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Dataset Title: | unit_1190-20241218T1433 |
Institution: | Rutgers University (Dataset ID: unit_1190-20241218T1433) |
Range: | longitude = -71.39934 to -71.24176°E, latitude = 40.94645 to 41.330704°N, depth = 0.2070765 to 50.58749m, time = 2024-12-18T14:42:47Z to 2024-12-22T17:48:43Z |
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Attributes { s { trajectory { UInt32 _ChunkSizes 23; String cf_role "trajectory_id"; String comment "A trajectory is one deployment of a glider."; String ioos_category "Identifier"; String long_name "Trajectory Name"; } wmo_id { String ioos_category "Identifier"; String long_name "WMO ID"; } profile_id { Int32 _FillValue 2147483647; Int32 actual_range 1734532967, 1734889719; String ancillary_variables "profile_time"; String cf_role "profile_id"; String comment "Unique identifier of the profile. The profile ID is the mean profile timestamp"; String ioos_category "Identifier"; String long_name "Profile ID"; Int32 processing_level 2; Int32 valid_max 2147483647; Int32 valid_min 1; } time { String _CoordinateAxisType "Time"; Float64 actual_range 1.7345329672976665e+9, 1.7348897230553424e+9; String axis "T"; String calendar "gregorian"; String comment "Timestamp corresponding to the mid-point of the profile."; String ioos_category "Time"; String long_name "Profile Time"; String observation_type "calculated"; String platform "platform"; Int32 processing_level 2; String standard_name "time"; String time_origin "01-JAN-1970 00:00:00"; String units "seconds since 1970-01-01T00:00:00Z"; Float64 valid_max 2.147483647e+9; Float64 valid_min 0.0; } latitude { String _CoordinateAxisType "Lat"; Float64 _FillValue 9.969209968386869e+36; Float64 actual_range 40.946448329618335, 41.330702744568825; String axis "Y"; Float64 colorBarMaximum 90.0; Float64 colorBarMinimum -90.0; String comment "Value is interpolated to provide an estimate of the latitude at the mid-point of the profile."; String coordinate_reference_frame "urn:ogc:crs:EPSG::4326"; String ioos_category "Location"; String long_name "Profile Latitude"; String observation_type "calculated"; String platform "platform"; Int32 precision 5; Int32 processing_level 2; String reference "WGS84"; String standard_name "latitude"; String units "degrees_north"; Float64 valid_max 90.0; Float64 valid_min -90.0; } longitude { String _CoordinateAxisType "Lon"; Float64 _FillValue 9.969209968386869e+36; Float64 actual_range -71.39934044337228, -71.2417583763925; String axis "X"; Float64 colorBarMaximum 180.0; Float64 colorBarMinimum -180.0; String comment "Value is interpolated to provide an estimate of the longitude at the mid-point of the profile."; String coordinate_reference_frame "urn:ogc:crs:EPSG::4326"; String ioos_category "Location"; String long_name "Profile Longitude"; String observation_type "calculated"; String platform "platform"; Int32 precision 5; Int32 processing_level 2; String reference "WGS84"; String standard_name "longitude"; String units "degrees_east"; Float64 valid_max 180.0; Float64 valid_min -180.0; } depth { UInt32 _ChunkSizes 108; String _CoordinateAxisType "Height"; String _CoordinateZisPositive "down"; Float32 _FillValue 9.96921e+36; Float32 actual_range 0.2070765, 50.58749; String ancillary_variables "instrument_ctd"; String axis "Z"; Float64 colorBarMaximum 2000.0; Float64 colorBarMinimum 0.0; String colorBarPalette "OceanDepth"; String comment "Calculated from llat_pressure and llat_latitude using gsw.z_from_p"; String instrument "instrument_ctd"; String ioos_category "Location"; String long_name "Depth"; String observation_type "calculated"; String platform "platform"; String positive "down"; Int32 processing_level 2; String reference_datum "sea-surface"; String standard_name "depth"; String units "m"; Float32 valid_max 2000.0; Float32 valid_min 0.0; } commanded_ballast_pumped { UInt32 _ChunkSizes 1024; Float32 _FillValue 9.96921e+36; Float32 actual_range -270.0, 340.0; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "c_ballast_pumped"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "c_ballast_pumped"; String source_sensor "c_ballast_pumped"; String units "cc"; } commanded_climb_target_depth { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 4.5, 10.0; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "c_climb_target_depth"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "c_climb_target_depth"; String source_sensor "c_climb_target_depth"; String units "m"; } commanded_dive_target_depth { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 95.0, 95.0; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "c_dive_target_depth"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "c_dive_target_depth"; String source_sensor "c_dive_target_depth"; String units "m"; } commanded_fin { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -0.44, 0.44; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "c_fin"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "c_fin"; String source_sensor "c_fin"; String units "rad"; } commanded_heading { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 0.0247639, 4.05734; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "c_heading"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "c_heading"; String source_sensor "c_heading"; String units "rad"; } commanded_wpt_lat { UInt32 _ChunkSizes 108; Float64 _FillValue 9.969209968386869e+36; Float64 actual_range 4059.8672, 4118.2589; Int32 bytes 8; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "c_wpt_lat"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "c_wpt_lat"; String source_sensor "c_wpt_lat"; String units "lat"; } commanded_wpt_lon { UInt32 _ChunkSizes 108; Float64 _FillValue 9.969209968386869e+36; Float64 actual_range -7121.9528, -7115.8233; Int32 bytes 8; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "c_wpt_lon"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "c_wpt_lon"; String source_sensor "c_wpt_lon"; String units "lon"; } commanded_wpt_x_lmc { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -7528.47, 7561.63; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "c_wpt_x_lmc"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "c_wpt_x_lmc"; String source_sensor "c_wpt_x_lmc"; String units "m"; } commanded_wpt_y_lmc { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -38350.3, -2801.47; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "c_wpt_y_lmc"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "c_wpt_y_lmc"; String source_sensor "c_wpt_y_lmc"; String units "m"; } conductivity { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 3.37115, 3.70327; String ancillary_variables "instrument_ctd qartod_conductivity_flat_line_flag qartod_conductivity_gross_range_flag qartod_conductivity_rate_of_change_flag qartod_conductivity_spike_flag qartod_conductivity_primary_flag"; Int32 bytes 4; Float64 colorBarMaximum 9.0; Float64 colorBarMinimum 0.0; String comment "Native glider sensor name"; String instrument "instrument_ctd"; String ioos_category "Salinity"; String long_name "Sea Water Electrical Conductivity"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "sci_water_cond"; String source_sensor "sci_water_cond"; String standard_name "sea_water_electrical_conductivity"; String units "S m-1"; Float32 valid_max 10.0; Float32 valid_min 0.0; } crs { Int32 _FillValue -2147483647; String epsg_code "EPSG:4326"; String grid_mapping_name "latitude_longitude"; Float64 inverse_flattening 298.257223563; String ioos_category "Other"; String long_name "http://www.opengis.net/def/crs/EPSG/0/4326"; Int32 processing_level 2; Float64 semi_major_axis 6378137.0; } density { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 1024.757, 1025.49; String ancillary_variables "instrument_ctd"; Float64 colorBarMaximum 1032.0; Float64 colorBarMinimum 1020.0; String instrument "instrument_ctd"; String ioos_category "Other"; String long_name "Sea Water Density"; String observation_type "calculated"; String platform "platform"; Int32 processing_level 2; String standard_name "sea_water_density"; String units "kg m-3"; Float32 valid_max 1015.0; Float32 valid_min 1040.0; } dr_latitude { UInt32 _ChunkSizes 108; Float64 _FillValue 9.969209968386869e+36; Float64 actual_range 4056.77305375241, 4119.63920006447; Int32 bytes 8; String comment "Dead-reckoned latitude. Units are degrees decimal minutes"; String ioos_category "Other"; String long_name "m_lat"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_lat"; String source_sensor "m_lat"; String units "degrees decimal minutes"; } dr_longitude { UInt32 _ChunkSizes 108; Float64 _FillValue 9.969209968386869e+36; Float64 actual_range -7123.89780005557, -7114.50415017598; Int32 bytes 8; String comment "Dead-reckoned longitude. Units are degrees decimal minutes"; String ioos_category "Other"; String long_name "m_lon"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_lon"; String source_sensor "m_lon"; String units "degrees decimal minutes"; } f_fin_offset { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 0.0, 0.0; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "f_fin_offset"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "f_fin_offset"; String source_sensor "f_fin_offset"; String units "rad"; } gps_latitude { UInt32 _ChunkSizes 108; Float64 _FillValue 9.969209968386869e+36; Float64 actual_range 4107.4169, 4119.6392; Int32 bytes 8; String comment "GPS latitude. Units are degrees decimal minutes"; String ioos_category "Other"; String long_name "m_gps_lat"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String source_sensor "m_gps_lat"; String units "lat"; } gps_longitude { UInt32 _ChunkSizes 108; Float64 _FillValue 9.969209968386869e+36; Float64 actual_range -7123.9143, -7116.5189; Int32 bytes 8; String comment "GPS longitude. Units are degrees decimal minutes"; String ioos_category "Other"; String long_name "m_gps_lon"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_gps_lon"; String source_sensor "m_gps_lon"; String units "degrees decimal minutes"; } instrument_ctd { String _Unsigned "false"; String ioos_category "Identifier"; String long_name "CTD Metadata"; String units "1"; } instrument_hydrophone { Int32 _FillValue -2147483647; String calibration_date "2024-11-13"; String comment "4 x M36-V35-100 hydrophone. Strap on instrument, no data flow through glider. No NVS vocabulary as of 2024-12-17; description is a modified version of standard OceanObserver instrument (https://vocab.nerc.ac.uk/collection/L22/current/TOOL1894/) modified based on ObserverSnout manufacturer page (https://vocab.nerc.ac.uk/collection/L22/current/TOOL1894/)."; String description "A submersible real-time acoustic monitoring system for marine mammal detection, identification, and localisation, ambient and vessel noise quantification, and wind and tidal energy monitoring. The JASCO OceanObserver-Snout has applications on drifters, acoustic profiling floats, gliders, buoys, and other autonomous vehicles. The OceanObserver system records the underwater sounds while running automated cetacean detectors that flag possible marine mammal calls or other events of interest by use of onboard detection algorithms tailored to species and call types of choice, as part of JASCO's PAMlab INT (integrated) software. Features local and global data telemetry via Wi-Fi, VHF, Iridium, cellular, serial, Ethernet, or acoustic modem, and wireless control via Wi-Fi or Bluetooth. For bandwidth-limited telemetry like cellular and Iridium, the OceanObserver converts the detection spectrograms into frequency contours and ranks them by priority. The events are relayed via satellite and delivered by email. The processed events are prioritised so that important events, like detections of species at risk, are sent first, making best use of the communication window. The OceanObserver was designed with modular components to tailor the system to the application, and up to 12 TB memory capacity on removable SD cards. The system features up to 4 mid-speed acoustic channels at 8 - 512 ksps. Spectra noise floor is better than -150 dB re FS per square root Hz at 8 - 512 ksps or better than -145 dB re FS per square root Hz at 2048 ksps. Standard hydrophone sensitivities are -164 dB re 1 V/μPa at 1 kHz or -210 dB re 1 V/μPa at 1 kHz."; String factory_calibrated "2024-11-13"; String ioos_category "Other"; String long_name "JASCO OceanObserver-Snout acoustic monitoring system"; String maker "JASCO Applied Sciences"; String maker_vocabulary "https://vocab.nerc.ac.uk/collection/L35/current/MAN0245/"; String model "JASCO OceanObserver-Snout"; String owner "JASCO Applied Sciences"; String references "https://www.jasco.com/oceanobserver-slocum-glider, https://www.jasco.com/-oceanobserver-snout"; String serial_number "1138"; String type "hydrophones"; String type_vocabulary "https://vocab.nerc.ac.uk/collection/L05/current/369/"; } instrument_rbrctd { Int32 _FillValue -2147483647; String calibration_date "2024-05-30"; String description "A conductivity, temperature and pressure sensor designed for use on gliders and autonomous underwater vehicles (AUVs). It can be used to derive salinity, density and sound velocity and is optimised for turbulence measurements and passive acoustic monitoring due to its silent operation (non-pumped). The instrument is available as two configurations; the standard RBR Legato3 has a 2 Hz standard thermistor response; the RBR Legato3 Fast 16 instrument has a 16 Hz fast thermistor response. Additional sensors such as dissolved oxygen, fluorescence, turbidity, and PAR are all supported. The RBR Legato3 is designed to fit into a standard 2 x 7 inch sensor bay, with both wet- and dry-bay models. The RBR Legato3 is depth-rated to 1000m, with a pressure range from 500-1000 db and accuracy of +/- 0.05 percent (full scale). The conductivity accuracy is +/- 0.003 mS/cm. Temperature range is -5 degC to +42 degC (ITS-90) with an accuracy of +/- 0.002 degC (-5 to +35 degC) and +/- 0.004 degC (+35 to +42 degC)."; String factory_calibrated "2024-05-30"; String ioos_category "Other"; String long_name "RBR Legato3 CTD"; String maker "RBR"; String maker_vocabulary "https://vocab.nerc.ac.uk/collection/L35/current/MAN0049/,https://vocab.nerc.ac.uk/collection/B75/current/ORG00299/"; String model "RBR Legato3 CTD"; String model_vocabulary "https://vocab.nerc.ac.uk/collection/L22/current/TOOL1745/"; String owner "JASCO Applied Sciences"; String serial_number "233237"; String type "CTD,salinity sensor,water temperature sensor,water pressure sensor"; String type_vocabulary "https://vocab.nerc.ac.uk/collection/L05/current/130/,https://vocab.nerc.ac.uk/collection/L05/current/350/,https://vocab.nerc.ac.uk/collection/L05/current/134/,https://vocab.nerc.ac.uk/collection/L05/current/WPS/"; } instrument_vmt { Int32 _FillValue -2147483647; String calibration_date "1970-01-01"; String comment "No calibration date. No NVS vocabulary for instrument as of 2023-04-20. VMT transmits with ID 59963."; String description "The Vemco Mobile Transceiver (VMT) is a hybrid between a 69 kHz coded transmitter and a 69 kHz monitoring receiver (similar to the VR2W-69 kHz). The VMT is externally attached to an animal or glider and its receiving capabilities enable it to detect other animals that have been tagged with a 69 kHz coded transmitter. Coded transmitting capabilities also allow the VMT to be detected by other deployed 69 kHz receivers. The VMT comes with several user programmable options such as the ability to vary receiver ON time (duty cycle), as well as some tag programming options. Depth rated to 1000 m."; String factory_calibrated "1970-01-01"; String ioos_category "Other"; String long_name "Vemco Mobile Transceiver (VMT)"; String maker "Innovasea Systems Inc.,VEMCO"; String maker_vocabulary "https://vocab.nerc.ac.uk/collection/L35/current/MAN0207/,https://vocab.nerc.ac.uk/collection/B75/current/ORG00348/"; String model "VMT"; String owner "Rutgers University"; String references "https://www.innovasea.com/wp-content/uploads/2021/06/Innovasea-Fish-Tracking-vmt-data-sheet-0621.pdf"; String serial_number "1502894"; String type "tracking tags"; String type_vocabulary "https://vocab.nerc.ac.uk/collection/L05/current/TRTG/"; } lat_uv { Float64 _FillValue 9.96921e+36; Float64 actual_range 40.94645, 41.3307; Float64 colorBarMaximum 90.0; Float64 colorBarMinimum -90.0; String comment "The depth-averaged current is an estimate of the net current measured while the glider is underwater. The value is calculated over the entire underwater segment, which may consist of 1 or more dives."; String ioos_category "Location"; String long_name "Depth-averaged Latitude"; String observation_type "calculated"; String platform "platform"; Int32 processing_level 2; String standard_name "latitude"; String units "degrees_north"; Float64 valid_max 90.0; Float64 valid_min -90.0; } lon_uv { Float64 _FillValue 9.96921e+36; Float64 actual_range -71.39934, -71.24176; Float64 colorBarMaximum 180.0; Float64 colorBarMinimum -180.0; String comment "The depth-averaged current is an estimate of the net current measured while the glider is underwater. The value is calculated over the entire underwater segment, which may consist of 1 or more dives."; String ioos_category "Location"; String long_name "Depth-averaged Longitude"; String observation_type "calculated"; String platform "platform"; Int32 processing_level 2; String standard_name "longitude"; String units "degrees_east"; Float64 valid_max 180.0; Float64 valid_min -180.0; } measured_avg_speed { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 0.154773, 0.279879; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_avg_speed"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_avg_speed"; String source_sensor "m_avg_speed"; String units "m/s"; } measured_ballast_pumped { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -282.999, 337.418; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_ballast_pumped"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_ballast_pumped"; String source_sensor "m_ballast_pumped"; String units "cc"; } measured_battery_inst { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 14.1703, 14.896; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_battery_inst"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_battery_inst"; String source_sensor "m_battery_inst"; String units "volts"; } measured_battpos { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -0.277322, 0.926714; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_battpos"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_battpos"; String source_sensor "m_battpos"; String units "in"; } measured_bms_emergency_battery_voltage { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 12.5007, 12.7275; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_bms_emergency_battery_voltage"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_bms_emergency_battery_voltage"; String source_sensor "m_bms_emergency_battery_voltage"; String units "volts"; } measured_coulomb_amphr_total { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 1.70624, 29.9674; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_coulomb_amphr_total"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_coulomb_amphr_total"; String source_sensor "m_coulomb_amphr_total"; String units "amp-hrs"; } measured_depth { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 0.0, 3.71954; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_depth"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_depth"; String source_sensor "m_depth"; String units "m"; } measured_depth_rate_avg_final { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -0.170224, 0.173966; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_depth_rate_avg_final"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_depth_rate_avg_final"; String source_sensor "m_depth_rate_avg_final"; String units "m/s"; } measured_digifin_leakdetect_reading { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 1022.0, 1023.0; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_digifin_leakdetect_reading"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_digifin_leakdetect_reading"; String source_sensor "m_digifin_leakdetect_reading"; String units "nodim"; } measured_fin { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -0.44218, 0.444514; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_fin"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_fin"; String source_sensor "m_fin"; String units "rad"; } measured_gps_mag_var { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 0.251327, 0.253073; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_gps_mag_var"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_gps_mag_var"; String source_sensor "m_gps_mag_var"; String units "rad"; } measured_gps_status { UInt32 _ChunkSizes 108; Byte _FillValue -127; String _Unsigned "false"; Byte actual_range 0, 2; Int32 bytes 1; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_gps_status"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_gps_status"; String source_sensor "m_gps_status"; String units "enum"; } measured_hdg_derror { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -0.0427614, 0.0331407; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_hdg_derror"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_hdg_derror"; String source_sensor "m_hdg_derror"; String units "rad/sec"; } measured_hdg_error { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -1.75535, 1.56252; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_hdg_error"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_hdg_error"; String source_sensor "m_hdg_error"; String units "rad"; } measured_hdg_ierror { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -20.5802, 17.3349; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_hdg_ierror"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_hdg_ierror"; String source_sensor "m_hdg_ierror"; String units "rad-sec"; } measured_heading { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 0.150098, 6.16276; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_heading"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_heading"; String source_sensor "m_heading"; String units "rad"; } measured_iridium_call_num { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 438.0, 462.0; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_iridium_call_num"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_iridium_call_num"; String source_sensor "m_iridium_call_num"; String units "nodim"; } measured_iridium_dialed_num { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 2323.0, 2347.0; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_iridium_dialed_num"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_iridium_dialed_num"; String source_sensor "m_iridium_dialed_num"; String units "nodim"; } measured_leakdetect_voltage { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 2.48211, 2.49216; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_leakdetect_voltage"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_leakdetect_voltage"; String source_sensor "m_leakdetect_voltage"; String units "volts"; } measured_leakdetect_voltage_forward { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 2.48437, 2.49466; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_leakdetect_voltage_forward"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_leakdetect_voltage_forward"; String source_sensor "m_leakdetect_voltage_forward"; String units "volts"; } measured_leakdetect_voltage_science { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 2.48458, 2.49447; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_leakdetect_voltage_science"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_leakdetect_voltage_science"; String source_sensor "m_leakdetect_voltage_science"; String units "volts"; } measured_pitch { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -0.659734, 0.729548; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_pitch"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_pitch"; String source_sensor "m_pitch"; String type "f4"; String units "rad"; } measured_present_time { UInt32 _ChunkSizes 108; Float64 actual_range 1.734532890069e+9, 1.734889882034e+9; String axis "T"; Int32 bytes 8; String calendar "gregorian"; String comment "Native glider sensor name"; String ioos_category "Time"; String long_name "m_present_time"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_present_time"; String source_sensor "m_present_time"; String standard_name "time"; String time_origin "01-JAN-1970 00:00:00"; String units "seconds since 1970-01-01T00:00:00Z"; Float64 valid_max 2.147483647e+9; Float64 valid_min 0.0; } measured_pressure { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -0.13608, 5.01565; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_pressure"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_pressure"; String source_sensor "m_pressure"; String units "bar"; } measured_raw_altitude { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 3.13651, 110.0; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_raw_altitude"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_raw_altitude"; String source_sensor "m_raw_altitude"; String units "m"; } measured_roll { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -0.0261799, 0.0733038; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_roll"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_roll"; String source_sensor "m_roll"; String type "f4"; String units "rad"; } measured_tot_num_inflections { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 1982.0, 3271.0; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_tot_num_inflections"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_tot_num_inflections"; String source_sensor "m_tot_num_inflections"; String units "nodim"; } measured_vacuum { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 6.46847, 9.017; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_vacuum"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_vacuum"; String source_sensor "m_vacuum"; String units "inHg"; } measured_veh_temp { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 10.3041, 14.1214; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_veh_temp"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_veh_temp"; String source_sensor "m_veh_temp"; String units "c"; } measured_water_depth { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -1.0, 53.6551; String ancillary_variables "instrument_ctd"; Int32 bytes 4; String comment "CTD depth plus altitude off the bottom"; String instrument "instrument_ctd"; String ioos_category "Other"; String long_name "m_water_depth"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_water_depth"; String source_sensor "m_water_depth"; String standard_name "sea_floor_depth_below_sea_surface"; String type "f4"; String units "m"; } measured_water_vx { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -0.175994, 0.00318249; String ancillary_variables "instrument_ctd"; Int32 bytes 4; String comment "Native glider sensor name"; String instrument "instrument_ctd"; String ioos_category "Other"; String long_name "m_water_vx"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_water_vx"; String source_sensor "m_water_vx"; String units "m/s"; } measured_water_vy { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -0.0897529, 0.103668; String ancillary_variables "instrument_ctd"; Int32 bytes 4; String comment "Native glider sensor name"; String instrument "instrument_ctd"; String ioos_category "Other"; String long_name "m_water_vy"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_water_vy"; String source_sensor "m_water_vy"; String units "m/s"; } measured_x_lmc { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -9890.05, 5336.26; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_x_lmc"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_x_lmc"; String source_sensor "m_x_lmc"; String units "m"; } measured_y_lmc { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -37360.4, -151.763; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "m_y_lmc"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "m_y_lmc"; String source_sensor "m_y_lmc"; String units "m"; } platform_meta { Byte _FillValue 127; String _Unsigned "false"; String depth_rating "100m"; String description "A long-range autonomous underwater vehicle (AUV) based on buoyancy. The G3S utilises the same features as the G3 glider but uses a new STM32 Processor. This replaces the Persistor processor used on the G3 glider in the Science and Flight Bays. The G3S is used for remote water column sampling. It uses hydraulic buoyancy change to alter the vehicle density in relation to the surrounding water thereby causing the vehicle to either float or sink. Given an appropriate dive or climb angle, the wings and body lift and convert some of this vertical motion into a forward saw tooth horizontal motion. Periodically, the glider surfaces and calls via Iridium Satellite Phone (anywhere in world) or Free Wave RF Modem (line of sight) in to Dockserver (auto attendant computer) to relay navigational fix, data and receive further instructions for command and control. The glider is capable of storm sampling and can be flown in a coordinated fleet. It is 1.5 m in length, has a hull diameter of 22 cm and mass of 55-70 kgs (dependent upon configuration). It has an exchangeable payload (capacity up to 6 L) which is capable of housing a variety of environmental sensors such as nitrate and oxygen. It uses lithium or alkaline batteries. It has a deployment range of 350-13000 km (dependent upon configuration), a deployment length of 15 days to 18 months (dependent upon configuration) and an operating depth range of 4-1000m. Navigation is via GPS waypoints, a pressure and altimeter sensor. Maximum speed is 0.35 m/s (0.68 knot) with the buoyancy engine and an average up to 0.5 m/s (1 knots) with full drive. The thruster provides speeds up to 1 m/s (2 knots). It transmits via RF modem, Iridium (RUDICS), ARGOS or acoustic modem. The new STM32L4 CPU processor utilises OpenRTOS running up to 120 MHz, with 8 Mbytes RAM and 32 Mbytes of flash memory."; String id "unit_1190"; String instruments "instrument_rbrctd, instrument_hydrophone, instrument_vmt"; String ioos_category "Identifier"; String long_name "Platform Metadata"; String maker "Teledyne Webb Research"; String maker_vocabulary "https://vocab.nerc.ac.uk/collection/L35/current/MAN0020/,https://vocab.nerc.ac.uk/collection/B75/current/ORG01077/"; String model "Teledyne Webb Research Slocum G3S glider"; String model_vocabulary "https://vocab.nerc.ac.uk/collection/B76/current/B7600029/"; String os_version "11.01"; String owner "JASCO Applied Sciences"; Int32 processing_level 2; String serial_number "1190"; String type "sub-surface gliders"; String type_vocabulary "https://vocab.nerc.ac.uk/collection/L06/current/27/"; String units "1"; String wmo_id "8901118"; String wmo_platform_code "8901118"; } potential_temperature { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 8.446037, 10.99381; String ancillary_variables "instrument_ctd"; String ioos_category "Other"; String long_name "Potential Temperature"; String observation_type "calculated"; Int32 processing_level 2; String standard_name "sea_water_potential_temperature"; String units "degree_C"; Float32 valid_max 0.0; Float32 valid_min 40.0; } precise_lat { UInt32 _ChunkSizes 108; Float64 _FillValue 9.969209968386869e+36; Float64 actual_range 40.94611341634242, 41.33081889622242; String axis "Y"; Int32 bytes 8; Float64 colorBarMaximum 90.0; Float64 colorBarMinimum -90.0; String comment "Interpolated latitude at each point in the time-series"; String coordinate_reference_frame "urn:ogc:crs:EPSG::4326"; String ioos_category "Location"; String long_name "Precise Latitude"; String observation_type "calculated"; String platform "platform"; Int32 precision 5; Int32 processing_level 2; String reference "WGS84"; String source_sensor "m_gps_lat"; String standard_name "latitude"; String units "degree_north"; Float64 valid_max 90.0; Float64 valid_min -90.0; } precise_lon { UInt32 _ChunkSizes 108; Float64 _FillValue 9.969209968386869e+36; Float64 actual_range -71.39938449496238, -71.24169304216694; String axis "X"; Int32 bytes 8; Float64 colorBarMaximum 180.0; Float64 colorBarMinimum -180.0; String comment "Interpolated longitude at each point in the time-series"; String coordinate_reference_frame "urn:ogc:crs:EPSG::4326"; String ioos_category "Location"; String long_name "Precise Longitude"; String observation_type "calculated"; String platform "platform"; Int32 precision 5; Int32 processing_level 2; String reference "WGS84"; String source_sensor "m_gps_lon"; String standard_name "longitude"; String units "degree_east"; Float64 valid_max 180.0; Float64 valid_min -180.0; } precise_time { UInt32 _ChunkSizes 108; Float64 actual_range 1.734532890069e+9, 1.734889882034e+9; String axis "T"; Int32 bytes 8; String calendar "gregorian"; String comment "Timestamp at each point in the time-series"; String ioos_category "Time"; String long_name "Precise Time"; String observation_type "measured"; Int32 processing_level 2; String source_sensor "m_present_time"; String standard_name "time"; String time_origin "01-JAN-1970 00:00:00"; String units "seconds since 1970-01-01T00:00:00Z"; Float64 valid_max 2.147483647e+9; Float64 valid_min 0.0; } pressure { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 0.2087, 50.9888; String ancillary_variables "instrument_ctd qartod_pressure_flat_line_flag qartod_pressure_gross_range_flag qartod_pressure_rate_of_change_flag qartod_pressure_spike_flag qartod_pressure_primary_flag"; String axis "Z"; Int32 bytes 4; Float64 colorBarMaximum 2000.0; Float64 colorBarMinimum 0.0; String comment "Converted from bar to decibar"; String instrument "instrument_ctd"; String ioos_category "Pressure"; String long_name "Sea Water Pressure"; String observation_type "measured"; String platform "platform"; String positive "down"; Int32 precision 2; Int32 processing_level 2; String reference_datum "sea-surface"; String sensor "sci_water_pressure"; String source_sensor "sci_water_pressure"; String standard_name "sea_water_pressure"; String units "decibar"; Float32 valid_max 2000.0; Float32 valid_min 0.0; } qartod_conductivity_flat_line_flag { UInt32 _ChunkSizes 108; Byte _FillValue 2; String _Unsigned "false"; Byte actual_range 1, 9; String dac_comment "ioos_qartod"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Other"; String long_name "QARTOD Flat Line Test for sea_water_electrical_conductivity"; String qartod_config "{tolerance: 0.001, suspect_threshold: 3000, fail_threshold: 5000}"; String qartod_package "https://github.com/ioos/ioos_qc/blob/main/ioos_qc/qartod.py"; String qartod_test "flat_line_test"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf "; String standard_name "flat_line_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_conductivity_gross_range_flag { UInt32 _ChunkSizes 108; Byte _FillValue 2; String _Unsigned "false"; Byte actual_range 1, 9; String dac_comment "ioos_qartod"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Other"; String long_name "QARTOD Gross Range Test for sea_water_electrical_conductivity"; String qartod_config "{suspect_span: [0, 6], fail_span: [0, 9]}"; String qartod_package "https://github.com/ioos/ioos_qc/blob/main/ioos_qc/qartod.py"; String qartod_test "gross_range_test"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf "; String standard_name "gross_range_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_conductivity_primary_flag { UInt32 _ChunkSizes 108; Byte _FillValue 2; String _Unsigned "false"; Byte actual_range 1, 9; String dac_comment "ioos_qartod"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Other"; String long_name "QARTOD Primary Flag for sea_water_electrical_conductivity"; String qartod_config "{gross_range_test: {'suspect_span': [0, 6], 'fail_span': [0, 9]}, spike_test: {'suspect_threshold': 0.0011843680404126644, 'fail_threshold': 0.002368736080825329}, rate_of_change_test: {'threshold': 0.0011843680404126644}, flat_line_test: {'tolerance': 0.001, 'suspect_threshold': 3000, 'fail_threshold': 5000}}"; String qartod_package "https://github.com/ioos/ioos_qc/blob/main/ioos_qc/qartod.py"; String qartod_test "qc_rollup"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf "; String standard_name "aggregate_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_conductivity_rate_of_change_flag { UInt32 _ChunkSizes 108; Byte _FillValue 2; String _Unsigned "false"; Byte actual_range 1, 9; String dac_comment "ioos_qartod"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Other"; String long_name "QARTOD Rate of Change Test for sea_water_electrical_conductivity"; String qartod_config "{threshold: 0.0011843680404126644}"; String qartod_package "https://github.com/ioos/ioos_qc/blob/main/ioos_qc/qartod.py"; String qartod_test "rate_of_change_test"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf "; String standard_name "rate_of_change_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_conductivity_spike_flag { UInt32 _ChunkSizes 108; Byte _FillValue 2; String _Unsigned "false"; Byte actual_range 1, 9; String dac_comment "ioos_qartod"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Other"; String long_name "QARTOD Spike Test for sea_water_electrical_conductivity"; String qartod_config "{suspect_threshold: 0.0011843680404126644, fail_threshold: 0.002368736080825329}"; String qartod_package "https://github.com/ioos/ioos_qc/blob/main/ioos_qc/qartod.py"; String qartod_test "spike_test"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf "; String standard_name "spike_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_density_flat_line_flag { Byte _FillValue 2; String _Unsigned "false"; String dac_comment "QARTOD TESTS NOT RUN"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Quality"; String long_name "QARTOD Flat Line Test for sea_water_density"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf"; String standard_name "flat_line_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_density_gross_range_flag { Byte _FillValue 2; String _Unsigned "false"; String dac_comment "QARTOD TESTS NOT RUN"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Quality"; String long_name "QARTOD Flat Line Test for sea_water_density"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf"; String standard_name "gross_range_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_density_primary_flag { Byte _FillValue 2; String _Unsigned "false"; String dac_comment "QARTOD TESTS NOT RUN"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Quality"; String long_name "QARTOD Flat Line Test for sea_water_density"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf"; String standard_name "aggregate_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_density_rate_of_change_flag { Byte _FillValue 2; String _Unsigned "false"; String dac_comment "QARTOD TESTS NOT RUN"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Quality"; String long_name "QARTOD Flat Line Test for sea_water_density"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf"; String standard_name "rate_of_change_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_density_spike_flag { Byte _FillValue 2; String _Unsigned "false"; String dac_comment "QARTOD TESTS NOT RUN"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Quality"; String long_name "QARTOD Flat Line Test for sea_water_density"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf"; String standard_name "spike_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_location_test_flag { Byte _FillValue 2; String _Unsigned "false"; Byte actual_range 1, 1; String dac_comment "The FAIL flag is applied if the profile_(lat,lon) value exceeds 3 standard deviations above the mean of the average lat/lon arrays"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Other"; String long_name "QARTOD Location Flag for the profile_(lat,lon) variables"; String qartod_package "The GDAC location test does not use the algorithm from https://github.com/ioos/ioos_qc/blob/main/ioos_qc/qartod.py (location_test) but instead relies on the statistical median of the lat/lon arrays"; String references "The GDAC uses a modified version of the location test described in https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf"; String standard_name "location_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_pressure_flat_line_flag { UInt32 _ChunkSizes 108; Byte _FillValue 2; String _Unsigned "false"; Byte actual_range 1, 9; String dac_comment "ioos_qartod"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Other"; String long_name "QARTOD Flat Line Test for sea_water_pressure"; String qartod_config "{tolerance: 0.001, suspect_threshold: 3000, fail_threshold: 5000}"; String qartod_package "https://github.com/ioos/ioos_qc/blob/main/ioos_qc/qartod.py"; String qartod_test "flat_line_test"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf "; String standard_name "flat_line_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_pressure_gross_range_flag { UInt32 _ChunkSizes 108; Byte _FillValue 2; String _Unsigned "false"; Byte actual_range 1, 9; String dac_comment "ioos_qartod"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Other"; String long_name "QARTOD Gross Range Test for sea_water_pressure"; String qartod_config "{suspect_span: [0, 1000], fail_span: [0, 6000]}"; String qartod_package "https://github.com/ioos/ioos_qc/blob/main/ioos_qc/qartod.py"; String qartod_test "gross_range_test"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf "; String standard_name "gross_range_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_pressure_primary_flag { UInt32 _ChunkSizes 108; Byte _FillValue 2; String _Unsigned "false"; Byte actual_range 1, 9; String dac_comment "ioos_qartod"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Other"; String long_name "QARTOD Primary Flag for sea_water_pressure"; String qartod_config "{gross_range_test: {'suspect_span': [0, 1000], 'fail_span': [0, 6000]}, spike_test: {'suspect_threshold': 11.913576126098633, 'fail_threshold': 23.827152252197266}, rate_of_change_test: {'threshold': 11.913576126098633}, flat_line_test: {'tolerance': 0.001, 'suspect_threshold': 3000, 'fail_threshold': 5000}}"; String qartod_package "https://github.com/ioos/ioos_qc/blob/main/ioos_qc/qartod.py"; String qartod_test "qc_rollup"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf "; String standard_name "aggregate_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_pressure_rate_of_change_flag { UInt32 _ChunkSizes 108; Byte _FillValue 2; String _Unsigned "false"; Byte actual_range 1, 9; String dac_comment "ioos_qartod"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Other"; String long_name "QARTOD Rate of Change Test for sea_water_pressure"; String qartod_config "{threshold: 11.913576126098633}"; String qartod_package "https://github.com/ioos/ioos_qc/blob/main/ioos_qc/qartod.py"; String qartod_test "rate_of_change_test"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf "; String standard_name "rate_of_change_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_pressure_spike_flag { UInt32 _ChunkSizes 108; Byte _FillValue 2; String _Unsigned "false"; Byte actual_range 1, 9; String dac_comment "ioos_qartod"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Other"; String long_name "QARTOD Spike Test for sea_water_pressure"; String qartod_config "{suspect_threshold: 11.913576126098633, fail_threshold: 23.827152252197266}"; String qartod_package "https://github.com/ioos/ioos_qc/blob/main/ioos_qc/qartod.py"; String qartod_test "spike_test"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf "; String standard_name "spike_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_salinity_flat_line_flag { Byte _FillValue 2; String _Unsigned "false"; String dac_comment "QARTOD TESTS NOT RUN"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Quality"; String long_name "QARTOD Flat Line Test for sea_water_practical_salinity"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf"; String standard_name "flat_line_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_salinity_gross_range_flag { Byte _FillValue 2; String _Unsigned "false"; String dac_comment "QARTOD TESTS NOT RUN"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Quality"; String long_name "QARTOD Flat Line Test for sea_water_practical_salinity"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf"; String standard_name "gross_range_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_salinity_primary_flag { Byte _FillValue 2; String _Unsigned "false"; String dac_comment "QARTOD TESTS NOT RUN"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Quality"; String long_name "QARTOD Flat Line Test for sea_water_practical_salinity"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf"; String standard_name "aggregate_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_salinity_rate_of_change_flag { Byte _FillValue 2; String _Unsigned "false"; String dac_comment "QARTOD TESTS NOT RUN"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Quality"; String long_name "QARTOD Flat Line Test for sea_water_practical_salinity"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf"; String standard_name "rate_of_change_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_salinity_spike_flag { Byte _FillValue 2; String _Unsigned "false"; String dac_comment "QARTOD TESTS NOT RUN"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Quality"; String long_name "QARTOD Flat Line Test for sea_water_practical_salinity"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf"; String standard_name "spike_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_temperature_flat_line_flag { UInt32 _ChunkSizes 108; Byte _FillValue 2; String _Unsigned "false"; Byte actual_range 1, 9; String dac_comment "ioos_qartod"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Other"; String long_name "QARTOD Flat Line Test for sea_water_temperature"; String qartod_config "{tolerance: 0.001, suspect_threshold: 3000, fail_threshold: 5000}"; String qartod_package "https://github.com/ioos/ioos_qc/blob/main/ioos_qc/qartod.py"; String qartod_test "flat_line_test"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf "; String standard_name "flat_line_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_temperature_gross_range_flag { UInt32 _ChunkSizes 108; Byte _FillValue 2; String _Unsigned "false"; Byte actual_range 1, 9; String dac_comment "ioos_qartod"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Other"; String long_name "QARTOD Gross Range Test for sea_water_temperature"; String qartod_config "{suspect_span: [0, 35], fail_span: [-2, 40]}"; String qartod_package "https://github.com/ioos/ioos_qc/blob/main/ioos_qc/qartod.py"; String qartod_test "gross_range_test"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf "; String standard_name "gross_range_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_temperature_primary_flag { UInt32 _ChunkSizes 108; Byte _FillValue 2; String _Unsigned "false"; Byte actual_range 1, 9; String dac_comment "ioos_qartod"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Other"; String long_name "QARTOD Primary Flag for sea_water_temperature"; String qartod_config "{gross_range_test: {'suspect_span': [0, 35], 'fail_span': [-2, 40]}, spike_test: {'suspect_threshold': 0.0051717087626457214, 'fail_threshold': 0.010343417525291443}, rate_of_change_test: {'threshold': 0.0051717087626457214}, flat_line_test: {'tolerance': 0.001, 'suspect_threshold': 3000, 'fail_threshold': 5000}}"; String qartod_package "https://github.com/ioos/ioos_qc/blob/main/ioos_qc/qartod.py"; String qartod_test "qc_rollup"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf "; String standard_name "aggregate_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_temperature_rate_of_change_flag { UInt32 _ChunkSizes 108; Byte _FillValue 2; String _Unsigned "false"; Byte actual_range 1, 9; String dac_comment "ioos_qartod"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Other"; String long_name "QARTOD Rate of Change Test for sea_water_temperature"; String qartod_config "{threshold: 0.0051717087626457214}"; String qartod_package "https://github.com/ioos/ioos_qc/blob/main/ioos_qc/qartod.py"; String qartod_test "rate_of_change_test"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf "; String standard_name "rate_of_change_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } qartod_temperature_spike_flag { UInt32 _ChunkSizes 108; Byte _FillValue 2; String _Unsigned "false"; Byte actual_range 1, 9; String dac_comment "ioos_qartod"; String flag_meanings "PASS NOT_EVALUATED SUSPECT FAIL MISSING"; Byte flag_values 1, 2, 3, 4, 9; String ioos_category "Other"; String long_name "QARTOD Spike Test for sea_water_temperature"; String qartod_config "{suspect_threshold: 0.0051717087626457214, fail_threshold: 0.010343417525291443}"; String qartod_package "https://github.com/ioos/ioos_qc/blob/main/ioos_qc/qartod.py"; String qartod_test "spike_test"; String references "https://gliders.ioos.us/files/Manual-for-QC-of-Glider-Data_05_09_16.pdf "; String standard_name "spike_test_quality_flag"; String units "1"; Byte valid_max 9; Byte valid_min 1; } salinity { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 31.87992, 33.02892; String ancillary_variables "instrument_ctd"; Float64 colorBarMaximum 37.0; Float64 colorBarMinimum 30.0; String instrument "instrument_ctd"; String ioos_category "Salinity"; String long_name "Sea Water Practical Salinity"; String observation_type "calculated"; Int32 processing_level 2; String standard_name "sea_water_practical_salinity"; String units "1"; Float32 valid_max 0.0; Float32 valid_min 40.0; } sci_obsvr_file_offset { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 0.0, 5490.0; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "sci_obsvr_file_offset"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "sci_obsvr_file_offset"; String source_sensor "sci_obsvr_file_offset"; String units "nodim"; } sci_obsvr_processing_mode { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 0.0, 1.0; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "sci_obsvr_processing_mode"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "sci_obsvr_processing_mode"; String source_sensor "sci_obsvr_processing_mode"; String units "nodim"; } sci_obsvr_storage_used { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 0.0, 0.2; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "sci_obsvr_storage_used"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "sci_obsvr_storage_used"; String source_sensor "sci_obsvr_storage_used"; String units "%"; } science_timestamp { UInt32 _ChunkSizes 108; Float64 actual_range 1.734532890069e+9, 1.734889882034e+9; String axis "T"; Int32 bytes 8; String calendar "gregorian"; String comment "Science controller timestamp"; String ioos_category "Time"; String long_name "sci_m_present_time"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "sci_m_present_time"; String source_sensor "sci_m_present_time"; String standard_name "time"; String time_origin "01-JAN-1970 00:00:00"; String units "seconds since 1970-01-01T00:00:00Z"; Float64 valid_max 2.147483647e+9; Float64 valid_min 0.0; } sound_speed { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 1480.438, 1491.67; String ancillary_variables "instrument_ctd"; String instrument "instrument_ctd"; String ioos_category "Other"; String long_name "Sound Velocity"; String observation_type "calculated"; Int32 processing_level 2; String standard_name "speed_of_sound_in_sea_water"; String units "m s-1"; Float32 valid_max 1460.0; Float32 valid_min 1560.0; } source_file { UInt32 _ChunkSizes 37; String all_sensors "0"; String comment "Name of the source data file and associated file metadata"; String dbd_label "DBD_ASC(dinkum_binary_data_ascii)file"; String encoding_ver "2"; Int32 file_size_bytes 362746; String filename "unit_1190-2024-353-0-46"; String filename_extension "sbd"; String filename_label "unit_1190-2024-353-0-46-sbd(01590046)"; String fileopen_time "Sun_Dec_22_15:27:31_2024"; String ioos_category "Other"; String long_name "Source data file"; String mission_name "100_n.mi"; String num_ascii_tags "14"; String num_label_lines "3"; String num_segments "1"; String segment_filename_0 "unit_1190-2024-353-0-46"; String sensors_per_cycle "66"; String source_file "/home/coolgroup/slocum/deployments/2024/unit_1190-20241218T1433/data/in/ascii/queue/unit_1190_2024_353_0_46_sbd.dat"; String the8x3_filename "01590046"; } temperature { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 8.4466, 10.9975; String ancillary_variables "instrument_ctd qartod_temperature_flat_line_flag qartod_temperature_gross_range_flag qartod_temperature_rate_of_change_flag qartod_temperature_spike_flag qartod_temperature_primary_flag"; Int32 bytes 4; Float64 colorBarMaximum 32.0; Float64 colorBarMinimum 0.0; String comment "Native glider sensor name"; String instrument "instrument_ctd"; String ioos_category "Temperature"; String long_name "Sea Water Temperature"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "sci_water_temp"; String source_sensor "sci_water_temp"; String standard_name "sea_water_temperature"; String units "degrees_C"; Float32 valid_max 40.0; Float32 valid_min -5.0; } time_uv { String comment "The depth-averaged current is an estimate of the net current measured while the glider is underwater. The value is calculated over the entire underwater segment, which may consist of 1 or more dives."; String ioos_category "Time"; String long_name "Depth-averaged Time"; String observation_type "calculated"; String platform "platform"; Int32 processing_level 2; String standard_name "time"; String time_origin "01-JAN-1970 00:00:00"; String units "seconds since 1970-01-01T00:00:00Z"; Float64 valid_max 2.147483647e+9; Float64 valid_min 0.0; } u { Float64 _FillValue 9.96921e+36; String ancillary_variables "instrument_ctd"; Float64 colorBarMaximum 0.5; Float64 colorBarMinimum -0.5; String comment "The depth-averaged current is an estimate of the net current measured while the glider is underwater. The value is calculated over the entire underwater segment, which may consist of 1 or more dives."; String coordinates "lon_uv lat_uv time_uv"; String instrument "instrument_ctd"; String ioos_category "Currents"; String long_name "Depth-averaged Eastward Sea Water Velocity"; String observation_type "calculated"; String platform "platform"; Int32 processing_level 2; String sensor "m_final_water_vx"; String standard_name "eastward_sea_water_velocity"; String type "f4"; String units "m s-1"; Float64 valid_max 5.0; Float64 valid_min -5.0; } u_hd_fin_ap_dgain { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -4.0, 6.0; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "u_hd_fin_ap_dgain"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "u_hd_fin_ap_dgain"; String source_sensor "u_hd_fin_ap_dgain"; String units "sec/rad"; } u_hd_fin_ap_gain { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 1.5, 1.5; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "u_hd_fin_ap_gain"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "u_hd_fin_ap_gain"; String source_sensor "u_hd_fin_ap_gain"; String units "1/rad"; } u_hd_fin_ap_igain { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 0.015, 0.02; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "u_hd_fin_ap_igain"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "u_hd_fin_ap_igain"; String source_sensor "u_hd_fin_ap_igain"; String units "1/rad-sec"; } u_heading_deadband { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 0.087, 0.087; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "u_heading_deadband"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "u_heading_deadband"; String source_sensor "u_heading_deadband"; String units "rad"; } v { Float64 _FillValue 9.96921e+36; String ancillary_variables "instrument_ctd"; Float64 colorBarMaximum 0.5; Float64 colorBarMinimum -0.5; String comment "The depth-averaged current is an estimate of the net current measured while the glider is underwater. The value is calculated over the entire underwater segment, which may consist of 1 or more dives."; String coordinates "lon_uv lat_uv time_uv"; String instrument "instrument_ctd"; String ioos_category "Currents"; String long_name "Depth-averaged Northward Sea Water Velocity"; String observation_type "calculated"; String platform "platform"; Int32 processing_level 2; String sensor "m_final_water_vy"; String standard_name "northward_sea_water_velocity"; String type "f4"; String units "m s-1"; Float64 valid_max 5.0; Float64 valid_min -5.0; } x_current_target_altitude { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range -1.0, 5.0; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "x_current_target_altitude"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "x_current_target_altitude"; String source_sensor "x_current_target_altitude"; String units "m"; } x_fin_max { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 0.44, 0.44; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "x_fin_max"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "x_fin_max"; String source_sensor "x_fin_max"; String units "rad"; } x_low_power_status { UInt32 _ChunkSizes 108; Float32 _FillValue 9.96921e+36; Float32 actual_range 1.0, 1.0; Int32 bytes 4; String comment "Native glider sensor name"; String ioos_category "Other"; String long_name "x_low_power_status"; String observation_type "measured"; String platform "platform"; Int32 processing_level 2; String sensor "x_low_power_status"; String source_sensor "x_low_power_status"; String units "nodim"; } } NC_GLOBAL { String _NCProperties "version=1|netcdflibversion=4.6.1|hdf5libversion=1.10.3"; String acknowledgment "This deployment is supported by Ørsted Revolution Wind and Ørsted Sunrise Wind."; String cdm_data_type "TrajectoryProfile"; String cdm_profile_variables "time_uv,lat_uv,lon_uv,u,v,profile_id,time,latitude,longitude"; String cdm_trajectory_variables "trajectory,wmo_id"; String comment "Deployed by Brian Buckingham, Jacob Gladfelter, and Captain Michael Marchetti aboard FV Mister G out of Point Judith, RI."; String contributor_name "Josh Kohut, Grace Saba, Kaycee Coleman, Scott Carr, Katie Kowarski, David Aragon, Nicole Waite, Brian Buckingham, Jessica Leonard, John Kerfoot, Lori Garzio, Laura Nazzaro"; String contributor_role "Principal Investigator, Principal Investigator, Project Management, JASCO Principal Investigator, JASCO Project Manager, Glider Pilot, Glider Pilot, Glider Pilot, Glider Pilot, Data Management, Data Management, Data Management"; String Conventions "Unidata Dataset Discovery v1.0, COARDS, CF-1.6"; String creator_email "gliderdata@marine.rutgers.edu"; String creator_institution "Rutgers University"; String creator_name "Rutgers Center for Ocean Observing Leadership Glider Data Team"; String creator_type "group"; String creator_url "https://rucool.marine.rutgers.edu"; String dac_qc_comment "(unit_1190_20241222T174839Z_rt.nc: Skipped QC: density is an array of nansSkipped QC: salinity is an array of nans) "; String date_created "2024-12-22T20:00:19Z"; String date_issued "2024-12-22T20:00:19Z"; String date_modified "2024-12-22T20:00:19Z"; String deployment "unit_1190-20241218T1433"; Float64 Easternmost_Easting -71.2417583763925; String featureType "TrajectoryProfile"; String geospatial_bounds "POLYGON ((41.01333108142191 -71.24253676224151, 41.01333108142191 -71.24244523716995, 41.01234259888479 -71.24244523716995, 41.01234259888479 -71.24253676224151, 41.01333108142191 -71.24253676224151))"; String geospatial_bounds_crs "EPSG:4326"; String geospatial_bounds_vertical_crs "EPSG:5831"; Float64 geospatial_lat_max 41.330702744568825; Float64 geospatial_lat_min 40.946448329618335; String geospatial_lat_resolution "0.00001 degree"; String geospatial_lat_units "degrees_north"; Float64 geospatial_lon_max -71.2417583763925; Float64 geospatial_lon_min -71.39934044337228; String geospatial_lon_resolution "0.00001 degree"; String geospatial_lon_units "degrees_east"; Float64 geospatial_vertical_max 50.58749; Float64 geospatial_vertical_min 0.2070765; String geospatial_vertical_positive "down"; Int32 geospatial_vertical_resolution 0; String geospatial_vertical_units "m"; String gts_ingest "True"; String history "2024-12-22T20:00:19Z: /tmp/tmp5hszyw03/unit_1190_20241222T174839Z_rtmyq6mi4j.nc created 2024-12-22T20:00:19Z: /home/kerfoot/code/gncutils/scripts/dba_to_profile_nc.py /home/coolgroup/slocum/deployments/2024/unit_1190-20241218T1433/data/in/ascii/queue/unit_1190_2024_353_0_46_sbd.dat 2024-12-22T20:50:29Z (local files) 2024-12-22T20:50:29Z http://gliders.ioos.us/tabledap/unit_1190-20241218T1433.das"; String id "unit_1190-20241218T1433"; String infoUrl "https://gliders.ioos.us/erddap/"; String institution "Rutgers University"; String instrument "In Situ/Laboratory Instruments > Profilers/Sounders > CTD"; String instrument_vocabulary "NASA/GCMD Instrument Keywords Version 8.5"; String ioos_dac_checksum "bb99cd873ef214c3e07924fcad6f8c6f"; String ioos_dac_completed "False"; String keywords "AUVS > Autonomous Underwater Vehicles, Earth Science > Oceans > Ocean Pressure > Water Pressure, Earth Science > Oceans > Ocean Temperature > Water Temperature, Earth Science > Oceans > Salinity/Density > Conductivity, Earth Science > Oceans > Salinity/Density > Density, Earth Science > Oceans > Salinity/Density > Salinity, glider, In Situ Ocean-based platforms > Seaglider, Slocum, Spray, trajectory, underwater glider, water, wmo"; String keywords_vocabulary "GCMD Science Keywords"; String license "This data may be redistributed and used without restriction. Data provided as is with no expressed or implied assurance of quality assurance or quality control"; String Metadata_Conventions "Unidata Dataset Discovery v1.0, COARDS, CF-1.6"; String naming_authority "edu.rutgers.rucool"; String ncei_template_version "NCEI_NetCDF_Trajectory_Template_v2.0"; Float64 Northernmost_Northing 41.330702744568825; String platform "In Situ Ocean-based Platforms > AUVS > Autonomous Underwater Vehicles"; String platform_type "Slocum Glider"; String platform_vocabulary "NASA/GCMD Platforms Keywords Version 8.5"; String processing_level "Raw Slocum glider time-series dataset from the native data file format. No quality control provided."; String product_version "1.0"; String program "Ørsted Cod Monitoring"; String project "Ørsted Cod Monitoring"; String publisher_email "gliderdata@marine.rutgers.edu"; String publisher_institution "Rutgers University"; String references "https://rucool.marine.rutgers.edu/data/underwater-gliders/"; String sea_name "Mid-Atlantic Bight"; String source "Observational Slocum glider data from source dba file unit_1190-2024-353-0-46-sbd(01590046)"; String sourceUrl "(local files)"; Float64 Southernmost_Northing 40.946448329618335; String standard_name_vocabulary "CF Standard Name Table v27"; String subsetVariables "wmo_id,trajectory,profile_id,time,latitude,longitude"; String summary "This project is using a JASCO OceanObserver Snout hydrophone attached to a glider to monitor and understand the spatial and temporal distribution of spawning cod aggregations in the Revolution Wind and Sunrise Wind offshore wind lease areas during the spawning season. These glider-based observations are occurring during construction activities that may include seabed preparation along cable routes and placement of scour protection at the foundation locations. The glider is also equipped with a CTD and a VEMCO receiver. This is the second of four sequential deployments planned to monitor the wind lease area for five months during cod spawning season, November through March."; String time_coverage_duration "PT05M25S"; String time_coverage_end "2024-12-22T17:48:43Z"; String time_coverage_resolution "PT03S"; String time_coverage_start "2024-12-18T14:42:47Z"; String title "unit_1190-20241218T1433"; String uuid "4f20197f-1bd4-4bdd-b1c1-fec44b67d350"; Float64 Westernmost_Easting -71.39934044337228; String wmo_platform_code "8901118"; } }
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.