Présenté par OGSL l'association régionale du Saint-Laurent SIOOC
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Brought to you by
SLGO
the St. Lawrence regional association of
CIOOS
Présenté par OGSL l'association régionale du Saint-Laurent SIOOC
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| Dataset Title: | RQM - CTD Data From the Winter Concerted Mission Aboard the CCGS Amundsen (MOH2018): Odyssée Saint-Laurent 2018 | Données CTD de la mission concertée hivernale à bord du NGCC Amundsen (MOH2018) : Odyssée Saint-Laurent 2018 
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| Institution: | Réseau Québec maritime (Dataset ID: rqmMoh2018Ctd) |
| Information: | Summary
| License
| FGDC
| ISO 19115
| Metadata
| Background
| Subset
| Files
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Attributes {
s {
stationID {
Int32 actual_range 2, 17;
String ioos_category "Identifier";
String long_name "Station Identifier";
String units "unitless";
}
time {
String _CoordinateAxisType "Time";
Float64 actual_range 1.51826131e+9, 1.519395488e+9;
String axis "T";
String calendar "proleptic_gregorian";
String cf_role "profile_id";
String coverage_content_type "coordinate";
String ioos_category "Time";
String long_name "Time";
String name "time";
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 47.31419, 49.53358;
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 standard_name "latitude";
String units "degrees_north";
}
longitude {
String _CoordinateAxisType "Lon";
Float64 _FillValue NaN;
Float64 actual_range -70.51594, -60.57004;
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 standard_name "longitude";
String units "degrees_east";
}
PRESPR01 {
Float64 _FillValue NaN;
Float64 actual_range 10.0, 444.4;
String ancillary_variables "QPRES_01 QCFF_01";
Float64 colorBarMaximum 5000.0;
Float64 colorBarMinimum 0.0;
String coverage_content_type "coordinate";
String instrument "Pressure, Digiquartz with TC";
String instrument_description "A family of encapsulated pressure sensors based on Paroscientific patented technology that determines pressure by measuring the oscillating frequency of a quartz crystal resonator.";
String instrument_identifier_URL "https://vocab.nerc.ac.uk/collection/L22/current/TOOL0931/";
String instrument_name "Paroscientific Digiquartz depth sensors";
String ioos_category "Pressure";
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 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 "dbar";
}
depth {
String _CoordinateAxisType "Height";
String _CoordinateZisPositive "down";
Float64 _FillValue NaN;
Float64 actual_range 9.914467441184206, 440.19439281355176;
String ancillary_variables "QPRES_01 QCFF_01";
String axis "Z";
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";
}
TEMPS901 {
Float64 _FillValue NaN;
Float64 actual_range -1.7088, 7.2052;
String ancillary_variables "QTEMP_01 QCFF_01";
Float64 colorBarMaximum 32.0;
Float64 colorBarMinimum 0.0;
String coverage_content_type "physicalMeasurement";
String instrument "CTD,Temperature";
String instrument_description "Water temperature sensor designed for use on the SBE 9plus CTD system. The sensor operates over the range -5 to +35 °C, a resolution of 0.0003 °C at 24 Hz and an initial accuracy of ± 0.001 °C.";
String instrument_identifier_URL "https://vocab.nerc.ac.uk/collection/L22/current/TOOL0416/";
String instrument_name "Sea-Bird SBE 3plus (SBE 3P) temperature sensor";
String ioos_category "Temperature";
String legacy_gf3_code "TE90_01";
String long_name "Temperature (ITS-90) of the water body by CTD or STD";
Float64 missing_value NaN;
String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CFSN0335/";
String scale "ITS-90";
String sdn_P02_urn "SDN:P02::TEMP";
String sdn_parameter_name "Temperature (ITS-90) of the water body by CTD or STD";
String sdn_parameter_urn "SDN:P01::TEMPS901";
String sdn_uom_name "Degrees Celsius";
String sdn_uom_urn "SDN:P06::UPAA";
String standard_name "sea_water_temperature";
String units "degree_C";
}
QTEMP_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_02";
String long_name "Quality Flag for Parameter: Temperature (1990 scale)";
String standard_name "status_flag";
String units "unitless";
}
PSALST01 {
Float64 _FillValue NaN;
Float64 actual_range 20.547, 34.9856;
String ancillary_variables "QPSAL_01 QCFF_01";
Float64 colorBarMaximum 37.0;
Float64 colorBarMinimum 32.0;
String coverage_content_type "physicalMeasurement";
String instrument "CTD";
String ioos_category "Salinity";
String legacy_gf3_code "PSAL_01";
String long_name "Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm";
Float64 missing_value NaN;
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::PSALST01";
String sdn_uom_name "Dimensionless";
String sdn_uom_urn "SDN:P06::UUUU";
String standard_name "sea_water_practical_salinity";
String units "psu";
}
QPSAL_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_03";
String long_name "Quality Flag for Parameter: Practical Salinity";
String standard_name "status_flag";
String units "unitless";
}
CNDCST01 {
Float64 _FillValue NaN;
Float64 actual_range 1.766443, 3.549813;
String ancillary_variables "QCFF_01";
Float64 colorBarMaximum 40.0;
Float64 colorBarMinimum 30.0;
String coverage_content_type "physicalMeasurement";
String instrument "Conductivity";
String instrument_description "Water conductivity sensor designed for use on the SBE 9plus or SBE 25 CTD system. The sensor operates over the range 0 to 7 S/m, with a resolution of 0.00004 S/m at 24 Hz and an initial accuracy of 0.0003 S/m.";
String instrument_identifier_URL "https://vocab.nerc.ac.uk/collection/L22/current/TOOL0417/";
String instrument_name "Sea-Bird SBE 4C conductivity sensor";
String ioos_category "salinity";
String legacy_gf3_code "CNDC_01";
String long_name "Electrical Conductivity";
Float64 missing_value NaN;
String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CFSN0394/";
String sdn_P02_urn "SDN:P02::CNDC";
String sdn_parameter_name "Electrical conductivity of the water body by CTD";
String sdn_parameter_urn "SDN:P01::CNDCST01";
String sdn_uom_name "Siemens per metre";
String sdn_uom_urn "SDN:P06::UECA";
String standard_name "sea_water_electrical_conductivity";
String units "S m-1";
}
CPHLPR01 {
Float64 _FillValue NaN;
Float64 actual_range 0.0188, 0.2792;
String ancillary_variables "QCFF_01";
Float64 colorBarMaximum 30.0;
Float64 colorBarMinimum 0.03;
String colorBarScale "Log";
String coverage_content_type "physicalMeasurement";
String instrument_description "A high-performance, low power fluorometer for in-situ measurements of chlorophyll-a able to operate at depths of up to 6000 metres. May be used open in-situ or with a pump through sample volume. Internal circuitry gives an output voltage that is proportional to chlorophyll-a concentration.";
String instrument_identifier_URL "https://vocab.nerc.ac.uk/collection/L22/current/TOOL0119/";
String instrument_name "Seapoint chlorophyll fluorometer";
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";
Float64 missing_value NaN;
String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CF12S21/";
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";
}
CPHLPR02 {
Float64 _FillValue NaN;
Float64 actual_range 0.0107, 0.2268;
String ancillary_variables "QCFF_01";
Float64 colorBarMaximum 30.0;
Float64 colorBarMinimum 0.03;
String colorBarScale "Log";
String coverage_content_type "physicalMeasurement";
String instrument_description "The ECO-FLNTU combines the ECO fluorometer with an optical turbidity sensor, allowing the user to simultaneously measure chlorophyll fluorescence at 470 nm, and turbidity at 700 nm within the same volume. The ECO-FLNTU provides the capabilities of the ECO-FLNTU(RT), but with the addition of periodic sampling (as opposed to operating continuously when powered). The fluorometer can typically measure phytoplankton concentrations in the range 0.01-50 ug/l, with a sensitivity of 0.01 ug/l. The turbidity sensor can measure within the range 0.01-25 NTU, with a sensitivity of 0.01 NTU. The instrument is stable over a temperature range of 0-20 degC and is rated to a depth of 600 m as standard, with an optional deeper (6000 m) rated unit.";
String instrument_identifier_URL "https://vocab.nerc.ac.uk/collection/L22/current/TOOL0215/";
String instrument_name "WET Labs {Sea-Bird WETLabs} ECO FLNTU combined fluorometer and turbidity sensor";
String ioos_category "Other";
String legacy_gf3_code "FLOR_02";
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, 2";
Float64 missing_value NaN;
String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CF12S21/";
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::CPHLPR02";
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";
}
TURBNTU01 {
Float64 _FillValue NaN;
Float64 actual_range 0.4, 8.5;
String ancillary_variables "QCFF_01";
Float64 colorBarMaximum 0.8;
Float64 colorBarMinimum 0.30000000000000004;
String coverage_content_type "physicalMeasurement";
String instrument_description "The ECO-FLNTU combines the ECO fluorometer with an optical turbidity sensor, allowing the user to simultaneously measure chlorophyll fluorescence at 470 nm, and turbidity at 700 nm within the same volume. The ECO-FLNTU provides the capabilities of the ECO-FLNTU(RT), but with the addition of periodic sampling (as opposed to operating continuously when powered). The fluorometer can typically measure phytoplankton concentrations in the range 0.01-50 ug/l, with a sensitivity of 0.01 ug/l. The turbidity sensor can measure within the range 0.01-25 NTU, with a sensitivity of 0.01 NTU. The instrument is stable over a temperature range of 0-20 degC and is rated to a depth of 600 m as standard, with an optional deeper (6000 m) rated unit.";
String instrument_identifier_URL "https://vocab.nerc.ac.uk/collection/L22/current/TOOL0215/";
String instrument_name "WET Labs {Sea-Bird WETLabs} ECO FLNTU combined fluorometer and turbidity sensor";
String ioos_category "Total Suspended Matter";
String legacy_gf3_code "TURB_01";
String long_name "Turbidity of water in the water body";
Float64 missing_value NaN;
String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/7B3X6L2J/";
String sdn_parameter_name "Turbidity of water in the water body";
String sdn_parameter_urn "SDN:P01::TURBXX01";
String sdn_uom_name "Nephelometric Turbidity Units";
String sdn_uom_urn "SDN:P06::USTU";
String standard_name "sea_water_turbidity";
String units "ntu";
}
IRRDUV01 {
Float64 _FillValue NaN;
Float64 actual_range 0.0, 0.001;
String ancillary_variables "QCFF_01";
Float64 colorBarMaximum 1.0;
Float64 colorBarMinimum -1.0;
String coverage_content_type "physicalMeasurement";
String instrument "PAR/Irradiance, Biospherical/Licor";
String instrument_description "Log output quantum cosine PAR profiling sensor. For use with 12 bit ADC systems. Single channel analog output voltage is proportional to the log of incident PAR (Photosynthetically Available Radiation: 400-700 nm) irradiance. Cosine corrected for use underwater to depths up to 1000 m.";
String instrument_identifier_URL "https://vocab.nerc.ac.uk/collection/L22/current/TOOL0288/";
String instrument_name "Biospherical QCP-2300 underwater PAR sensor";
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 "uEinsteins s-1 m-2";
}
SIGTEQST01 {
Float64 _FillValue NaN;
Float64 actual_range 16.4556, 27.5502;
String ancillary_variables "QSIGT_01 QCFF_01";
Float64 colorBarMaximum 200.0;
Float64 colorBarMinimum 0.0;
String coverage_content_type "physicalMeasurement";
String ioos_category "Other";
String legacy_gf3_code "SIGT_01";
String long_name "Sigma-T of the water body by computation from salinity and temperature using UNESCO algorithm";
Float64 missing_value NaN;
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_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_04";
String long_name "Quality Flag for Parameter: Sigma-T (rho(s, t, 0)-1000)";
String standard_name "status_flag";
String units "unitless";
}
OXYM {
Float64 _FillValue NaN;
Float64 actual_range 59.28, 365.594;
String ancillary_variables "QCFF_01";
Float64 colorBarMaximum 500.0;
Float64 colorBarMinimum 0.0;
String comments "physicalMeasurement";
String coverage_content_type "Dissolved O2";
String instrument "Oxygen, SBE 43";
String instrument_description "High performance through-flow Clark polarographic membrane sensor designed to be plumbed in to a Sea-Bird underwater unit pumped water supply on a profiling CTD package.";
String instrument_identifier_URL "https://vocab.nerc.ac.uk/collection/L22/current/TOOL0036/";
String instrument_name "Sea-Bird SBE 43 Dissolved Oxygen Sensor";
String legacy_gf3_code "OXYM_01";
String long_name "Concentration of oxygen {O2 CAS 7782-44-7} per unit volume of the water body [dissolved plus reactive particulate phase]";
Float64 missing_value NaN;
String nerc_identifier "https://vocab.nerc.ac.uk/collection/P07/current/CF14N29/";
String sdn_P02_urn "SDN:P02::DOXY";
String sdn_parameter_name "Concentration of oxygen {O2 CAS 7782-44-7} per unit volume of the water body [dissolved plus reactive particulate phase]";
String sdn_parameter_urn "SDN:P01::DOXYZZ01";
String sdn_uom_name "Micromoles per litre";
String sdn_uom_urn "SDN:P06::MMPL";
String standard_name "mole_concentration_of_dissolved_molecular_oxygen_in_sea_water";
String units "umol L-1";
}
}
NC_GLOBAL {
String call_sign "CGDT";
String cdm_data_type "Profile";
String cdm_profile_variables "time";
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 "info-RQM@uqar.ca";
String creator_institution "UQAR-ISMER";
String creator_name "Réseau Québec Maritime (RQM)";
String creator_type "institution";
String creator_url "https://www.rqm.quebec/";
String cruise_chief_scientist "Gesche Winkler/Jean-Carlos Montero Serrano";
String cruise_end_date "2018-02-25T12:00:00Z";
String cruise_name "Odyssée St-Laurent 1899";
Float64 cruise_number 2018099;
String cruise_start_date "2018-02-08T12:00:00Z";
String data_type "CTD";
String date_issued "2018-03-26T10:59:35Z";
String date_modified "2018-04-03T13:29:11.880000Z";
String defaultDataQuery "&time>=min(time)";
String defaultGraphQuery "&time>=min(time)";
Float64 Easternmost_Easting -60.57004;
String event_data_type "CTD";
Float64 event_depth_off_bottom 8.22;
String event_end_date_time "2018-02-23T14:37:23Z";
Float64 event_end_latitude 49.53298;
Float64 event_end_longitude -66.17;
Float64 event_initial_latitude 49.53358;
Float64 event_initial_longitude -66.17586;
Float64 event_max_depth 321.78;
Float64 event_min_depth 9.91;
Float64 event_qualifier1 1;
String event_qualifier2 "DN";
Float64 event_sampling_interval -99.0;
Float64 event_sounding 330.0;
String event_start_date_time "2018-02-23T14:18:08Z";
String featureType "Profile";
Float64 geospatial_lat_max 49.53358;
Float64 geospatial_lat_min 47.31419;
String geospatial_lat_units "degrees_north";
Float64 geospatial_lon_max -60.57004;
Float64 geospatial_lon_min -70.51594;
String geospatial_lon_units "degrees_east";
Float64 geospatial_vertical_max 440.19439281355176;
Float64 geospatial_vertical_min 9.914467441184206;
String geospatial_vertical_positive "down";
String geospatial_vertical_units "m";
String history
"# SEA-BIRD INSTRUMENTS HEADER
2018-03-26T13:43:18Z # datcnv_date = Mar 26 2018 10:59:35, 7.26.6.28 [datcnv_vars = 25]
2018-03-26T13:43:18Z # datcnv_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\00_raw\\1899017.hex G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\00_raw\\1899017.XMLCON
2018-03-26T13:43:18Z # datcnv_skipover = 0
2018-03-26T13:43:18Z # datcnv_ox_hysteresis_correction = yes
2018-03-26T13:43:18Z # datcnv_ox_tau_correction = yes
2018-03-26T13:43:18Z # filter_date = Mar 26 2018 13:35:55, 7.26.6.28
2018-03-26T13:43:18Z # filter_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\01_datCnv\\newcnv\\1899017.cnv
2018-03-26T13:43:18Z # filter_low_pass_tc_A = 0.150
2018-03-26T13:43:18Z # filter_low_pass_tc_B = 1.000
2018-03-26T13:43:18Z # filter_low_pass_A_vars = prDM
2018-03-26T13:43:18Z # filter_low_pass_B_vars =
2018-03-26T13:43:18Z # alignctd_date = Mar 26 2018 13:36:45, 7.26.6.28
2018-03-26T13:43:18Z # alignctd_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv
2018-03-26T13:43:18Z # alignctd_adv = sbeox0V 4.500
2018-03-26T13:43:18Z # celltm_date = Mar 26 2018 13:37:29, 7.26.6.28
2018-03-26T13:43:18Z # celltm_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv
2018-03-26T13:43:18Z # celltm_alpha = 0.0300, 0.0000
2018-03-26T13:43:18Z # celltm_tau = 7.0000, 0.0000
2018-03-26T13:43:18Z # celltm_temp_sensor_use_for_cond = primary,
2018-03-26T13:43:18Z # loopedit_date = Mar 26 2018 13:38:26, 7.26.6.28
2018-03-26T13:43:18Z # loopedit_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv
2018-03-26T13:43:18Z # loopedit_minVelocity = 0.100
2018-03-26T13:43:18Z # loopedit_surfaceSoak: do not remove
2018-03-26T13:43:18Z # loopedit_excl_bad_scans = yes
2018-03-26T13:43:18Z # strip_date = Mar 26 2018 13:40:17, 7.26.6.28
2018-03-26T13:43:18Z # strip_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv
2018-03-26T13:43:18Z # Derive_date = Mar 26 2018 13:41:17, 7.26.6.28 [derive_vars = 7]
2018-03-26T13:43:18Z # Derive_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.XMLCON
2018-03-26T13:43:18Z # derive_time_window_docdt = seconds: 1
2018-03-26T13:43:18Z # derive_ox_tau_correction = yes
2018-03-26T13:43:18Z # derive_time_window_dzdt = seconds: 1
2018-03-26T13:43:18Z # binavg_date = Mar 26 2018 13:43:18, 7.26.6.28
2018-03-26T13:43:18Z # binavg_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\03_derive\\1899017.cnv
2018-03-26T13:43:18Z # binavg_bintype = decibars
2018-03-26T13:43:18Z # binavg_binsize = 0.2
2018-03-26T13:43:18Z # binavg_excl_bad_scans = yes
2018-03-26T13:43:18Z # binavg_skipover = 0
2018-03-26T13:43:18Z # binavg_surface_bin = no, min = 0.000, max = 0.000, value = 0.000
2018-03-26T13:43:18Z # file_type = ascii
# ODF Internal Processing Notes
2018-03-26T15:00:35Z Conversion from CNV to ODF
# Convert ODF to NetCDF with ocean_data_parser V 0.3.0
2024-02-01T14:36:03Z Rename QQQQ flags to QXXXX convention: {'QQQQ_01': 'QPRES_01', 'QQQQ_02': 'QTE90_01', 'QQQQ_03': 'QPSAL_01', 'QQQQ_04': 'QSIGT_01'}
2024-02-01T14:36:03Z Generate new vocabulary variables: PRES_01 = PRESPR01; TE90_01 = TEMPP901; CNDC_01 = CNDCST01; FLOR_01 = CPHLPR01; FLOR_02 = CPHLPR02; TURB_01 = TURBNTU01; PHPH_01 = PHXXZZ01; PSAR_01 = IRRDUV01; PSAL_01 = PSLTZZ01; SIGT_01 = SIGTEQST01; OXYM_01 = OXYM;
2025-01-22T16:00:01Z (local files)
2025-01-22T16:00:01Z https://erddap.ogsl.ca/erddap/tabledap/rqmMoh2018Ctd.html";
String ices_platform_codes "18DL";
String infoUrl "https://www.rqm.quebec/missions-annuelles/mission-hivernale-2018/";
String institution "Réseau Québec maritime";
String instrument "Sea-Bird SBE 911plus";
String instrument_description "High precision and accuracy CTD comprising an SBE 9plus underwater unit (SBE 3 temperature and SBE 4 conductivity sensors) and an SBE 11plus deck unit.";
String instrument_identifier "https://vocab.nerc.ac.uk/collection/L22/current/TOOL0058/";
String instrument_inst_type "Sea-Bird";
String instrument_manufacturer_header
"* Sea-Bird SBE 9 Data File:
* FileName = E:\\CTD-Rosette_raw_Data\\2018\\1899\\1899017.hex
* Software Version Seasave V 7.23.2
* Temperature SN = 4204
* Conductivity SN = 2696
* Number of Bytes Per Scan = 31
* Number of Voltage Words = 4
* Number of Scans Averaged by the Deck Unit = 1
* System UpLoad Time = Feb 23 2018 14:18:08
* NMEA Latitude = 49 31.98 N
* NMEA Longitude = 066 10.74 W
* NMEA UTC (Time) = Feb 23 2018 14:07:38
* Store Lat/Lon Data = Append to Every Scan
* SBE 11plus V 5.1g
* number of scans to average = 1
* pressure baud rate = 9600
* NMEA baud rate = 9600
* GPIB address = 1
* advance primary conductivity 0.073 seconds
* advance secondary conductivity 0.073 seconds
* delete word 3 from scan
* delete word 4 from scan
* autorun on power up is disabled
* S>
** Station:
* System UTC = Feb 23 2018 14:18:08
# nquan = 28
# nvalues = 3149
# units = specified
# name 0 = scan: Scan Count
# name 1 = prDM: Pressure, Digiquartz [db]
# name 2 = t090C: Temperature [ITS-90, deg C]
# name 3 = c0mS/cm: Conductivity [mS/cm]
# name 4 = sbeox0V: Oxygen raw, SBE 43 [V]
# name 5 = flSP: Fluorescence, Seapoint
# name 6 = flECO-AFL: Fluorescence, WET Labs ECO-AFL/FL [mg/m^3]
# name 7 = turbWETntu0: Turbidity, WET Labs ECO [NTU]
# name 8 = ph: pH
# name 9 = par: PAR/Irradiance, Biospherical/Licor
# name 10 = latitude: Latitude [deg]
# name 11 = longitude: Longitude [deg]
# name 12 = timeM: Time, Elapsed [minutes]
# name 13 = pumps: Pump Status
# name 14 = v1: Voltage 1
# name 15 = v2: Voltage 2
# name 16 = v6: Voltage 6
# name 17 = v7: Voltage 7
# name 18 = sfdSM: Seafloor depth [salt water, m]
# name 19 = nbf: Bottles Fired
# name 20 = sal00: Salinity, Practical [PSU]
# name 21 = sigma-t00: Density [sigma-t, kg/m^3 ]
# name 22 = sbeox0ML/L: Oxygen, SBE 43 [ml/l], WS = 1
# name 23 = sbeox0Mg/L: Oxygen, SBE 43 [mg/l], WS = 1
# name 24 = sbeox0Mm/L: Oxygen, SBE 43 [umol/l], WS = 1
# name 25 = dz/dtM: Descent Rate [m/s], WS = 1
# name 26 = accM: Acceleration [m/s^2], WS = 1
# name 27 = flag: flag
# span 0 = 2453, 27722
# span 1 = 10.000, 324.804
# span 2 = -1.7036, 6.1135
# span 3 = 25.466313, 34.396204
# span 4 = 0.9615, 2.5707
# span 5 = 4.7416e-02, 6.8217e-01
# span 6 = 0.0488, 0.5232
# span 7 = 0.3762, 0.6674
# span 8 = 10.464, 13.862
# span 9 = 1.0000e-12, 1.0000e-12
# span 10 = 49.53296, 49.53358
# span 11 = -66.17586, -66.17000
# span 12 = 1.7025, 19.2506
# span 13 = 1, 1
# span 14 = 3.6679, 4.4949
# span 15 = 0.0158, 0.2274
# span 16 = 0.0781, 0.1572
# span 17 = 0.2691, 0.4147
# span 18 = 20.101, 390.432
# span 19 = 0, 16
# span 20 = 31.6733, 34.7515
# span 21 = 25.4398, 27.3470
# span 22 = 1.3675, 7.8644
# span 23 = 1.9543, 11.2390
# span 24 = 61.073, 351.223
# span 25 = -1.002, 1.012
# span 26 = -0.28, 0.52
# span 27 = 0.0000e+00, 0.0000e+00
# interval = decibars: 0.2
# start_time = Feb 23 2018 14:18:08 [System UTC, header]
# bad_flag = -9.990e-29
# <Sensors count=\"11\" >
# <sensor Channel=\"1\" >
# <!-- Frequency 0, Temperature -->
# <TemperatureSensor SensorID=\"55\" >
# <SerialNumber>4204</SerialNumber>
# <CalibrationDate>11-Nov-17</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>4.40417834e-003</G>
# <H>6.47557373e-004</H>
# <I>2.29163359e-005</I>
# <J>1.98448760e-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>2696</SerialNumber>
# <CalibrationDate>10-Nov-17</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>-9.82311197e+000</G>
# <H>1.41028436e+000</H>
# <I>-1.06360611e-003</I>
# <J>1.63522188e-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>0730</SerialNumber>
# <CalibrationDate>24-Apr-17</CalibrationDate>
# <C1>-4.394296e+004</C1>
# <C2>-3.550898e-001</C2>
# <C3>1.358660e-002</C3>
# <D1>3.762900e-002</D1>
# <D2>0.000000e+000</D2>
# <T1>3.051257e+001</T1>
# <T2>-4.037625e-004</T2>
# <T3>4.254490e-006</T3>
# <T4>2.459240e-009</T4>
# <Slope>0.99996136</Slope>
# <Offset>-8.34113</Offset>
# <T5>0.000000e+000</T5>
# <AD590M>1.291160e-002</AD590M>
# <AD590B>-9.140478e+000</AD590B>
# </PressureSensor>
# </sensor>
# <sensor Channel=\"4\" >
# <!-- A/D voltage 0, Oxygen, SBE 43 -->
# <OxygenSensor SensorID=\"38\" >
# <SerialNumber>0240</SerialNumber>
# <CalibrationDate>02-Nov-2017</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>4.2686e-001</Soc>
# <offset>-0.5037</offset>
# <A>-3.0061e-003</A>
# <B> 2.0567e-004</B>
# <C>-2.8168e-006</C>
# <D0> 2.5826e+000</D0>
# <D1> 1.92634e-004</D1>
# <D2>-4.64803e-002</D2>
# <E> 3.6000e-002</E>
# <Tau20> 1.6400</Tau20>
# <H1>-3.3000e-002</H1>
# <H2> 5.0000e+003</H2>
# <H3> 1.4500e+003</H3>
# </CalibrationCoefficients>
# </OxygenSensor>
# </sensor>
# <sensor Channel=\"5\" >
# <!-- A/D voltage 1, pH -->
# <pH_Sensor SensorID=\"43\" >
# <SerialNumber>0760</SerialNumber>
# <CalibrationDate>15-Aug-2017</CalibrationDate>
# <Slope>4.6558</Slope>
# <Offset>2.7743</Offset>
# </pH_Sensor>
# </sensor>
# <sensor Channel=\"6\" >
# <!-- A/D voltage 2, Fluorometer, Seapoint -->
# <FluoroSeapointSensor SensorID=\"11\" >
# <SerialNumber>3120</SerialNumber>
# <CalibrationDate>03-Janv-2018</CalibrationDate>
# <!-- The following is an array index, not the actual gain setting. -->
# <GainSetting>1</GainSetting>
# <Offset>0.000</Offset>
# </FluoroSeapointSensor>
# </sensor>
# <sensor Channel=\"7\" >
# <!-- A/D voltage 3, Free -->
# </sensor>
# <sensor Channel=\"8\" >
# <!-- A/D voltage 4, Altimeter -->
# <AltimeterSensor SensorID=\"0\" >
# <SerialNumber>1065</SerialNumber>
# <CalibrationDate>01-Feb-2014</CalibrationDate>
# <ScaleFactor>15.000</ScaleFactor>
# <Offset>0.000</Offset>
# </AltimeterSensor>
# </sensor>
# <sensor Channel=\"9\" >
# <!-- A/D voltage 5, PAR/Irradiance, Biospherical/Licor -->
# <PAR_BiosphericalLicorChelseaSensor SensorID=\"42\" >
# <SerialNumber>4664</SerialNumber>
# <CalibrationDate>02-02-2018</CalibrationDate>
# <M>1.00000000</M>
# <B>0.00000000</B>
# <CalibrationConstant>242718000000.00000000</CalibrationConstant>
# <Multiplier>0.00100000</Multiplier>
# <Offset>-0.00595590</Offset>
# </PAR_BiosphericalLicorChelseaSensor>
# </sensor>
# <sensor Channel=\"10\" >
# <!-- A/D voltage 6, Fluorometer, WET Labs ECO-AFL/FL -->
# <FluoroWetlabECO_AFL_FL_Sensor SensorID=\"20\" >
# <SerialNumber>4294</SerialNumber>
# <CalibrationDate>22-feb-2016</CalibrationDate>
# <ScaleFactor>6.00000000e+000</ScaleFactor>
# <!-- Dark output -->
# <Vblank>0.0700</Vblank>
# </FluoroWetlabECO_AFL_FL_Sensor>
# </sensor>
# <sensor Channel=\"11\" >
# <!-- A/D voltage 7, Turbidity Meter, WET Labs, ECO-NTU -->
# <TurbidityMeter SensorID=\"67\" >
# <SerialNumber>4294</SerialNumber>
# <CalibrationDate>22-feb-2016</CalibrationDate>
# <ScaleFactor>2.000000</ScaleFactor>
# <!-- Dark output -->
# <DarkVoltage>0.081000</DarkVoltage>
# </TurbidityMeter>
# </sensor>
# </Sensors>
# datcnv_date = Mar 26 2018 10:59:35, 7.26.6.28 [datcnv_vars = 25]
# datcnv_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\00_raw\\1899017.hex G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\00_raw\\1899017.XMLCON
# datcnv_skipover = 0
# datcnv_ox_hysteresis_correction = yes
# datcnv_ox_tau_correction = yes
# filter_date = Mar 26 2018 13:35:55, 7.26.6.28
# filter_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\01_datCnv\\newcnv\\1899017.cnv
# filter_low_pass_tc_A = 0.150
# filter_low_pass_tc_B = 1.000
# filter_low_pass_A_vars = prDM
# filter_low_pass_B_vars =
# alignctd_date = Mar 26 2018 13:36:45, 7.26.6.28
# alignctd_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv
# alignctd_adv = sbeox0V 4.500
# celltm_date = Mar 26 2018 13:37:29, 7.26.6.28
# celltm_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv
# celltm_alpha = 0.0300, 0.0000
# celltm_tau = 7.0000, 0.0000
# celltm_temp_sensor_use_for_cond = primary,
# loopedit_date = Mar 26 2018 13:38:26, 7.26.6.28
# loopedit_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv
# loopedit_minVelocity = 0.100
# loopedit_surfaceSoak: do not remove
# loopedit_excl_bad_scans = yes
# strip_date = Mar 26 2018 13:40:17, 7.26.6.28
# strip_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv
# Derive_date = Mar 26 2018 13:41:17, 7.26.6.28 [derive_vars = 7]
# Derive_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.XMLCON
# derive_time_window_docdt = seconds: 1
# derive_ox_tau_correction = yes
# derive_time_window_dzdt = seconds: 1
# binavg_date = Mar 26 2018 13:43:18, 7.26.6.28
# binavg_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\03_derive\\1899017.cnv
# binavg_bintype = decibars
# binavg_binsize = 0.2
# binavg_excl_bad_scans = yes
# binavg_skipover = 0
# 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 4204;
String instrument_type "CTD";
String internal_processing_notes
"2018-03-26T15:00:35Z Conversion from CNV to ODF
";
String keywords "Conductivity, CTD, Dissolved oxygen, Fluorescence, Irradiance, pH, Salinity, Turbidity, Water temperature";
String keywords_FR "CTD, Conductivité, Salinité, Température de l'eau, Oxygène dissous, Fluorescence, Irradiance, pH, Turbidité";
String keywords_vocabulary "GCMD Science Keywords";
String license "Creative Commons Attribution 4.0 (CC-BY 4.0)";
String license_URL "https://creativecommons.org/licenses/by/4.0/";
Float64 Northernmost_Northing 49.53358;
String odf_data_type "CTD";
String organization "RQM/Ismer/Amundsen Science";
String original_odf_header
"ODF_HEADER,
FILE_SPECIFICATION = 'CTD_2018099_017_1_DN',
CRUISE_HEADER,
COUNTRY_INSTITUTE_CODE = 18QO,
CRUISE_NUMBER = '2018099',
ORGANIZATION = 'RQM/Ismer/Amundsen Science',
CHIEF_SCIENTIST = 'Gesche Winkler/Jean-Carlos Montero Serrano',
START_DATE = '08-FEB-2018 12:00:00.00',
END_DATE = '25-FEB-2018 12:00:00.00',
PLATFORM = 'CCGS Amundsen',
CRUISE_NAME = 'Odyssée St-Laurent 1899',
CRUISE_DESCRIPTION = '',
EVENT_HEADER,
DATA_TYPE= 'CTD',
EVENT_NUMBER= '017',
EVENT_QUALIFIER1= '1',
EVENT_QUALIFIER2= 'DN',
CREATION_DATE= '03-APR-2018 13:29:11.88',
ORIG_CREATION_DATE= '26-MAR-2018 10:59:35.00',
START_DATE_TIME= '23-FEB-2018 14:18:08.00',
END_DATE_TIME= '23-FEB-2018 14:37:23.00',
INITIAL_LATITUDE= 49.533580,
INITIAL_LONGITUDE= -66.175860,
END_LATITUDE= 49.532980,
END_LONGITUDE= -66.170000,
MIN_DEPTH= 9.91,
MAX_DEPTH= 321.78,
SAMPLING_INTERVAL= -99.0,
SOUNDING= 330.00,
DEPTH_OFF_BOTTOM= 8.22,
EVENT_COMMENTS= 'Station 002C',
METEO_HEADER,
AIR_TEMPERATURE= -8.30,
ATMOSPHERIC_PRESSURE= 1034.00,
WIND_SPEED= 6.17,
WIND_DIRECTION= 223.00,
SEA_STATE= 1,
CLOUD_COVER= 1,
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= '4204',
DESCRIPTION= '1899017.hex 1899017.XMLCON',
QUALITY_HEADER,
QUALITY_DATE= '03-APR-2018 12:28:22.79',
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 2.12: IML Density Inversion (overall profile) (8192)',
QUALITY_TESTS= 'Test 3.5: IML Petrie Monthly Climatology (Temperature, Salinity and Sigma-T)',
QUALITY_TESTS= 'Test 5.2: GTSPP Profile Visual Inspection',
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= '24-APR-2017 00:00:00.00',
APPLICATION_DATE= '26-MAR-2018 10:59:35.00',
NUMBER_COEFFICIENTS= 14,
COEFFICIENTS= -4.39429600e+04 -3.55089800e-01 1.35866000e-02 3.76290000e-02 0.00000000e+00 3.05125700e+01 -4.03762500e-04 4.25449000e-06 2.45924000e-09 0.00000000e+00 1.29116000e-02 -9.14047800e+00 9.99961360e-01 -8.34113000e+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= '11-NOV-2017 00:00:00.00',
APPLICATION_DATE= '26-MAR-2018 10:59:35.00',
NUMBER_COEFFICIENTS= 7,
COEFFICIENTS= 4.40417834e-03 6.47557373e-04 2.29163359e-05 1.98448760e-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= '10-NOV-2017 00:00:00.00',
APPLICATION_DATE= '26-MAR-2018 10:59:35.00',
NUMBER_COEFFICIENTS= 8,
COEFFICIENTS= -9.82311197e+00 1.41028436e+00 -1.06360611e-03 1.63522188e-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= 'FLOR_01',
CALIBRATION_TYPE= 'FLUO05',
CALIBRATION_DATE= '03-JAN-2018 00:00:00.00',
APPLICATION_DATE= '03-APR-2018 11:57:01.00',
NUMBER_COEFFICIENTS= 2,
COEFFICIENTS= 1.00000000e+00 0.00000000e+00 ,
CALIBRATION_EQUATION= 'FLOR = (N*30/C0) + C1',
CALIBRATION_COMMENTS= 'CTD chlorophyll-a calibrated with bottle titrations.',
CALIBRATION_COMMENTS= 'Coefficient 30/gain setting value modified; optimized value = 1.4812',
GENERAL_CAL_HEADER,
PARAMETER_CODE= 'FLOR_02',
CALIBRATION_TYPE= 'FLUO06',
CALIBRATION_DATE= '22-FEB-2016 00:00:00.00',
APPLICATION_DATE= '03-APR-2018 12:00:56.00',
NUMBER_COEFFICIENTS= 2,
COEFFICIENTS= 7.00000000e-02 1.88247458e+00 ,
CALIBRATION_EQUATION= 'FLOR = (N - C0)*C1',
CALIBRATION_COMMENTS= 'CTD chlorophyll-a calibrated with bottle titrations.',
CALIBRATION_COMMENTS= 'scale factor value modified; original value = 6.0000',
GENERAL_CAL_HEADER,
PARAMETER_CODE= 'TURB_01',
CALIBRATION_TYPE= 'TUR5',
CALIBRATION_DATE= '22-FEB-2016 00:00:00.00',
APPLICATION_DATE= '26-MAR-2018 10:59:35.00',
NUMBER_COEFFICIENTS= 2,
COEFFICIENTS= 8.10000000e-02 2.00000000e+00 ,
CALIBRATION_EQUATION= 'NTU = (V - DarkVoltage )+ ScaleFactor',
CALIBRATION_COMMENTS= '',
GENERAL_CAL_HEADER,
PARAMETER_CODE= 'PHPH_01',
CALIBRATION_TYPE= 'PHPH',
CALIBRATION_DATE= '15-AUG-2017 00:00:00.00',
APPLICATION_DATE= '26-MAR-2018 10:59:35.00',
NUMBER_COEFFICIENTS= 2,
COEFFICIENTS= 2.77430000e+00 4.65580000e+00 ,
CALIBRATION_EQUATION= 'PHPH = 7+(N-C1)/((TEMP-273.15)*1.98416e-4*C0)',
CALIBRATION_COMMENTS= 'The sensor did not work properly.',
GENERAL_CAL_HEADER,
PARAMETER_CODE= 'PSAR_01',
CALIBRATION_TYPE= 'PSAR01',
CALIBRATION_DATE= '02-FEB-2018 00:00:00.00',
APPLICATION_DATE= '26-MAR-2018 10:59:35.00',
NUMBER_COEFFICIENTS= 5,
COEFFICIENTS= 1.00000000e-03 2.42718000e+11 0.00000000e+00 1.00000000e+00 -5.95590000e-03 ,
CALIBRATION_EQUATION= 'PSAR = (C0/C1)*(10^9*10^((N-C2)/C3)) + C4',
CALIBRATION_COMMENTS= '',
HISTORY_HEADER,
CREATION_DATE= '26-MAR-2018 13:43:18.00',
PROCESS= '* Sea-Bird SBE 9 Data File:',
PROCESS= '* FileName = E:\\CTD-Rosette_raw_Data\\2018\\1899\\1899017.hex',
PROCESS= '* Software Version Seasave V 7.23.2',
PROCESS= '* Temperature SN = 4204',
PROCESS= '* Conductivity SN = 2696',
PROCESS= '* Number of Bytes Per Scan = 31',
PROCESS= '* Number of Voltage Words = 4',
PROCESS= '* Number of Scans Averaged by the Deck Unit = 1',
PROCESS= '* System UpLoad Time = Feb 23 2018 14:18:08',
PROCESS= '* NMEA Latitude = 49 31.98 N',
PROCESS= '* NMEA Longitude = 066 10.74 W',
PROCESS= '* NMEA UTC (Time) = Feb 23 2018 14:07:38',
PROCESS= '* Store Lat/Lon Data = Append to Every Scan',
PROCESS= '* SBE 11plus V 5.1g',
PROCESS= '* number of scans to average = 1',
PROCESS= '* pressure baud rate = 9600',
PROCESS= '* NMEA baud rate = 9600',
PROCESS= '* GPIB address = 1',
PROCESS= '* advance primary conductivity 0.073 seconds',
PROCESS= '* advance secondary conductivity 0.073 seconds',
PROCESS= '* delete word 3 from scan',
PROCESS= '* delete word 4 from scan',
PROCESS= '* autorun on power up is disabled',
PROCESS= '* S>',
PROCESS= '** Station:',
PROCESS= '* System UTC = Feb 23 2018 14:18:08',
PROCESS= '# nquan = 28',
PROCESS= '# nvalues = 3149',
PROCESS= '# units = specified',
PROCESS= '# name 0 = scan: Scan Count',
PROCESS= '# name 1 = prDM: Pressure, Digiquartz [db]',
PROCESS= '# name 2 = t090C: Temperature [ITS-90, deg C]',
PROCESS= '# name 3 = c0mS/cm: Conductivity [mS/cm]',
PROCESS= '# name 4 = sbeox0V: Oxygen raw, SBE 43 [V]',
PROCESS= '# name 5 = flSP: Fluorescence, Seapoint',
PROCESS= '# name 6 = flECO-AFL: Fluorescence, WET Labs ECO-AFL/FL [mg/m^3]',
PROCESS= '# name 7 = turbWETntu0: Turbidity, WET Labs ECO [NTU]',
PROCESS= '# name 8 = ph: pH',
PROCESS= '# name 9 = par: PAR/Irradiance, Biospherical/Licor',
PROCESS= '# name 10 = latitude: Latitude [deg]',
PROCESS= '# name 11 = longitude: Longitude [deg]',
PROCESS= '# name 12 = timeM: Time, Elapsed [minutes]',
PROCESS= '# name 13 = pumps: Pump Status',
PROCESS= '# name 14 = v1: Voltage 1',
PROCESS= '# name 15 = v2: Voltage 2',
PROCESS= '# name 16 = v6: Voltage 6',
PROCESS= '# name 17 = v7: Voltage 7',
PROCESS= '# name 18 = sfdSM: Seafloor depth [salt water, m]',
PROCESS= '# name 19 = nbf: Bottles Fired',
PROCESS= '# name 20 = sal00: Salinity, Practical [PSU]',
PROCESS= '# name 21 = sigma-t00: Density [sigma-t, kg/m^3 ]',
PROCESS= '# name 22 = sbeox0ML/L: Oxygen, SBE 43 [ml/l], WS = 1',
PROCESS= '# name 23 = sbeox0Mg/L: Oxygen, SBE 43 [mg/l], WS = 1',
PROCESS= '# name 24 = sbeox0Mm/L: Oxygen, SBE 43 [umol/l], WS = 1',
PROCESS= '# name 25 = dz/dtM: Descent Rate [m/s], WS = 1',
PROCESS= '# name 26 = accM: Acceleration [m/s^2], WS = 1',
PROCESS= '# name 27 = flag: flag',
PROCESS= '# span 0 = 2453, 27722',
PROCESS= '# span 1 = 10.000, 324.804',
PROCESS= '# span 2 = -1.7036, 6.1135',
PROCESS= '# span 3 = 25.466313, 34.396204',
PROCESS= '# span 4 = 0.9615, 2.5707',
PROCESS= '# span 5 = 4.7416e-02, 6.8217e-01',
PROCESS= '# span 6 = 0.0488, 0.5232',
PROCESS= '# span 7 = 0.3762, 0.6674',
PROCESS= '# span 8 = 10.464, 13.862',
PROCESS= '# span 9 = 1.0000e-12, 1.0000e-12',
PROCESS= '# span 10 = 49.53296, 49.53358',
PROCESS= '# span 11 = -66.17586, -66.17000',
PROCESS= '# span 12 = 1.7025, 19.2506',
PROCESS= '# span 13 = 1, 1',
PROCESS= '# span 14 = 3.6679, 4.4949',
PROCESS= '# span 15 = 0.0158, 0.2274',
PROCESS= '# span 16 = 0.0781, 0.1572',
PROCESS= '# span 17 = 0.2691, 0.4147',
PROCESS= '# span 18 = 20.101, 390.432',
PROCESS= '# span 19 = 0, 16',
PROCESS= '# span 20 = 31.6733, 34.7515',
PROCESS= '# span 21 = 25.4398, 27.3470',
PROCESS= '# span 22 = 1.3675, 7.8644',
PROCESS= '# span 23 = 1.9543, 11.2390',
PROCESS= '# span 24 = 61.073, 351.223',
PROCESS= '# span 25 = -1.002, 1.012',
PROCESS= '# span 26 = -0.28, 0.52',
PROCESS= '# span 27 = 0.0000e+00, 0.0000e+00',
PROCESS= '# interval = decibars: 0.2',
PROCESS= '# start_time = Feb 23 2018 14:18:08 [System UTC, header]',
PROCESS= '# bad_flag = -9.990e-29',
PROCESS= '# <Sensors count=\"11\" >',
PROCESS= '# <sensor Channel=\"1\" >',
PROCESS= '# <!-- Frequency 0, Temperature -->',
PROCESS= '# <TemperatureSensor SensorID=\"55\" >',
PROCESS= '# <SerialNumber>4204</SerialNumber>',
PROCESS= '# <CalibrationDate>11-Nov-17</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>4.40417834e-003</G>',
PROCESS= '# <H>6.47557373e-004</H>',
PROCESS= '# <I>2.29163359e-005</I>',
PROCESS= '# <J>1.98448760e-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>2696</SerialNumber>',
PROCESS= '# <CalibrationDate>10-Nov-17</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>-9.82311197e+000</G>',
PROCESS= '# <H>1.41028436e+000</H>',
PROCESS= '# <I>-1.06360611e-003</I>',
PROCESS= '# <J>1.63522188e-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>0730</SerialNumber>',
PROCESS= '# <CalibrationDate>24-Apr-17</CalibrationDate>',
PROCESS= '# <C1>-4.394296e+004</C1>',
PROCESS= '# <C2>-3.550898e-001</C2>',
PROCESS= '# <C3>1.358660e-002</C3>',
PROCESS= '# <D1>3.762900e-002</D1>',
PROCESS= '# <D2>0.000000e+000</D2>',
PROCESS= '# <T1>3.051257e+001</T1>',
PROCESS= '# <T2>-4.037625e-004</T2>',
PROCESS= '# <T3>4.254490e-006</T3>',
PROCESS= '# <T4>2.459240e-009</T4>',
PROCESS= '# <Slope>0.99996136</Slope>',
PROCESS= '# <Offset>-8.34113</Offset>',
PROCESS= '# <T5>0.000000e+000</T5>',
PROCESS= '# <AD590M>1.291160e-002</AD590M>',
PROCESS= '# <AD590B>-9.140478e+000</AD590B>',
PROCESS= '# </PressureSensor>',
PROCESS= '# </sensor>',
PROCESS= '# <sensor Channel=\"4\" >',
PROCESS= '# <!-- A/D voltage 0, Oxygen, SBE 43 -->',
PROCESS= '# <OxygenSensor SensorID=\"38\" >',
PROCESS= '# <SerialNumber>0240</SerialNumber>',
PROCESS= '# <CalibrationDate>02-Nov-2017</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>4.2686e-001</Soc>',
PROCESS= '# <offset>-0.5037</offset>',
PROCESS= '# <A>-3.0061e-003</A>',
PROCESS= '# <B> 2.0567e-004</B>',
PROCESS= '# <C>-2.8168e-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> 1.6400</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=\"5\" >',
PROCESS= '# <!-- A/D voltage 1, pH -->',
PROCESS= '# <pH_Sensor SensorID=\"43\" >',
PROCESS= '# <SerialNumber>0760</SerialNumber>',
PROCESS= '# <CalibrationDate>15-Aug-2017</CalibrationDate>',
PROCESS= '# <Slope>4.6558</Slope>',
PROCESS= '# <Offset>2.7743</Offset>',
PROCESS= '# </pH_Sensor>',
PROCESS= '# </sensor>',
PROCESS= '# <sensor Channel=\"6\" >',
PROCESS= '# <!-- A/D voltage 2, Fluorometer, Seapoint -->',
PROCESS= '# <FluoroSeapointSensor SensorID=\"11\" >',
PROCESS= '# <SerialNumber>3120</SerialNumber>',
PROCESS= '# <CalibrationDate>03-Janv-2018</CalibrationDate>',
PROCESS= '# <!-- The following is an array index, not the actual gain setting. -->',
PROCESS= '# <GainSetting>1</GainSetting>',
PROCESS= '# <Offset>0.000</Offset>',
PROCESS= '# </FluoroSeapointSensor>',
PROCESS= '# </sensor>',
PROCESS= '# <sensor Channel=\"7\" >',
PROCESS= '# <!-- A/D voltage 3, Free -->',
PROCESS= '# </sensor>',
PROCESS= '# <sensor Channel=\"8\" >',
PROCESS= '# <!-- A/D voltage 4, Altimeter -->',
PROCESS= '# <AltimeterSensor SensorID=\"0\" >',
PROCESS= '# <SerialNumber>1065</SerialNumber>',
PROCESS= '# <CalibrationDate>01-Feb-2014</CalibrationDate>',
PROCESS= '# <ScaleFactor>15.000</ScaleFactor>',
PROCESS= '# <Offset>0.000</Offset>',
PROCESS= '# </AltimeterSensor>',
PROCESS= '# </sensor>',
PROCESS= '# <sensor Channel=\"9\" >',
PROCESS= '# <!-- A/D voltage 5, PAR/Irradiance, Biospherical/Licor -->',
PROCESS= '# <PAR_BiosphericalLicorChelseaSensor SensorID=\"42\" >',
PROCESS= '# <SerialNumber>4664</SerialNumber>',
PROCESS= '# <CalibrationDate>02-02-2018</CalibrationDate>',
PROCESS= '# <M>1.00000000</M>',
PROCESS= '# <B>0.00000000</B>',
PROCESS= '# <CalibrationConstant>242718000000.00000000</CalibrationConstant>',
PROCESS= '# <Multiplier>0.00100000</Multiplier>',
PROCESS= '# <Offset>-0.00595590</Offset>',
PROCESS= '# </PAR_BiosphericalLicorChelseaSensor>',
PROCESS= '# </sensor>',
PROCESS= '# <sensor Channel=\"10\" >',
PROCESS= '# <!-- A/D voltage 6, Fluorometer, WET Labs ECO-AFL/FL -->',
PROCESS= '# <FluoroWetlabECO_AFL_FL_Sensor SensorID=\"20\" >',
PROCESS= '# <SerialNumber>4294</SerialNumber>',
PROCESS= '# <CalibrationDate>22-feb-2016</CalibrationDate>',
PROCESS= '# <ScaleFactor>6.00000000e+000</ScaleFactor>',
PROCESS= '# <!-- Dark output -->',
PROCESS= '# <Vblank>0.0700</Vblank>',
PROCESS= '# </FluoroWetlabECO_AFL_FL_Sensor>',
PROCESS= '# </sensor>',
PROCESS= '# <sensor Channel=\"11\" >',
PROCESS= '# <!-- A/D voltage 7, Turbidity Meter, WET Labs, ECO-NTU -->',
PROCESS= '# <TurbidityMeter SensorID=\"67\" >',
PROCESS= '# <SerialNumber>4294</SerialNumber>',
PROCESS= '# <CalibrationDate>22-feb-2016</CalibrationDate>',
PROCESS= '# <ScaleFactor>2.000000</ScaleFactor>',
PROCESS= '# <!-- Dark output -->',
PROCESS= '# <DarkVoltage>0.081000</DarkVoltage>',
PROCESS= '# </TurbidityMeter>',
PROCESS= '# </sensor>',
PROCESS= '# </Sensors>',
PROCESS= '# datcnv_date = Mar 26 2018 10:59:35, 7.26.6.28 [datcnv_vars = 25]',
PROCESS= '# datcnv_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\00_raw\\1899017.hex G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\00_raw\\1899017.XMLCON',
PROCESS= '# datcnv_skipover = 0',
PROCESS= '# datcnv_ox_hysteresis_correction = yes',
PROCESS= '# datcnv_ox_tau_correction = yes',
PROCESS= '# filter_date = Mar 26 2018 13:35:55, 7.26.6.28',
PROCESS= '# filter_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\01_datCnv\\newcnv\\1899017.cnv',
PROCESS= '# filter_low_pass_tc_A = 0.150',
PROCESS= '# filter_low_pass_tc_B = 1.000',
PROCESS= '# filter_low_pass_A_vars = prDM',
PROCESS= '# filter_low_pass_B_vars =',
PROCESS= '# alignctd_date = Mar 26 2018 13:36:45, 7.26.6.28',
PROCESS= '# alignctd_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv',
PROCESS= '# alignctd_adv = sbeox0V 4.500',
PROCESS= '# celltm_date = Mar 26 2018 13:37:29, 7.26.6.28',
PROCESS= '# celltm_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv',
PROCESS= '# celltm_alpha = 0.0300, 0.0000',
PROCESS= '# celltm_tau = 7.0000, 0.0000',
PROCESS= '# celltm_temp_sensor_use_for_cond = primary,',
PROCESS= '# loopedit_date = Mar 26 2018 13:38:26, 7.26.6.28',
PROCESS= '# loopedit_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv',
PROCESS= '# loopedit_minVelocity = 0.100',
PROCESS= '# loopedit_surfaceSoak: do not remove',
PROCESS= '# loopedit_excl_bad_scans = yes',
PROCESS= '# strip_date = Mar 26 2018 13:40:17, 7.26.6.28',
PROCESS= '# strip_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv',
PROCESS= '# Derive_date = Mar 26 2018 13:41:17, 7.26.6.28 [derive_vars = 7]',
PROCESS= '# Derive_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.XMLCON',
PROCESS= '# derive_time_window_docdt = seconds: 1',
PROCESS= '# derive_ox_tau_correction = yes',
PROCESS= '# derive_time_window_dzdt = seconds: 1',
PROCESS= '# binavg_date = Mar 26 2018 13:43:18, 7.26.6.28',
PROCESS= '# binavg_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\03_derive\\1899017.cnv',
PROCESS= '# binavg_bintype = decibars',
PROCESS= '# binavg_binsize = 0.2',
PROCESS= '# binavg_excl_bad_scans = yes',
PROCESS= '# binavg_skipover = 0',
PROCESS= '# binavg_surface_bin = no, min = 0.000, max = 0.000, value = 0.000',
PROCESS= '# file_type = ascii',
PROCESS= '*END*',
HISTORY_HEADER,
CREATION_DATE= '26-MAR-2018 15:00:35.40',
PROCESS= 'Conversion from CNV to ODF',
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= 10,
MAXIMUM_VALUE= 324.8,
NUMBER_VALID= 1575,
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= 1575,
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= -1.7036,
MAXIMUM_VALUE= 6.1135,
NUMBER_VALID= 1568,
NUMBER_NULL= 7,
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= 9,
NUMBER_VALID= 1575,
NUMBER_NULL= 0,
PARAMETER_HEADER,
TYPE= 'DOUB',
NAME= 'Electrical Conductivity',
UNITS= 'mhos/m',
CODE= 'CNDC_01',
NULL_VALUE= -9.900000E+01,
PRINT_FIELD_WIDTH= 10,
PRINT_DECIMAL_PLACES= 6,
ANGLE_OF_SECTION= 0.000000,
MAGNETIC_VARIATION= 0.000000,
DEPTH= 0.000000 ,
MINIMUM_VALUE= 2.5466,
MAXIMUM_VALUE= 3.4396,
NUMBER_VALID= 1568,
NUMBER_NULL= 7,
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= 0.023403,
MAXIMUM_VALUE= 0.20633,
NUMBER_VALID= 1568,
NUMBER_NULL= 7,
PARAMETER_HEADER,
TYPE= 'DOUB',
NAME= 'Fluorescence',
UNITS= 'mg/m**3',
CODE= 'FLOR_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= 0.015436,
MAXIMUM_VALUE= 0.15926,
NUMBER_VALID= 1568,
NUMBER_NULL= 7,
PARAMETER_HEADER,
TYPE= 'DOUB',
NAME= 'Turbidity',
UNITS= 'NTU',
CODE= 'TURB_01',
NULL_VALUE= -9.900000E+01,
PRINT_FIELD_WIDTH= 10,
PRINT_DECIMAL_PLACES= 1,
ANGLE_OF_SECTION= 0.000000,
MAGNETIC_VARIATION= 0.000000,
DEPTH= 0.000000 ,
MINIMUM_VALUE= 0.3762,
MAXIMUM_VALUE= 0.6674,
NUMBER_VALID= 1568,
NUMBER_NULL= 7,
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= NaN,
MAXIMUM_VALUE= NaN,
NUMBER_VALID= 0,
NUMBER_NULL= 1575,
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= 1e-12,
MAXIMUM_VALUE= 1e-12,
NUMBER_VALID= 1568,
NUMBER_NULL= 7,
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= 31.6733,
MAXIMUM_VALUE= 34.7511,
NUMBER_VALID= 1568,
NUMBER_NULL= 7,
PARAMETER_HEADER,
TYPE= 'DOUB',
NAME= 'Quality flag: Practical Salinity',
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= 9,
NUMBER_VALID= 1575,
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= 25.4398,
MAXIMUM_VALUE= 27.3415,
NUMBER_VALID= 1568,
NUMBER_NULL= 7,
PARAMETER_HEADER,
TYPE= 'DOUB',
NAME= 'Quality flag: Sigma-T (rho(s, t, 0)-1000)',
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= 9,
NUMBER_VALID= 1575,
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= 71.7849,
MAXIMUM_VALUE= 356.0254,
NUMBER_VALID= 1568,
NUMBER_NULL= 7,
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= 257,
NUMBER_VALID= 1575,
NUMBER_NULL= 0,
RECORD_HEADER,
NUM_CALIBRATION= 8,
NUM_SWING= 0,
NUM_HISTORY= 2,
NUM_CYCLE= 1575,
NUM_PARAM= 16,
-- DATA -- ";
String original_odf_header_json
"{
\"ODF_HEADER\": {
\"FILE_SPECIFICATION\": \"CTD_2018099_017_1_DN\"
},
\"CRUISE_HEADER\": {
\"COUNTRY_INSTITUTE_CODE\": \"18QO\",
\"CRUISE_NUMBER\": 2018099,
\"ORGANIZATION\": \"RQM/Ismer/Amundsen Science\",
\"CHIEF_SCIENTIST\": \"Gesche Winkler/Jean-Carlos Montero Serrano\",
\"START_DATE\": \"2018-02-08 12:00:00+00:00\",
\"END_DATE\": \"2018-02-25 12:00:00+00:00\",
\"PLATFORM\": \"CCGS Amundsen\",
\"CRUISE_NAME\": \"Odyssée St-Laurent 1899\",
\"CRUISE_DESCRIPTION\": null
},
\"EVENT_HEADER\": {
\"DATA_TYPE\": \"CTD\",
\"EVENT_NUMBER\": 17,
\"EVENT_QUALIFIER1\": 1,
\"EVENT_QUALIFIER2\": \"DN\",
\"CREATION_DATE\": \"2018-04-03 13:29:11.880000+00:00\",
\"ORIG_CREATION_DATE\": \"2018-03-26 10:59:35+00:00\",
\"START_DATE_TIME\": \"2018-02-23 14:18:08+00:00\",
\"END_DATE_TIME\": \"2018-02-23 14:37:23+00:00\",
\"INITIAL_LATITUDE\": 49.53358,
\"INITIAL_LONGITUDE\": -66.17586,
\"END_LATITUDE\": 49.53298,
\"END_LONGITUDE\": -66.17,
\"MIN_DEPTH\": 9.91,
\"MAX_DEPTH\": 321.78,
\"SAMPLING_INTERVAL\": -99.0,
\"SOUNDING\": 330.0,
\"DEPTH_OFF_BOTTOM\": 8.22,
\"EVENT_COMMENTS\": \"Station 002C\"
},
\"METEO_HEADER\": {
\"AIR_TEMPERATURE\": -8.3,
\"ATMOSPHERIC_PRESSURE\": 1034.0,
\"WIND_SPEED\": 6.17,
\"WIND_DIRECTION\": 223.0,
\"SEA_STATE\": 1,
\"CLOUD_COVER\": 1,
\"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\": 4204,
\"DESCRIPTION\": \"1899017.hex 1899017.XMLCON\"
},
\"QUALITY_HEADER\": [
{
\"QUALITY_DATE\": \"2018-04-03 12:28:22.790000+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 2.12: IML Density Inversion (overall profile) (8192)\",
\"Test 3.5: IML Petrie Monthly Climatology (Temperature, Salinity and Sigma-T)\",
\"Test 5.2: GTSPP Profile Visual Inspection\"
],
\"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\": \"2017-04-24 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2018-03-26 10:59:35+00:00\",
\"NUMBER_COEFFICIENTS\": 14,
\"COEFFICIENTS\": \"-4.39429600e+04 -3.55089800e-01 1.35866000e-02 3.76290000e-02 0.00000000e+00 3.05125700e+01 -4.03762500e-04 4.25449000e-06 2.45924000e-09 0.00000000e+00 1.29116000e-02 -9.14047800e+00 9.99961360e-01 -8.34113000e+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\": \"2017-11-11 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2018-03-26 10:59:35+00:00\",
\"NUMBER_COEFFICIENTS\": 7,
\"COEFFICIENTS\": \"4.40417834e-03 6.47557373e-04 2.29163359e-05 1.98448760e-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\": \"2017-11-10 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2018-03-26 10:59:35+00:00\",
\"NUMBER_COEFFICIENTS\": 8,
\"COEFFICIENTS\": \"-9.82311197e+00 1.41028436e+00 -1.06360611e-03 1.63522188e-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\": \"FLOR_01\",
\"CALIBRATION_TYPE\": \"FLUO05\",
\"CALIBRATION_DATE\": \"2018-01-03 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2018-04-03 11:57:01+00:00\",
\"NUMBER_COEFFICIENTS\": 2,
\"COEFFICIENTS\": \"1.00000000e+00 0.00000000e+00 \",
\"CALIBRATION_EQUATION\": \"FLOR = (N*30/C0) + C1\",
\"CALIBRATION_COMMENTS\": [
\"CTD chlorophyll-a calibrated with bottle titrations.\",
\"Coefficient 30/gain setting value modified; optimized value = 1.4812\"
]
},
{
\"PARAMETER_CODE\": \"FLOR_02\",
\"CALIBRATION_TYPE\": \"FLUO06\",
\"CALIBRATION_DATE\": \"2016-02-22 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2018-04-03 12:00:56+00:00\",
\"NUMBER_COEFFICIENTS\": 2,
\"COEFFICIENTS\": \"7.00000000e-02 1.88247458e+00 \",
\"CALIBRATION_EQUATION\": \"FLOR = (N - C0)*C1\",
\"CALIBRATION_COMMENTS\": [
\"CTD chlorophyll-a calibrated with bottle titrations.\",
\"scale factor value modified; original value = 6.0000\"
]
},
{
\"PARAMETER_CODE\": \"TURB_01\",
\"CALIBRATION_TYPE\": \"TUR5\",
\"CALIBRATION_DATE\": \"2016-02-22 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2018-03-26 10:59:35+00:00\",
\"NUMBER_COEFFICIENTS\": 2,
\"COEFFICIENTS\": \"8.10000000e-02 2.00000000e+00 \",
\"CALIBRATION_EQUATION\": \"NTU = (V - DarkVoltage )+ ScaleFactor\",
\"CALIBRATION_COMMENTS\": null
},
{
\"PARAMETER_CODE\": \"PHPH_01\",
\"CALIBRATION_TYPE\": \"PHPH\",
\"CALIBRATION_DATE\": \"2017-08-15 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2018-03-26 10:59:35+00:00\",
\"NUMBER_COEFFICIENTS\": 2,
\"COEFFICIENTS\": \"2.77430000e+00 4.65580000e+00 \",
\"CALIBRATION_EQUATION\": \"PHPH = 7+(N-C1)/((TEMP-273.15)*1.98416e-4*C0)\",
\"CALIBRATION_COMMENTS\": \"The sensor did not work properly.\"
},
{
\"PARAMETER_CODE\": \"PSAR_01\",
\"CALIBRATION_TYPE\": \"PSAR01\",
\"CALIBRATION_DATE\": \"2018-02-02 00:00:00+00:00\",
\"APPLICATION_DATE\": \"2018-03-26 10:59:35+00:00\",
\"NUMBER_COEFFICIENTS\": 5,
\"COEFFICIENTS\": \"1.00000000e-03 2.42718000e+11 0.00000000e+00 1.00000000e+00 -5.95590000e-03 \",
\"CALIBRATION_EQUATION\": \"PSAR = (C0/C1)*(10^9*10^((N-C2)/C3)) + C4\",
\"CALIBRATION_COMMENTS\": null
}
],
\"HISTORY_HEADER\": [
{
\"CREATION_DATE\": \"2018-03-26 13:43:18+00:00\",
\"PROCESS\": [
\"* Sea-Bird SBE 9 Data File:\",
\"* FileName = E:\\\\CTD-Rosette_raw_Data\\\\2018\\\\1899\\\\1899017.hex\",
\"* Software Version Seasave V 7.23.2\",
\"* Temperature SN = 4204\",
\"* Conductivity SN = 2696\",
\"* Number of Bytes Per Scan = 31\",
\"* Number of Voltage Words = 4\",
\"* Number of Scans Averaged by the Deck Unit = 1\",
\"* System UpLoad Time = Feb 23 2018 14:18:08\",
\"* NMEA Latitude = 49 31.98 N\",
\"* NMEA Longitude = 066 10.74 W\",
\"* NMEA UTC (Time) = Feb 23 2018 14:07:38\",
\"* Store Lat/Lon Data = Append to Every Scan\",
\"* SBE 11plus V 5.1g\",
\"* number of scans to average = 1\",
\"* pressure baud rate = 9600\",
\"* NMEA baud rate = 9600\",
\"* GPIB address = 1\",
\"* advance primary conductivity 0.073 seconds\",
\"* advance secondary conductivity 0.073 seconds\",
\"* delete word 3 from scan\",
\"* delete word 4 from scan\",
\"* autorun on power up is disabled\",
\"* S>\",
\"** Station:\",
\"* System UTC = Feb 23 2018 14:18:08\",
\"# nquan = 28\",
\"# nvalues = 3149\",
\"# units = specified\",
\"# name 0 = scan: Scan Count\",
\"# name 1 = prDM: Pressure, Digiquartz [db]\",
\"# name 2 = t090C: Temperature [ITS-90, deg C]\",
\"# name 3 = c0mS/cm: Conductivity [mS/cm]\",
\"# name 4 = sbeox0V: Oxygen raw, SBE 43 [V]\",
\"# name 5 = flSP: Fluorescence, Seapoint\",
\"# name 6 = flECO-AFL: Fluorescence, WET Labs ECO-AFL/FL [mg/m^3]\",
\"# name 7 = turbWETntu0: Turbidity, WET Labs ECO [NTU]\",
\"# name 8 = ph: pH\",
\"# name 9 = par: PAR/Irradiance, Biospherical/Licor\",
\"# name 10 = latitude: Latitude [deg]\",
\"# name 11 = longitude: Longitude [deg]\",
\"# name 12 = timeM: Time, Elapsed [minutes]\",
\"# name 13 = pumps: Pump Status\",
\"# name 14 = v1: Voltage 1\",
\"# name 15 = v2: Voltage 2\",
\"# name 16 = v6: Voltage 6\",
\"# name 17 = v7: Voltage 7\",
\"# name 18 = sfdSM: Seafloor depth [salt water, m]\",
\"# name 19 = nbf: Bottles Fired\",
\"# name 20 = sal00: Salinity, Practical [PSU]\",
\"# name 21 = sigma-t00: Density [sigma-t, kg/m^3 ]\",
\"# name 22 = sbeox0ML/L: Oxygen, SBE 43 [ml/l], WS = 1\",
\"# name 23 = sbeox0Mg/L: Oxygen, SBE 43 [mg/l], WS = 1\",
\"# name 24 = sbeox0Mm/L: Oxygen, SBE 43 [umol/l], WS = 1\",
\"# name 25 = dz/dtM: Descent Rate [m/s], WS = 1\",
\"# name 26 = accM: Acceleration [m/s^2], WS = 1\",
\"# name 27 = flag: flag\",
\"# span 0 = 2453, 27722\",
\"# span 1 = 10.000, 324.804\",
\"# span 2 = -1.7036, 6.1135\",
\"# span 3 = 25.466313, 34.396204\",
\"# span 4 = 0.9615, 2.5707\",
\"# span 5 = 4.7416e-02, 6.8217e-01\",
\"# span 6 = 0.0488, 0.5232\",
\"# span 7 = 0.3762, 0.6674\",
\"# span 8 = 10.464, 13.862\",
\"# span 9 = 1.0000e-12, 1.0000e-12\",
\"# span 10 = 49.53296, 49.53358\",
\"# span 11 = -66.17586, -66.17000\",
\"# span 12 = 1.7025, 19.2506\",
\"# span 13 = 1, 1\",
\"# span 14 = 3.6679, 4.4949\",
\"# span 15 = 0.0158, 0.2274\",
\"# span 16 = 0.0781, 0.1572\",
\"# span 17 = 0.2691, 0.4147\",
\"# span 18 = 20.101, 390.432\",
\"# span 19 = 0, 16\",
\"# span 20 = 31.6733, 34.7515\",
\"# span 21 = 25.4398, 27.3470\",
\"# span 22 = 1.3675, 7.8644\",
\"# span 23 = 1.9543, 11.2390\",
\"# span 24 = 61.073, 351.223\",
\"# span 25 = -1.002, 1.012\",
\"# span 26 = -0.28, 0.52\",
\"# span 27 = 0.0000e+00, 0.0000e+00\",
\"# interval = decibars: 0.2\",
\"# start_time = Feb 23 2018 14:18:08 [System UTC, header]\",
\"# bad_flag = -9.990e-29\",
\"# <Sensors count=\\\"11\\\" >\",
\"# <sensor Channel=\\\"1\\\" >\",
\"# <!-- Frequency 0, Temperature -->\",
\"# <TemperatureSensor SensorID=\\\"55\\\" >\",
\"# <SerialNumber>4204</SerialNumber>\",
\"# <CalibrationDate>11-Nov-17</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>4.40417834e-003</G>\",
\"# <H>6.47557373e-004</H>\",
\"# <I>2.29163359e-005</I>\",
\"# <J>1.98448760e-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>2696</SerialNumber>\",
\"# <CalibrationDate>10-Nov-17</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>-9.82311197e+000</G>\",
\"# <H>1.41028436e+000</H>\",
\"# <I>-1.06360611e-003</I>\",
\"# <J>1.63522188e-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>0730</SerialNumber>\",
\"# <CalibrationDate>24-Apr-17</CalibrationDate>\",
\"# <C1>-4.394296e+004</C1>\",
\"# <C2>-3.550898e-001</C2>\",
\"# <C3>1.358660e-002</C3>\",
\"# <D1>3.762900e-002</D1>\",
\"# <D2>0.000000e+000</D2>\",
\"# <T1>3.051257e+001</T1>\",
\"# <T2>-4.037625e-004</T2>\",
\"# <T3>4.254490e-006</T3>\",
\"# <T4>2.459240e-009</T4>\",
\"# <Slope>0.99996136</Slope>\",
\"# <Offset>-8.34113</Offset>\",
\"# <T5>0.000000e+000</T5>\",
\"# <AD590M>1.291160e-002</AD590M>\",
\"# <AD590B>-9.140478e+000</AD590B>\",
\"# </PressureSensor>\",
\"# </sensor>\",
\"# <sensor Channel=\\\"4\\\" >\",
\"# <!-- A/D voltage 0, Oxygen, SBE 43 -->\",
\"# <OxygenSensor SensorID=\\\"38\\\" >\",
\"# <SerialNumber>0240</SerialNumber>\",
\"# <CalibrationDate>02-Nov-2017</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>4.2686e-001</Soc>\",
\"# <offset>-0.5037</offset>\",
\"# <A>-3.0061e-003</A>\",
\"# <B> 2.0567e-004</B>\",
\"# <C>-2.8168e-006</C>\",
\"# <D0> 2.5826e+000</D0>\",
\"# <D1> 1.92634e-004</D1>\",
\"# <D2>-4.64803e-002</D2>\",
\"# <E> 3.6000e-002</E>\",
\"# <Tau20> 1.6400</Tau20>\",
\"# <H1>-3.3000e-002</H1>\",
\"# <H2> 5.0000e+003</H2>\",
\"# <H3> 1.4500e+003</H3>\",
\"# </CalibrationCoefficients>\",
\"# </OxygenSensor>\",
\"# </sensor>\",
\"# <sensor Channel=\\\"5\\\" >\",
\"# <!-- A/D voltage 1, pH -->\",
\"# <pH_Sensor SensorID=\\\"43\\\" >\",
\"# <SerialNumber>0760</SerialNumber>\",
\"# <CalibrationDate>15-Aug-2017</CalibrationDate>\",
\"# <Slope>4.6558</Slope>\",
\"# <Offset>2.7743</Offset>\",
\"# </pH_Sensor>\",
\"# </sensor>\",
\"# <sensor Channel=\\\"6\\\" >\",
\"# <!-- A/D voltage 2, Fluorometer, Seapoint -->\",
\"# <FluoroSeapointSensor SensorID=\\\"11\\\" >\",
\"# <SerialNumber>3120</SerialNumber>\",
\"# <CalibrationDate>03-Janv-2018</CalibrationDate>\",
\"# <!-- The following is an array index, not the actual gain setting. -->\",
\"# <GainSetting>1</GainSetting>\",
\"# <Offset>0.000</Offset>\",
\"# </FluoroSeapointSensor>\",
\"# </sensor>\",
\"# <sensor Channel=\\\"7\\\" >\",
\"# <!-- A/D voltage 3, Free -->\",
\"# </sensor>\",
\"# <sensor Channel=\\\"8\\\" >\",
\"# <!-- A/D voltage 4, Altimeter -->\",
\"# <AltimeterSensor SensorID=\\\"0\\\" >\",
\"# <SerialNumber>1065</SerialNumber>\",
\"# <CalibrationDate>01-Feb-2014</CalibrationDate>\",
\"# <ScaleFactor>15.000</ScaleFactor>\",
\"# <Offset>0.000</Offset>\",
\"# </AltimeterSensor>\",
\"# </sensor>\",
\"# <sensor Channel=\\\"9\\\" >\",
\"# <!-- A/D voltage 5, PAR/Irradiance, Biospherical/Licor -->\",
\"# <PAR_BiosphericalLicorChelseaSensor SensorID=\\\"42\\\" >\",
\"# <SerialNumber>4664</SerialNumber>\",
\"# <CalibrationDate>02-02-2018</CalibrationDate>\",
\"# <M>1.00000000</M>\",
\"# <B>0.00000000</B>\",
\"# <CalibrationConstant>242718000000.00000000</CalibrationConstant>\",
\"# <Multiplier>0.00100000</Multiplier>\",
\"# <Offset>-0.00595590</Offset>\",
\"# </PAR_BiosphericalLicorChelseaSensor>\",
\"# </sensor>\",
\"# <sensor Channel=\\\"10\\\" >\",
\"# <!-- A/D voltage 6, Fluorometer, WET Labs ECO-AFL/FL -->\",
\"# <FluoroWetlabECO_AFL_FL_Sensor SensorID=\\\"20\\\" >\",
\"# <SerialNumber>4294</SerialNumber>\",
\"# <CalibrationDate>22-feb-2016</CalibrationDate>\",
\"# <ScaleFactor>6.00000000e+000</ScaleFactor>\",
\"# <!-- Dark output -->\",
\"# <Vblank>0.0700</Vblank>\",
\"# </FluoroWetlabECO_AFL_FL_Sensor>\",
\"# </sensor>\",
\"# <sensor Channel=\\\"11\\\" >\",
\"# <!-- A/D voltage 7, Turbidity Meter, WET Labs, ECO-NTU -->\",
\"# <TurbidityMeter SensorID=\\\"67\\\" >\",
\"# <SerialNumber>4294</SerialNumber>\",
\"# <CalibrationDate>22-feb-2016</CalibrationDate>\",
\"# <ScaleFactor>2.000000</ScaleFactor>\",
\"# <!-- Dark output -->\",
\"# <DarkVoltage>0.081000</DarkVoltage>\",
\"# </TurbidityMeter>\",
\"# </sensor>\",
\"# </Sensors>\",
\"# datcnv_date = Mar 26 2018 10:59:35, 7.26.6.28 [datcnv_vars = 25]\",
\"# datcnv_in = G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\00_raw\\\\1899017.hex G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\00_raw\\\\1899017.XMLCON\",
\"# datcnv_skipover = 0\",
\"# datcnv_ox_hysteresis_correction = yes\",
\"# datcnv_ox_tau_correction = yes\",
\"# filter_date = Mar 26 2018 13:35:55, 7.26.6.28\",
\"# filter_in = G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\01_datCnv\\\\newcnv\\\\1899017.cnv\",
\"# filter_low_pass_tc_A = 0.150\",
\"# filter_low_pass_tc_B = 1.000\",
\"# filter_low_pass_A_vars = prDM\",
\"# filter_low_pass_B_vars =\",
\"# alignctd_date = Mar 26 2018 13:36:45, 7.26.6.28\",
\"# alignctd_in = G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\02_processing\\\\1899017.cnv\",
\"# alignctd_adv = sbeox0V 4.500\",
\"# celltm_date = Mar 26 2018 13:37:29, 7.26.6.28\",
\"# celltm_in = G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\02_processing\\\\1899017.cnv\",
\"# celltm_alpha = 0.0300, 0.0000\",
\"# celltm_tau = 7.0000, 0.0000\",
\"# celltm_temp_sensor_use_for_cond = primary,\",
\"# loopedit_date = Mar 26 2018 13:38:26, 7.26.6.28\",
\"# loopedit_in = G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\02_processing\\\\1899017.cnv\",
\"# loopedit_minVelocity = 0.100\",
\"# loopedit_surfaceSoak: do not remove\",
\"# loopedit_excl_bad_scans = yes\",
\"# strip_date = Mar 26 2018 13:40:17, 7.26.6.28\",
\"# strip_in = G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\02_processing\\\\1899017.cnv\",
\"# Derive_date = Mar 26 2018 13:41:17, 7.26.6.28 [derive_vars = 7]\",
\"# Derive_in = G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\02_processing\\\\1899017.cnv G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\02_processing\\\\1899017.XMLCON\",
\"# derive_time_window_docdt = seconds: 1\",
\"# derive_ox_tau_correction = yes\",
\"# derive_time_window_dzdt = seconds: 1\",
\"# binavg_date = Mar 26 2018 13:43:18, 7.26.6.28\",
\"# binavg_in = G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\03_derive\\\\1899017.cnv\",
\"# binavg_bintype = decibars\",
\"# binavg_binsize = 0.2\",
\"# binavg_excl_bad_scans = yes\",
\"# binavg_skipover = 0\",
\"# binavg_surface_bin = no, min = 0.000, max = 0.000, value = 0.000\",
\"# file_type = ascii\",
\"*END*\"
]
},
{
\"CREATION_DATE\": \"2018-03-26 15:00:35.400000+00:00\",
\"PROCESS\": [
\"Conversion from CNV to ODF\"
]
}
],
\"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\": 10,
\"MAXIMUM_VALUE\": 324.8,
\"NUMBER_VALID\": 1575,
\"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\": 1575,
\"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\": -1.7036,
\"MAXIMUM_VALUE\": 6.1135,
\"NUMBER_VALID\": 1568,
\"NUMBER_NULL\": 7
},
{
\"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\": 9,
\"NUMBER_VALID\": 1575,
\"NUMBER_NULL\": 0
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Electrical Conductivity\",
\"UNITS\": \"mhos/m\",
\"CODE\": \"CNDC_01\",
\"NULL_VALUE\": -99.0,
\"PRINT_FIELD_WIDTH\": 10,
\"PRINT_DECIMAL_PLACES\": 6,
\"ANGLE_OF_SECTION\": 0.0,
\"MAGNETIC_VARIATION\": 0.0,
\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 2.5466,
\"MAXIMUM_VALUE\": 3.4396,
\"NUMBER_VALID\": 1568,
\"NUMBER_NULL\": 7
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Fluorescence\",
\"UNITS\": \"mg/m**3\",
\"CODE\": \"FLOR_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\": 0.023403,
\"MAXIMUM_VALUE\": 0.20633,
\"NUMBER_VALID\": 1568,
\"NUMBER_NULL\": 7
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Fluorescence\",
\"UNITS\": \"mg/m**3\",
\"CODE\": \"FLOR_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\": 0.015436,
\"MAXIMUM_VALUE\": 0.15926,
\"NUMBER_VALID\": 1568,
\"NUMBER_NULL\": 7
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Turbidity\",
\"UNITS\": \"NTU\",
\"CODE\": \"TURB_01\",
\"NULL_VALUE\": -99.0,
\"PRINT_FIELD_WIDTH\": 10,
\"PRINT_DECIMAL_PLACES\": 1,
\"ANGLE_OF_SECTION\": 0.0,
\"MAGNETIC_VARIATION\": 0.0,
\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 0.3762,
\"MAXIMUM_VALUE\": 0.6674,
\"NUMBER_VALID\": 1568,
\"NUMBER_NULL\": 7
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Hydrogen Ion Concentration (pH)\",
\"UNITS\": \"none\",
\"CODE\": \"PHPH_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\": \"NaN\",
\"MAXIMUM_VALUE\": \"NaN\",
\"NUMBER_VALID\": 0,
\"NUMBER_NULL\": 1575
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Photosynthetic Active Radiation\",
\"UNITS\": \"ueinsteins/s/m**2\",
\"CODE\": \"PSAR_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\": \"1e-12\",
\"MAXIMUM_VALUE\": \"1e-12\",
\"NUMBER_VALID\": 1568,
\"NUMBER_NULL\": 7
},
{
\"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\": 31.6733,
\"MAXIMUM_VALUE\": 34.7511,
\"NUMBER_VALID\": 1568,
\"NUMBER_NULL\": 7
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: Practical Salinity\",
\"UNITS\": \"none\",
\"CODE\": \"QQQQ_03\",
\"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\": 9,
\"NUMBER_VALID\": 1575,
\"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\": 25.4398,
\"MAXIMUM_VALUE\": 27.3415,
\"NUMBER_VALID\": 1568,
\"NUMBER_NULL\": 7
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: Sigma-T (rho(s, t, 0)-1000)\",
\"UNITS\": \"none\",
\"CODE\": \"QQQQ_04\",
\"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\": 9,
\"NUMBER_VALID\": 1575,
\"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\": 71.7849,
\"MAXIMUM_VALUE\": 356.0254,
\"NUMBER_VALID\": 1568,
\"NUMBER_NULL\": 7
},
{
\"TYPE\": \"DOUB\",
\"NAME\": \"Quality flag: QCFF\",
\"UNITS\": \"none\",
\"CODE\": \"QCFF_01\",
\"NULL_VALUE\": -99.0,
\"PRINT_FIELD_WIDTH\": 4,
\"PRINT_DECIMAL_PLACES\": 0,
\"ANGLE_OF_SECTION\": 0.0,
\"MAGNETIC_VARIATION\": 0.0,
\"DEPTH\": \"0.000000 \",
\"MINIMUM_VALUE\": 0,
\"MAXIMUM_VALUE\": 257,
\"NUMBER_VALID\": 1575,
\"NUMBER_NULL\": 0
}
],
\"RECORD_HEADER\": {
\"NUM_CALIBRATION\": 8,
\"NUM_SWING\": 0,
\"NUM_HISTORY\": 2,
\"NUM_CYCLE\": 1575,
\"NUM_PARAM\": 16
},
\"original_header\": [
\"ODF_HEADER,\",
\" FILE_SPECIFICATION = 'CTD_2018099_017_1_DN',\",
\"CRUISE_HEADER,\",
\" COUNTRY_INSTITUTE_CODE = 18QO,\",
\" CRUISE_NUMBER = '2018099',\",
\" ORGANIZATION = 'RQM/Ismer/Amundsen Science',\",
\" CHIEF_SCIENTIST = 'Gesche Winkler/Jean-Carlos Montero Serrano',\",
\" START_DATE = '08-FEB-2018 12:00:00.00',\",
\" END_DATE = '25-FEB-2018 12:00:00.00',\",
\" PLATFORM = 'CCGS Amundsen',\",
\" CRUISE_NAME = 'Odyssée St-Laurent 1899',\",
\" CRUISE_DESCRIPTION = '',\",
\"EVENT_HEADER,\",
\" DATA_TYPE= 'CTD',\",
\" EVENT_NUMBER= '017',\",
\" EVENT_QUALIFIER1= '1',\",
\" EVENT_QUALIFIER2= 'DN',\",
\" CREATION_DATE= '03-APR-2018 13:29:11.88',\",
\" ORIG_CREATION_DATE= '26-MAR-2018 10:59:35.00',\",
\" START_DATE_TIME= '23-FEB-2018 14:18:08.00',\",
\" END_DATE_TIME= '23-FEB-2018 14:37:23.00',\",
\" INITIAL_LATITUDE= 49.533580,\",
\" INITIAL_LONGITUDE= -66.175860,\",
\" END_LATITUDE= 49.532980,\",
\" END_LONGITUDE= -66.170000,\",
\" MIN_DEPTH= 9.91,\",
\" MAX_DEPTH= 321.78,\",
\" SAMPLING_INTERVAL= -99.0,\",
\" SOUNDING= 330.00,\",
\" DEPTH_OFF_BOTTOM= 8.22,\",
\" EVENT_COMMENTS= 'Station 002C',\",
\"METEO_HEADER,\",
\" AIR_TEMPERATURE= -8.30,\",
\" ATMOSPHERIC_PRESSURE= 1034.00,\",
\" WIND_SPEED= 6.17,\",
\" WIND_DIRECTION= 223.00,\",
\" SEA_STATE= 1,\",
\" CLOUD_COVER= 1,\",
\" 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= '4204',\",
\" DESCRIPTION= '1899017.hex 1899017.XMLCON',\",
\"QUALITY_HEADER,\",
\" QUALITY_DATE= '03-APR-2018 12:28:22.79',\",
\" 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 2.12: IML Density Inversion (overall profile) (8192)',\",
\" QUALITY_TESTS= 'Test 3.5: IML Petrie Monthly Climatology (Temperature, Salinity and Sigma-T)',\",
\" QUALITY_TESTS= 'Test 5.2: GTSPP Profile Visual Inspection',\",
\" 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= '24-APR-2017 00:00:00.00',\",
\" APPLICATION_DATE= '26-MAR-2018 10:59:35.00',\",
\" NUMBER_COEFFICIENTS= 14,\",
\" COEFFICIENTS= -4.39429600e+04 -3.55089800e-01 1.35866000e-02 3.76290000e-02 0.00000000e+00 3.05125700e+01 -4.03762500e-04 4.25449000e-06 2.45924000e-09 0.00000000e+00 1.29116000e-02 -9.14047800e+00 9.99961360e-01 -8.34113000e+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= '11-NOV-2017 00:00:00.00',\",
\" APPLICATION_DATE= '26-MAR-2018 10:59:35.00',\",
\" NUMBER_COEFFICIENTS= 7,\",
\" COEFFICIENTS= 4.40417834e-03 6.47557373e-04 2.29163359e-05 1.98448760e-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= '10-NOV-2017 00:00:00.00',\",
\" APPLICATION_DATE= '26-MAR-2018 10:59:35.00',\",
\" NUMBER_COEFFICIENTS= 8,\",
\" COEFFICIENTS= -9.82311197e+00 1.41028436e+00 -1.06360611e-03 1.63522188e-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= 'FLOR_01',\",
\" CALIBRATION_TYPE= 'FLUO05',\",
\" CALIBRATION_DATE= '03-JAN-2018 00:00:00.00',\",
\" APPLICATION_DATE= '03-APR-2018 11:57:01.00',\",
\" NUMBER_COEFFICIENTS= 2,\",
\" COEFFICIENTS= 1.00000000e+00 0.00000000e+00 ,\",
\" CALIBRATION_EQUATION= 'FLOR = (N*30/C0) + C1',\",
\" CALIBRATION_COMMENTS= 'CTD chlorophyll-a calibrated with bottle titrations.',\",
\" CALIBRATION_COMMENTS= 'Coefficient 30/gain setting value modified; optimized value = 1.4812',\",
\"GENERAL_CAL_HEADER,\",
\" PARAMETER_CODE= 'FLOR_02',\",
\" CALIBRATION_TYPE= 'FLUO06',\",
\" CALIBRATION_DATE= '22-FEB-2016 00:00:00.00',\",
\" APPLICATION_DATE= '03-APR-2018 12:00:56.00',\",
\" NUMBER_COEFFICIENTS= 2,\",
\" COEFFICIENTS= 7.00000000e-02 1.88247458e+00 ,\",
\" CALIBRATION_EQUATION= 'FLOR = (N - C0)*C1',\",
\" CALIBRATION_COMMENTS= 'CTD chlorophyll-a calibrated with bottle titrations.',\",
\" CALIBRATION_COMMENTS= 'scale factor value modified; original value = 6.0000',\",
\"GENERAL_CAL_HEADER,\",
\" PARAMETER_CODE= 'TURB_01',\",
\" CALIBRATION_TYPE= 'TUR5',\",
\" CALIBRATION_DATE= '22-FEB-2016 00:00:00.00',\",
\" APPLICATION_DATE= '26-MAR-2018 10:59:35.00',\",
\" NUMBER_COEFFICIENTS= 2,\",
\" COEFFICIENTS= 8.10000000e-02 2.00000000e+00 ,\",
\" CALIBRATION_EQUATION= 'NTU = (V - DarkVoltage )+ ScaleFactor',\",
\" CALIBRATION_COMMENTS= '',\",
\"GENERAL_CAL_HEADER,\",
\" PARAMETER_CODE= 'PHPH_01',\",
\" CALIBRATION_TYPE= 'PHPH',\",
\" CALIBRATION_DATE= '15-AUG-2017 00:00:00.00',\",
\" APPLICATION_DATE= '26-MAR-2018 10:59:35.00',\",
\" NUMBER_COEFFICIENTS= 2,\",
\" COEFFICIENTS= 2.77430000e+00 4.65580000e+00 ,\",
\" CALIBRATION_EQUATION= 'PHPH = 7+(N-C1)/((TEMP-273.15)*1.98416e-4*C0)',\",
\" CALIBRATION_COMMENTS= 'The sensor did not work properly.',\",
\"GENERAL_CAL_HEADER,\",
\" PARAMETER_CODE= 'PSAR_01',\",
\" CALIBRATION_TYPE= 'PSAR01',\",
\" CALIBRATION_DATE= '02-FEB-2018 00:00:00.00',\",
\" APPLICATION_DATE= '26-MAR-2018 10:59:35.00',\",
\" NUMBER_COEFFICIENTS= 5,\",
\" COEFFICIENTS= 1.00000000e-03 2.42718000e+11 0.00000000e+00 1.00000000e+00 -5.95590000e-03 ,\",
\" CALIBRATION_EQUATION= 'PSAR = (C0/C1)*(10^9*10^((N-C2)/C3)) + C4',\",
\" CALIBRATION_COMMENTS= '',\",
\"HISTORY_HEADER,\",
\" CREATION_DATE= '26-MAR-2018 13:43:18.00',\",
\" PROCESS= '* Sea-Bird SBE 9 Data File:',\",
\" PROCESS= '* FileName = E:\\\\CTD-Rosette_raw_Data\\\\2018\\\\1899\\\\1899017.hex',\",
\" PROCESS= '* Software Version Seasave V 7.23.2',\",
\" PROCESS= '* Temperature SN = 4204',\",
\" PROCESS= '* Conductivity SN = 2696',\",
\" PROCESS= '* Number of Bytes Per Scan = 31',\",
\" PROCESS= '* Number of Voltage Words = 4',\",
\" PROCESS= '* Number of Scans Averaged by the Deck Unit = 1',\",
\" PROCESS= '* System UpLoad Time = Feb 23 2018 14:18:08',\",
\" PROCESS= '* NMEA Latitude = 49 31.98 N',\",
\" PROCESS= '* NMEA Longitude = 066 10.74 W',\",
\" PROCESS= '* NMEA UTC (Time) = Feb 23 2018 14:07:38',\",
\" PROCESS= '* Store Lat/Lon Data = Append to Every Scan',\",
\" PROCESS= '* SBE 11plus V 5.1g',\",
\" PROCESS= '* number of scans to average = 1',\",
\" PROCESS= '* pressure baud rate = 9600',\",
\" PROCESS= '* NMEA baud rate = 9600',\",
\" PROCESS= '* GPIB address = 1',\",
\" PROCESS= '* advance primary conductivity 0.073 seconds',\",
\" PROCESS= '* advance secondary conductivity 0.073 seconds',\",
\" PROCESS= '* delete word 3 from scan',\",
\" PROCESS= '* delete word 4 from scan',\",
\" PROCESS= '* autorun on power up is disabled',\",
\" PROCESS= '* S>',\",
\" PROCESS= '** Station:',\",
\" PROCESS= '* System UTC = Feb 23 2018 14:18:08',\",
\" PROCESS= '# nquan = 28',\",
\" PROCESS= '# nvalues = 3149',\",
\" PROCESS= '# units = specified',\",
\" PROCESS= '# name 0 = scan: Scan Count',\",
\" PROCESS= '# name 1 = prDM: Pressure, Digiquartz [db]',\",
\" PROCESS= '# name 2 = t090C: Temperature [ITS-90, deg C]',\",
\" PROCESS= '# name 3 = c0mS/cm: Conductivity [mS/cm]',\",
\" PROCESS= '# name 4 = sbeox0V: Oxygen raw, SBE 43 [V]',\",
\" PROCESS= '# name 5 = flSP: Fluorescence, Seapoint',\",
\" PROCESS= '# name 6 = flECO-AFL: Fluorescence, WET Labs ECO-AFL/FL [mg/m^3]',\",
\" PROCESS= '# name 7 = turbWETntu0: Turbidity, WET Labs ECO [NTU]',\",
\" PROCESS= '# name 8 = ph: pH',\",
\" PROCESS= '# name 9 = par: PAR/Irradiance, Biospherical/Licor',\",
\" PROCESS= '# name 10 = latitude: Latitude [deg]',\",
\" PROCESS= '# name 11 = longitude: Longitude [deg]',\",
\" PROCESS= '# name 12 = timeM: Time, Elapsed [minutes]',\",
\" PROCESS= '# name 13 = pumps: Pump Status',\",
\" PROCESS= '# name 14 = v1: Voltage 1',\",
\" PROCESS= '# name 15 = v2: Voltage 2',\",
\" PROCESS= '# name 16 = v6: Voltage 6',\",
\" PROCESS= '# name 17 = v7: Voltage 7',\",
\" PROCESS= '# name 18 = sfdSM: Seafloor depth [salt water, m]',\",
\" PROCESS= '# name 19 = nbf: Bottles Fired',\",
\" PROCESS= '# name 20 = sal00: Salinity, Practical [PSU]',\",
\" PROCESS= '# name 21 = sigma-t00: Density [sigma-t, kg/m^3 ]',\",
\" PROCESS= '# name 22 = sbeox0ML/L: Oxygen, SBE 43 [ml/l], WS = 1',\",
\" PROCESS= '# name 23 = sbeox0Mg/L: Oxygen, SBE 43 [mg/l], WS = 1',\",
\" PROCESS= '# name 24 = sbeox0Mm/L: Oxygen, SBE 43 [umol/l], WS = 1',\",
\" PROCESS= '# name 25 = dz/dtM: Descent Rate [m/s], WS = 1',\",
\" PROCESS= '# name 26 = accM: Acceleration [m/s^2], WS = 1',\",
\" PROCESS= '# name 27 = flag: flag',\",
\" PROCESS= '# span 0 = 2453, 27722',\",
\" PROCESS= '# span 1 = 10.000, 324.804',\",
\" PROCESS= '# span 2 = -1.7036, 6.1135',\",
\" PROCESS= '# span 3 = 25.466313, 34.396204',\",
\" PROCESS= '# span 4 = 0.9615, 2.5707',\",
\" PROCESS= '# span 5 = 4.7416e-02, 6.8217e-01',\",
\" PROCESS= '# span 6 = 0.0488, 0.5232',\",
\" PROCESS= '# span 7 = 0.3762, 0.6674',\",
\" PROCESS= '# span 8 = 10.464, 13.862',\",
\" PROCESS= '# span 9 = 1.0000e-12, 1.0000e-12',\",
\" PROCESS= '# span 10 = 49.53296, 49.53358',\",
\" PROCESS= '# span 11 = -66.17586, -66.17000',\",
\" PROCESS= '# span 12 = 1.7025, 19.2506',\",
\" PROCESS= '# span 13 = 1, 1',\",
\" PROCESS= '# span 14 = 3.6679, 4.4949',\",
\" PROCESS= '# span 15 = 0.0158, 0.2274',\",
\" PROCESS= '# span 16 = 0.0781, 0.1572',\",
\" PROCESS= '# span 17 = 0.2691, 0.4147',\",
\" PROCESS= '# span 18 = 20.101, 390.432',\",
\" PROCESS= '# span 19 = 0, 16',\",
\" PROCESS= '# span 20 = 31.6733, 34.7515',\",
\" PROCESS= '# span 21 = 25.4398, 27.3470',\",
\" PROCESS= '# span 22 = 1.3675, 7.8644',\",
\" PROCESS= '# span 23 = 1.9543, 11.2390',\",
\" PROCESS= '# span 24 = 61.073, 351.223',\",
\" PROCESS= '# span 25 = -1.002, 1.012',\",
\" PROCESS= '# span 26 = -0.28, 0.52',\",
\" PROCESS= '# span 27 = 0.0000e+00, 0.0000e+00',\",
\" PROCESS= '# interval = decibars: 0.2',\",
\" PROCESS= '# start_time = Feb 23 2018 14:18:08 [System UTC, header]',\",
\" PROCESS= '# bad_flag = -9.990e-29',\",
\" PROCESS= '# <Sensors count=\\\"11\\\" >',\",
\" PROCESS= '# <sensor Channel=\\\"1\\\" >',\",
\" PROCESS= '# <!-- Frequency 0, Temperature -->',\",
\" PROCESS= '# <TemperatureSensor SensorID=\\\"55\\\" >',\",
\" PROCESS= '# <SerialNumber>4204</SerialNumber>',\",
\" PROCESS= '# <CalibrationDate>11-Nov-17</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>4.40417834e-003</G>',\",
\" PROCESS= '# <H>6.47557373e-004</H>',\",
\" PROCESS= '# <I>2.29163359e-005</I>',\",
\" PROCESS= '# <J>1.98448760e-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>2696</SerialNumber>',\",
\" PROCESS= '# <CalibrationDate>10-Nov-17</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>-9.82311197e+000</G>',\",
\" PROCESS= '# <H>1.41028436e+000</H>',\",
\" PROCESS= '# <I>-1.06360611e-003</I>',\",
\" PROCESS= '# <J>1.63522188e-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>0730</SerialNumber>',\",
\" PROCESS= '# <CalibrationDate>24-Apr-17</CalibrationDate>',\",
\" PROCESS= '# <C1>-4.394296e+004</C1>',\",
\" PROCESS= '# <C2>-3.550898e-001</C2>',\",
\" PROCESS= '# <C3>1.358660e-002</C3>',\",
\" PROCESS= '# <D1>3.762900e-002</D1>',\",
\" PROCESS= '# <D2>0.000000e+000</D2>',\",
\" PROCESS= '# <T1>3.051257e+001</T1>',\",
\" PROCESS= '# <T2>-4.037625e-004</T2>',\",
\" PROCESS= '# <T3>4.254490e-006</T3>',\",
\" PROCESS= '# <T4>2.459240e-009</T4>',\",
\" PROCESS= '# <Slope>0.99996136</Slope>',\",
\" PROCESS= '# <Offset>-8.34113</Offset>',\",
\" PROCESS= '# <T5>0.000000e+000</T5>',\",
\" PROCESS= '# <AD590M>1.291160e-002</AD590M>',\",
\" PROCESS= '# <AD590B>-9.140478e+000</AD590B>',\",
\" PROCESS= '# </PressureSensor>',\",
\" PROCESS= '# </sensor>',\",
\" PROCESS= '# <sensor Channel=\\\"4\\\" >',\",
\" PROCESS= '# <!-- A/D voltage 0, Oxygen, SBE 43 -->',\",
\" PROCESS= '# <OxygenSensor SensorID=\\\"38\\\" >',\",
\" PROCESS= '# <SerialNumber>0240</SerialNumber>',\",
\" PROCESS= '# <CalibrationDate>02-Nov-2017</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>4.2686e-001</Soc>',\",
\" PROCESS= '# <offset>-0.5037</offset>',\",
\" PROCESS= '# <A>-3.0061e-003</A>',\",
\" PROCESS= '# <B> 2.0567e-004</B>',\",
\" PROCESS= '# <C>-2.8168e-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> 1.6400</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=\\\"5\\\" >',\",
\" PROCESS= '# <!-- A/D voltage 1, pH -->',\",
\" PROCESS= '# <pH_Sensor SensorID=\\\"43\\\" >',\",
\" PROCESS= '# <SerialNumber>0760</SerialNumber>',\",
\" PROCESS= '# <CalibrationDate>15-Aug-2017</CalibrationDate>',\",
\" PROCESS= '# <Slope>4.6558</Slope>',\",
\" PROCESS= '# <Offset>2.7743</Offset>',\",
\" PROCESS= '# </pH_Sensor>',\",
\" PROCESS= '# </sensor>',\",
\" PROCESS= '# <sensor Channel=\\\"6\\\" >',\",
\" PROCESS= '# <!-- A/D voltage 2, Fluorometer, Seapoint -->',\",
\" PROCESS= '# <FluoroSeapointSensor SensorID=\\\"11\\\" >',\",
\" PROCESS= '# <SerialNumber>3120</SerialNumber>',\",
\" PROCESS= '# <CalibrationDate>03-Janv-2018</CalibrationDate>',\",
\" PROCESS= '# <!-- The following is an array index, not the actual gain setting. -->',\",
\" PROCESS= '# <GainSetting>1</GainSetting>',\",
\" PROCESS= '# <Offset>0.000</Offset>',\",
\" PROCESS= '# </FluoroSeapointSensor>',\",
\" PROCESS= '# </sensor>',\",
\" PROCESS= '# <sensor Channel=\\\"7\\\" >',\",
\" PROCESS= '# <!-- A/D voltage 3, Free -->',\",
\" PROCESS= '# </sensor>',\",
\" PROCESS= '# <sensor Channel=\\\"8\\\" >',\",
\" PROCESS= '# <!-- A/D voltage 4, Altimeter -->',\",
\" PROCESS= '# <AltimeterSensor SensorID=\\\"0\\\" >',\",
\" PROCESS= '# <SerialNumber>1065</SerialNumber>',\",
\" PROCESS= '# <CalibrationDate>01-Feb-2014</CalibrationDate>',\",
\" PROCESS= '# <ScaleFactor>15.000</ScaleFactor>',\",
\" PROCESS= '# <Offset>0.000</Offset>',\",
\" PROCESS= '# </AltimeterSensor>',\",
\" PROCESS= '# </sensor>',\",
\" PROCESS= '# <sensor Channel=\\\"9\\\" >',\",
\" PROCESS= '# <!-- A/D voltage 5, PAR/Irradiance, Biospherical/Licor -->',\",
\" PROCESS= '# <PAR_BiosphericalLicorChelseaSensor SensorID=\\\"42\\\" >',\",
\" PROCESS= '# <SerialNumber>4664</SerialNumber>',\",
\" PROCESS= '# <CalibrationDate>02-02-2018</CalibrationDate>',\",
\" PROCESS= '# <M>1.00000000</M>',\",
\" PROCESS= '# <B>0.00000000</B>',\",
\" PROCESS= '# <CalibrationConstant>242718000000.00000000</CalibrationConstant>',\",
\" PROCESS= '# <Multiplier>0.00100000</Multiplier>',\",
\" PROCESS= '# <Offset>-0.00595590</Offset>',\",
\" PROCESS= '# </PAR_BiosphericalLicorChelseaSensor>',\",
\" PROCESS= '# </sensor>',\",
\" PROCESS= '# <sensor Channel=\\\"10\\\" >',\",
\" PROCESS= '# <!-- A/D voltage 6, Fluorometer, WET Labs ECO-AFL/FL -->',\",
\" PROCESS= '# <FluoroWetlabECO_AFL_FL_Sensor SensorID=\\\"20\\\" >',\",
\" PROCESS= '# <SerialNumber>4294</SerialNumber>',\",
\" PROCESS= '# <CalibrationDate>22-feb-2016</CalibrationDate>',\",
\" PROCESS= '# <ScaleFactor>6.00000000e+000</ScaleFactor>',\",
\" PROCESS= '# <!-- Dark output -->',\",
\" PROCESS= '# <Vblank>0.0700</Vblank>',\",
\" PROCESS= '# </FluoroWetlabECO_AFL_FL_Sensor>',\",
\" PROCESS= '# </sensor>',\",
\" PROCESS= '# <sensor Channel=\\\"11\\\" >',\",
\" PROCESS= '# <!-- A/D voltage 7, Turbidity Meter, WET Labs, ECO-NTU -->',\",
\" PROCESS= '# <TurbidityMeter SensorID=\\\"67\\\" >',\",
\" PROCESS= '# <SerialNumber>4294</SerialNumber>',\",
\" PROCESS= '# <CalibrationDate>22-feb-2016</CalibrationDate>',\",
\" PROCESS= '# <ScaleFactor>2.000000</ScaleFactor>',\",
\" PROCESS= '# <!-- Dark output -->',\",
\" PROCESS= '# <DarkVoltage>0.081000</DarkVoltage>',\",
\" PROCESS= '# </TurbidityMeter>',\",
\" PROCESS= '# </sensor>',\",
\" PROCESS= '# </Sensors>',\",
\" PROCESS= '# datcnv_date = Mar 26 2018 10:59:35, 7.26.6.28 [datcnv_vars = 25]',\",
\" PROCESS= '# datcnv_in = G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\00_raw\\\\1899017.hex G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\00_raw\\\\1899017.XMLCON',\",
\" PROCESS= '# datcnv_skipover = 0',\",
\" PROCESS= '# datcnv_ox_hysteresis_correction = yes',\",
\" PROCESS= '# datcnv_ox_tau_correction = yes',\",
\" PROCESS= '# filter_date = Mar 26 2018 13:35:55, 7.26.6.28',\",
\" PROCESS= '# filter_in = G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\01_datCnv\\\\newcnv\\\\1899017.cnv',\",
\" PROCESS= '# filter_low_pass_tc_A = 0.150',\",
\" PROCESS= '# filter_low_pass_tc_B = 1.000',\",
\" PROCESS= '# filter_low_pass_A_vars = prDM',\",
\" PROCESS= '# filter_low_pass_B_vars =',\",
\" PROCESS= '# alignctd_date = Mar 26 2018 13:36:45, 7.26.6.28',\",
\" PROCESS= '# alignctd_in = G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\02_processing\\\\1899017.cnv',\",
\" PROCESS= '# alignctd_adv = sbeox0V 4.500',\",
\" PROCESS= '# celltm_date = Mar 26 2018 13:37:29, 7.26.6.28',\",
\" PROCESS= '# celltm_in = G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\02_processing\\\\1899017.cnv',\",
\" PROCESS= '# celltm_alpha = 0.0300, 0.0000',\",
\" PROCESS= '# celltm_tau = 7.0000, 0.0000',\",
\" PROCESS= '# celltm_temp_sensor_use_for_cond = primary,',\",
\" PROCESS= '# loopedit_date = Mar 26 2018 13:38:26, 7.26.6.28',\",
\" PROCESS= '# loopedit_in = G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\02_processing\\\\1899017.cnv',\",
\" PROCESS= '# loopedit_minVelocity = 0.100',\",
\" PROCESS= '# loopedit_surfaceSoak: do not remove',\",
\" PROCESS= '# loopedit_excl_bad_scans = yes',\",
\" PROCESS= '# strip_date = Mar 26 2018 13:40:17, 7.26.6.28',\",
\" PROCESS= '# strip_in = G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\02_processing\\\\1899017.cnv',\",
\" PROCESS= '# Derive_date = Mar 26 2018 13:41:17, 7.26.6.28 [derive_vars = 7]',\",
\" PROCESS= '# Derive_in = G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\02_processing\\\\1899017.cnv G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\02_processing\\\\1899017.XMLCON',\",
\" PROCESS= '# derive_time_window_docdt = seconds: 1',\",
\" PROCESS= '# derive_ox_tau_correction = yes',\",
\" PROCESS= '# derive_time_window_dzdt = seconds: 1',\",
\" PROCESS= '# binavg_date = Mar 26 2018 13:43:18, 7.26.6.28',\",
\" PROCESS= '# binavg_in = G:\\\\Data\\\\CTD\\\\2018\\\\1899_Odyssee\\\\Data\\\\03_derive\\\\1899017.cnv',\",
\" PROCESS= '# binavg_bintype = decibars',\",
\" PROCESS= '# binavg_binsize = 0.2',\",
\" PROCESS= '# binavg_excl_bad_scans = yes',\",
\" PROCESS= '# binavg_skipover = 0',\",
\" PROCESS= '# binavg_surface_bin = no, min = 0.000, max = 0.000, value = 0.000',\",
\" PROCESS= '# file_type = ascii',\",
\" PROCESS= '*END*',\",
\"HISTORY_HEADER,\",
\" CREATION_DATE= '26-MAR-2018 15:00:35.40',\",
\" PROCESS= 'Conversion from CNV to ODF',\",
\"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= 10,\",
\" MAXIMUM_VALUE= 324.8,\",
\" NUMBER_VALID= 1575,\",
\" 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= 1575,\",
\" 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= -1.7036,\",
\" MAXIMUM_VALUE= 6.1135,\",
\" NUMBER_VALID= 1568,\",
\" NUMBER_NULL= 7,\",
\"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= 9,\",
\" NUMBER_VALID= 1575,\",
\" NUMBER_NULL= 0,\",
\"PARAMETER_HEADER,\",
\" TYPE= 'DOUB',\",
\" NAME= 'Electrical Conductivity',\",
\" UNITS= 'mhos/m',\",
\" CODE= 'CNDC_01',\",
\" NULL_VALUE= -9.900000E+01,\",
\" PRINT_FIELD_WIDTH= 10,\",
\" PRINT_DECIMAL_PLACES= 6,\",
\" ANGLE_OF_SECTION= 0.000000,\",
\" MAGNETIC_VARIATION= 0.000000,\",
\" DEPTH= 0.000000 ,\",
\" MINIMUM_VALUE= 2.5466,\",
\" MAXIMUM_VALUE= 3.4396,\",
\" NUMBER_VALID= 1568,\",
\" NUMBER_NULL= 7,\",
\"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= 0.023403,\",
\" MAXIMUM_VALUE= 0.20633,\",
\" NUMBER_VALID= 1568,\",
\" NUMBER_NULL= 7,\",
\"PARAMETER_HEADER,\",
\" TYPE= 'DOUB',\",
\" NAME= 'Fluorescence',\",
\" UNITS= 'mg/m**3',\",
\" CODE= 'FLOR_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= 0.015436,\",
\" MAXIMUM_VALUE= 0.15926,\",
\" NUMBER_VALID= 1568,\",
\" NUMBER_NULL= 7,\",
\"PARAMETER_HEADER,\",
\" TYPE= 'DOUB',\",
\" NAME= 'Turbidity',\",
\" UNITS= 'NTU',\",
\" CODE= 'TURB_01',\",
\" NULL_VALUE= -9.900000E+01,\",
\" PRINT_FIELD_WIDTH= 10,\",
\" PRINT_DECIMAL_PLACES= 1,\",
\" ANGLE_OF_SECTION= 0.000000,\",
\" MAGNETIC_VARIATION= 0.000000,\",
\" DEPTH= 0.000000 ,\",
\" MINIMUM_VALUE= 0.3762,\",
\" MAXIMUM_VALUE= 0.6674,\",
\" NUMBER_VALID= 1568,\",
\" NUMBER_NULL= 7,\",
\"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= NaN,\",
\" MAXIMUM_VALUE= NaN,\",
\" NUMBER_VALID= 0,\",
\" NUMBER_NULL= 1575,\",
\"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= 1e-12,\",
\" MAXIMUM_VALUE= 1e-12,\",
\" NUMBER_VALID= 1568,\",
\" NUMBER_NULL= 7,\",
\"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= 31.6733,\",
\" MAXIMUM_VALUE= 34.7511,\",
\" NUMBER_VALID= 1568,\",
\" NUMBER_NULL= 7,\",
\"PARAMETER_HEADER,\",
\" TYPE= 'DOUB',\",
\" NAME= 'Quality flag: Practical Salinity',\",
\" 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= 9,\",
\" NUMBER_VALID= 1575,\",
\" 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= 25.4398,\",
\" MAXIMUM_VALUE= 27.3415,\",
\" NUMBER_VALID= 1568,\",
\" NUMBER_NULL= 7,\",
\"PARAMETER_HEADER,\",
\" TYPE= 'DOUB',\",
\" NAME= 'Quality flag: Sigma-T (rho(s, t, 0)-1000)',\",
\" 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= 9,\",
\" NUMBER_VALID= 1575,\",
\" 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= 71.7849,\",
\" MAXIMUM_VALUE= 356.0254,\",
\" NUMBER_VALID= 1568,\",
\" NUMBER_NULL= 7,\",
\"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= 257,\",
\" NUMBER_VALID= 1575,\",
\" NUMBER_NULL= 0,\",
\"RECORD_HEADER,\",
\" NUM_CALIBRATION= 8,\",
\" NUM_SWING= 0,\",
\" NUM_HISTORY= 2,\",
\" NUM_CYCLE= 1575,\",
\" NUM_PARAM= 16,\",
\" -- DATA -- \"
]
}";
String platform "research vessel";
String platform_id "18DL";
String platform_name "Amundsen";
String platform_owner "Canadian Coast Guard";
String platform_type "Research Vessel";
String platform_vocabulary "https://vocab.nerc.ac.uk/collection/L06/current/";
String profile_direction "DN";
String sdn_platform_urn "SDN:C17::18DL";
String seabird_processing_modules
"# datcnv_date = Mar 26 2018 10:59:35, 7.26.6.28 [datcnv_vars = 25]
# datcnv_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\00_raw\\1899017.hex G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\00_raw\\1899017.XMLCON
# datcnv_skipover = 0
# datcnv_ox_hysteresis_correction = yes
# datcnv_ox_tau_correction = yes
# filter_date = Mar 26 2018 13:35:55, 7.26.6.28
# filter_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\01_datCnv\\newcnv\\1899017.cnv
# filter_low_pass_tc_A = 0.150
# filter_low_pass_tc_B = 1.000
# filter_low_pass_A_vars = prDM
# filter_low_pass_B_vars =
# alignctd_date = Mar 26 2018 13:36:45, 7.26.6.28
# alignctd_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv
# alignctd_adv = sbeox0V 4.500
# celltm_date = Mar 26 2018 13:37:29, 7.26.6.28
# celltm_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv
# celltm_alpha = 0.0300, 0.0000
# celltm_tau = 7.0000, 0.0000
# celltm_temp_sensor_use_for_cond = primary,
# loopedit_date = Mar 26 2018 13:38:26, 7.26.6.28
# loopedit_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv
# loopedit_minVelocity = 0.100
# loopedit_surfaceSoak: do not remove
# loopedit_excl_bad_scans = yes
# strip_date = Mar 26 2018 13:40:17, 7.26.6.28
# strip_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv
# Derive_date = Mar 26 2018 13:41:17, 7.26.6.28 [derive_vars = 7]
# Derive_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.cnv G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\02_processing\\1899017.XMLCON
# derive_time_window_docdt = seconds: 1
# derive_ox_tau_correction = yes
# derive_time_window_dzdt = seconds: 1
# binavg_date = Mar 26 2018 13:43:18, 7.26.6.28
# binavg_in = G:\\Data\\CTD\\2018\\1899_Odyssee\\Data\\03_derive\\1899017.cnv
# binavg_bintype = decibars
# binavg_binsize = 0.2
# binavg_excl_bad_scans = yes
# binavg_skipover = 0
# binavg_surface_bin = no, min = 0.000, max = 0.000, value = 0.000";
String source "/mnt/data/odf/CTD_2018099_017_1_DN.odf";
String sourceUrl "(local files)";
Float64 Southernmost_Northing 47.31419;
String standard_name_vocabulary "CF Standard Name Table v70";
String subsetVariables "stationID";
String summary "Conductivity, Temperature, Depth (CTD) profile data collected from the ship CCGS Amundsen on the Odyssée St-Laurent RQM's mission from 08-Feb-2018 to 25-Feb-2018.";
String summary_fr "Profiles de conductivité, température, et profondeur (CTD) collectés à partir du navire NGCC Amundsen dans le cadre de la mission Odyssée St-Laurent du RQM du 8 au 25 février 2018";
String time_coverage_duration "P0DT0H0M0S";
String time_coverage_end "2018-02-23T14:18:08Z";
String time_coverage_start "2018-02-10T11:15:10Z";
String title "RQM - CTD Data From the Winter Concerted Mission Aboard the CCGS Amundsen (MOH2018): Odyssée Saint-Laurent 2018 | Données CTD de la mission concertée hivernale à bord du NGCC Amundsen (MOH2018) : Odyssée Saint-Laurent 2018";
Float64 Westernmost_Easting -70.51594;
String wmo_platform_code "7510846";
}
}
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.
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.