL_PLACES= 4,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 18.3955,\",
\"  MAXIMUM_VALUE= 27.6606,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Quality flag: Practical Salinity',\",
\"  UNITS= 'none',\",
\"  CODE= 'QQQQ_08',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 1,\",
\"  PRINT_DECIMAL_PLACES= 0,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 1,\",
\"  MAXIMUM_VALUE= 3,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Dissolved Oxygen',\",
\"  UNITS= 'µM',\",
\"  CODE= 'OXYM_01',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 10,\",
\"  PRINT_DECIMAL_PLACES= 3,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 279.0749,\",
\"  MAXIMUM_VALUE= 288.6179,\",
\"  NUMBER_VALID= 150,\",
\"  NUMBER_NULL= 4,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Quality flag: Dissolved Oxygen',\",
\"  UNITS= 'none',\",
\"  CODE= 'QQQQ_10',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 1,\",
\"  PRINT_DECIMAL_PLACES= 0,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 1,\",
\"  MAXIMUM_VALUE= 9,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Sigma-T (rho(s, t, 0)-1000)',\",
\"  UNITS= 'kg/m^3',\",
\"  CODE= 'SIGT_01',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 10,\",
\"  PRINT_DECIMAL_PLACES= 4,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 13.7187,\",
\"  MAXIMUM_VALUE= 21.8378,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Quality flag: Sigma-T (rho(s, t, 0)-1000)',\",
\"  UNITS= 'none',\",
\"  CODE= 'QQQQ_11',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 1,\",
\"  PRINT_DECIMAL_PLACES= 0,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 1,\",
\"  MAXIMUM_VALUE= 3,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Sigma-Theta (rho(s, Theta, 0)-1000)',\",
\"  UNITS= 'kg/m^3',\",
\"  CODE= 'SIGP_01',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 10,\",
\"  PRINT_DECIMAL_PLACES= 4,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 13.7187,\",
\"  MAXIMUM_VALUE= 21.8383,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Quality flag: Sigma-Theta (rho(s, Theta, 0)-1000)',\",
\"  UNITS= 'none',\",
\"  CODE= 'QQQQ_12',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 1,\",
\"  PRINT_DECIMAL_PLACES= 0,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 1,\",
\"  MAXIMUM_VALUE= 3,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Sigma-T (rho(s, t, 0)-1000)',\",
\"  UNITS= 'kg/m^3',\",
\"  CODE= 'SIGT_02',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 10,\",
\"  PRINT_DECIMAL_PLACES= 4,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 13.7419,\",
\"  MAXIMUM_VALUE= 21.835,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Quality flag: Sigma-T (rho(s, t, 0)-1000)',\",
\"  UNITS= 'none',\",
\"  CODE= 'QQQQ_13',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 1,\",
\"  PRINT_DECIMAL_PLACES= 0,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 1,\",
\"  MAXIMUM_VALUE= 3,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Sigma-Theta (rho(s, Theta, 0)-1000)',\",
\"  UNITS= 'kg/m^3',\",
\"  CODE= 'SIGP_02',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 10,\",
\"  PRINT_DECIMAL_PLACES= 4,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 13.7419,\",
\"  MAXIMUM_VALUE= 21.8355,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Quality flag: Sigma-Theta (rho(s, Theta, 0)-1000)',\",
\"  UNITS= 'none',\",
\"  CODE= 'QQQQ_14',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 1,\",
\"  PRINT_DECIMAL_PLACES= 0,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 1,\",
\"  MAXIMUM_VALUE= 3,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\"  TYPE= 'DOUB',\",
\"  NAME= 'Quality flag: QCFF',\",
\"  UNITS= 'none',\",
\"  CODE= 'QCFF_01',\",
\"  NULL_VALUE= -9.900000E+01,\",
\"  PRINT_FIELD_WIDTH= 4,\",
\"  PRINT_DECIMAL_PLACES= 0,\",
\"  ANGLE_OF_SECTION= 0.000000,\",
\"  MAGNETIC_VARIATION= 0.000000,\",
\"  DEPTH= 0.000000 ,\",
\"  MINIMUM_VALUE= 0,\",
\"  MAXIMUM_VALUE= 4352,\",
\"  NUMBER_VALID= 154,\",
\"  NUMBER_NULL= 0,\",
\"RECORD_HEADER,\",
\"  NUM_CALIBRATION= 10,\",
\"  NUM_SWING= 0,\",
\"  NUM_HISTORY= 8,\",
\"  NUM_CYCLE= 154,\",
\"  NUM_PARAM= 28,\",
\" -- DATA -- \"
]
}";
    String platform "research vessel";
    String platform_id "18OL";
    String platform_name "Coriolis II";
    String platform_owner "institutions: ISMER, UQAM, McGill University, INRS-ETE, MLI-DFO";
    String platform_type "Research Vessel";
    String platform_vocabulary "https://vocab.nerc.ac.uk/collection/L06/current/";
    String profile_direction "DN";
    String publisher_identifier "https://ror.org/03wfagk22";
    String publisher_name "St. Lawrence Global Observatory";
    String publisher_name_fr "Observatoire global du Saint-Laurent";
    String sdn_platform_urn "SDN:C17::18OL";
    String seabird_processing_modules 
"# datcnv_date = Jan 25 2024 10:27:51, 7.26.7.129 [datcnv_vars = 23]
# datcnv_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\00_raw\\CTD_2023_13_033.hex E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\00_raw\\CTD_2023_13_033.XMLCON
# datcnv_skipover = 0
# datcnv_ox_hysteresis_correction = yes
# datcnv_ox_tau_correction = yes
# wildedit_date = Mar 27 2024 12:11:51, 7.26.7.129
# wildedit_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\01_datCnv\\newcnv\\CTD_2023_13_033.cnv
# wildedit_pass1_nstd = 2.0
# wildedit_pass2_nstd = 20.0
# wildedit_pass2_mindelta = 0.000e+000
# wildedit_npoint = 100
# wildedit_vars = prDM t090C t190C c0mS/cm c1mS/cm CStarTr0 ph par sbeox0V v1 v3
# wildedit_excl_bad_scans = yes
# filter_date = Mar 27 2024 12:13:33, 7.26.7.129
# filter_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv
# filter_low_pass_tc_A = 0.030
# filter_low_pass_tc_B = 0.150
# filter_low_pass_A_vars =
# filter_low_pass_B_vars = prDM
# alignctd_date = Mar 27 2024 12:15:32, 7.26.7.129
# alignctd_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv
# alignctd_adv = sbeox0V 0.500
# celltm_date = Mar 27 2024 12:20:34, 7.26.7.129
# celltm_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv
# celltm_alpha = 0.0300, 0.0300
# celltm_tau = 7.0000, 7.0000
# celltm_temp_sensor_use_for_cond = primary, secondary
# loopedit_date = Mar 27 2024 12:22:07, 7.26.7.129
# loopedit_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv
# loopedit_minVelocity = 0.200
# loopedit_surfaceSoak: do not remove
# loopedit_excl_bad_scans = yes
# strip_date = Mar 27 2024 12:23:51, 7.26.7.129
# strip_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv
# Derive_date = Mar 27 2024 12:25:21, 7.26.7.129 [derive_vars = 9]
# Derive_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.cnv E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\02_processing\\CTD_2023_13_033.XMLCON
# derive_time_window_docdt = seconds: 2
# derive_ox_tau_correction = yes
# derive_time_window_dzdt = seconds: 2
# binavg_date = Mar 27 2024 12:28:03, 7.26.7.129
# binavg_in = E:\\Data\\CTD\\2023\\2023_13_MAP\\Data\\03_derive\\CTD_2023_13_033.cnv
# binavg_bintype = decibars
# binavg_binsize = 0.5
# binavg_excl_bad_scans = yes
# binavg_skipover = 0
# binavg_omit = 0
# binavg_min_scans_bin = 1
# binavg_max_scans_bin = 2147483647
# binavg_surface_bin = no, min = 0.000, max = 0.000, value = 0.000";
    String source "/mnt/data/odf/CTD_2023_13_033_1_DN.odf";
    String sourceUrl "(local files)";
    Float64 Southernmost_Northing 47.92932;
    String standard_name_vocabulary "CF Standard Name Table v70";
    String subsetVariables "Station_Name, Station_ID, QTEMP_02, QPSAL_02, QTRAN_01, QCPHLPR01, QPHPH_01, QDOXYSCKG, QSIGT_02, QSIGP_02";
    String summary "Conductivity, Temperature, Depth (CTD) profile data collected from the ship Coriolis II on the PLAINE mission from 05-Jul-2023 to 11-Jul-2023.";
    String summary_fr "Profils de salinité, température, pression collecté à partir du Coriolis II pendant la mission PLAINE entre le 05 juillet 2023 et le 11 juillet 2023.";
    String time_coverage_duration "P0DT0H0M0S";
    String time_coverage_end "2023-07-11T23:57:10Z";
    String time_coverage_start "2023-07-05T21:40:06Z";
    String title "RQM - CTD Data From the Coriolis II Concerted Mission (MAP2023): PLAINE | Données CTD de la mission concertée sur le Coriolis II (MAP2023) : PLAINE";
    Float64 Westernmost_Easting -70.87116;
    String wmo_platform_code "8818570";
  }
}

 

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Using tabledap to Request Data and Graphs from Tabular Datasets

tabledap lets you request a data subset, a graph, or a map from a tabular dataset (for example, buoy data), via a specially formed URL. tabledap uses the OPeNDAP Data Access Protocol (DAP) and its selection constraints.

The URL specifies what you want: the dataset, a description of the graph or the subset of the data, and the file type for the response.

• (easy) You can get data by using the dataset's Data Access Form or Subset form. They make the URL for you.
• (easy) You can make a graph or map by using the dataset's Make A Graph form. It makes the URL for you.
• (not hard) You can bypass the forms and get the data or make a graph or map by generating the URL by hand or with a computer program or script.

Tabledap request URLs must be in the form
https://coastwatch.pfeg.noaa.gov/erddap/tabledap/datasetID.fileType{?query}
For example,
https://coastwatch.pfeg.noaa.gov/erddap/tabledap/pmelTaoDySst.htmlTable?longitude,latitude,time,station,wmo_platform_code,T_25&time>=2015-05-23T12:00:00Z&time<=2015-05-31T12:00:00Z
Thus, the query is often a comma-separated list of desired variable names, followed by a collection of constraints (e.g., variable<value), each preceded by '&' (which is interpreted as "AND").

For details, see the tabledap Documentation.

 

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ERDDAP, Version 2.25_1
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