Attributes { time { String standard_name "time"; String long_name "Time (UTC)"; String units "seconds since 2018-02-28 00:23:03"; String calendar "proleptic_gregorian"; } depth { Float64 _FillValue NaN; String long_name "Depth"; String standard_name "depth"; String units "m"; String comment "mDepth from navigation.nc. mDepth from navigation.nc mean sampled at 1S intervals following 3 point median filter."; Float64 instrument_sample_rate_hz 5.000000000000000; } latitude { Float64 _FillValue NaN; String long_name "Latitude"; String standard_name "latitude"; String units "degrees_north"; String comment "Dead reckoned latitude nudged to GPS positions. Variable nudged_latitude from dorado_2018.059.00_cal.nc file linearly interpolated onto navigation time values. Variable navigation_latitude from dorado_2018.059.00_align.nc median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 5.000000000000000; } longitude { Float64 _FillValue NaN; String long_name "Longitude"; String standard_name "longitude"; String units "degrees_east"; String comment "Dead reckoned longitude nudged to GPS positions. Variable nudged_longitude from dorado_2018.059.00_cal.nc file linearly interpolated onto navigation time values. Variable navigation_longitude from dorado_2018.059.00_align.nc median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 5.000000000000000; } navigation_roll { Float64 _FillValue NaN; String long_name "Vehicle roll"; String standard_name "platform_roll_angle"; String units "degree"; String comment "mPhi from navigation.nc median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 5.000000000000000; String coordinates "time depth latitude longitude"; } navigation_pitch { Float64 _FillValue NaN; String long_name "Vehicle pitch"; String standard_name "platform_pitch_angle"; String units "degree"; String comment "mTheta from navigation.nc median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 5.000000000000000; String coordinates "time depth latitude longitude"; } navigation_yaw { Float64 _FillValue NaN; String long_name "Vehicle yaw"; String standard_name "platform_yaw_angle"; String units "degree"; String comment "mPsi from navigation.nc median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 5.000000000000000; String coordinates "time depth latitude longitude"; } navigation_mWaterSpeed { Float64 _FillValue NaN; String long_name "Current speed based upon DVL data"; String standard_name "platform_speed_wrt_sea_water"; String units "m/s"; String comment "mWaterSpeed from navigation.nc median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 5.000000000000000; String coordinates "time depth latitude longitude"; } hs2_bb420 { Float64 _FillValue NaN; String long_name "Backscatter at 420 nm"; String units "m-1"; String comment "Computed by hs2_calc_bb() from data in hydroscatlog.nc median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.980000000000000; String coordinates "time depth latitude longitude"; } hs2_bb700 { Float64 _FillValue NaN; String long_name "Backscatter at 700 nm"; String units "m-1"; String comment "Computed by hs2_calc_bb() from data in hydroscatlog.nc median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.980000000000000; String coordinates "time depth latitude longitude"; } hs2_fl700 { Float64 _FillValue NaN; String long_name "Fluorescence at 700 nm"; String comment "Computed by hs2_calc_bb() from data in hydroscatlog.nc median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.980000000000000; String coordinates "time depth latitude longitude"; } ctd1_temperature { Float64 _FillValue NaN; String long_name "Temperature"; String standard_name "sea_water_temperature"; String units "degree_Celsius"; String comment "Derived from temp_frequency from ctdDriver.nc via calibration parms: {'t_coefs': 'A', 'c_coefs': 'A', 't_a': 0.00368121171, 't_b': 0.00060271694, 't_c': 1.60158734e-05, 't_d': 2.12362032e-06, 't_f0': 2793.191, 'c_a': 1.19623599e-05, 'c_b': 1.61326143, 'c_c': -10.6451798, 'c_d': -8.6053609e-05, 'c_m': 4.9, 'eps': -9.57e-08, 'SOc': 0.4794, 'BOc': 0.0, 'Voff': -0.54, 'TCor': -0.0002, 'PCor': 0.000135, 'ScaleFactor': 50.0, 'DarkCounts': 0.047} median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } ctd1_conductivity { Float64 _FillValue NaN; String long_name "Conductivity"; String standard_name "sea_water_conductivity"; String units "Siemens/meter"; String comment "Derived from cond_frequency from ctdDriver.nc via calibration parms: {'t_coefs': 'A', 'c_coefs': 'A', 't_a': 0.00368121171, 't_b': 0.00060271694, 't_c': 1.60158734e-05, 't_d': 2.12362032e-06, 't_f0': 2793.191, 'c_a': 1.19623599e-05, 'c_b': 1.61326143, 'c_c': -10.6451798, 'c_d': -8.6053609e-05, 'c_m': 4.9, 'eps': -9.57e-08, 'SOc': 0.4794, 'BOc': 0.0, 'Voff': -0.54, 'TCor': -0.0002, 'PCor': 0.000135, 'ScaleFactor': 50.0, 'DarkCounts': 0.047} median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } ctd1_salinity { Float64 _FillValue NaN; String long_name "Salinity"; String standard_name "sea_water_salinity"; String units ""; String comment "Derived from cond_frequency from ctdDriver.nc via calibration parms: {'t_coefs': 'A', 'c_coefs': 'A', 't_a': 0.00368121171, 't_b': 0.00060271694, 't_c': 1.60158734e-05, 't_d': 2.12362032e-06, 't_f0': 2793.191, 'c_a': 1.19623599e-05, 'c_b': 1.61326143, 'c_c': -10.6451798, 'c_d': -8.6053609e-05, 'c_m': 4.9, 'eps': -9.57e-08, 'SOc': 0.4794, 'BOc': 0.0, 'Voff': -0.54, 'TCor': -0.0002, 'PCor': 0.000135, 'ScaleFactor': 50.0, 'DarkCounts': 0.047} median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } ctd1_temperature_onboard { Float64 _FillValue NaN; String long_name "Temperature computed onboard the vehicle"; String units "degree_Celsius"; String comment "Temperature computed onboard the vehicle from calibration parameters installed on the vehicle at the time of deployment. median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } ctd1_conductivity_onboard { Float64 _FillValue NaN; String long_name "Conductivity computed onboard the vehicle"; String units "Siemens/meter"; String comment "Temperature computed onboard the vehicle from calibration parameters installed on the vehicle at the time of deployment. median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } ctd1_salinity_onboard { Float64 _FillValue NaN; String long_name "Salinity computed onboard the vehicle"; String units ""; String comment "Salinity computed onboard the vehicle from calibration parameters installed on the vehicle at the time of deployment. median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } ctd1_dissolvedO2 { Float64 _FillValue NaN; String long_name "Dissolved Oxygen sensor"; String units "Volts"; String comment "Analog Voltage Channel 6 - to be converted to umol/kg median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } ctd1_oxygen_mll { Float64 _FillValue NaN; String long_name "Dissolved Oxygen"; String units "ml/l"; String comment "... median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } ctd1_oxygen_umolkg { Float64 _FillValue NaN; String long_name "Dissolved Oxygen"; String units "umol/kg"; String comment "... median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } ctd1_flow1 { Float64 _FillValue NaN; String long_name "Flow sensor on ctd1"; String units "Volts"; String comment "flow1 from ctdDriver.nc median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } ctd2_temperature { Float64 _FillValue NaN; String long_name "Temperature"; String standard_name "sea_water_temperature"; String units "degree_Celsius"; String comment "Derived from temp_frequency from ctdDriver2.nc via calibration parms: {'t_coefs': 'A', 'c_coefs': 'A', 't_a': 0.00368121209, 't_b': 0.00060623048, 't_c': 1.69997484e-05, 't_d': 1.9027084e-06, 't_f0': 3021.866, 'c_a': 5.06773355e-07, 'c_b': 0.44274839, 'c_c': -4.15648471, 'c_d': -7.86233381e-05, 'c_m': 5.3, 'eps': -9.57e-08, 'SOc': 0.0, 'BOc': 0.0, 'Voff': 0.0, 'TCor': 0.0, 'PCor': 0.0} median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } ctd2_conductivity { Float64 _FillValue NaN; String long_name "Conductivity"; String standard_name "sea_water_conductivity"; String units "Siemens/meter"; String comment "Derived from cond_frequency from ctdDriver2.nc via calibration parms: {'t_coefs': 'A', 'c_coefs': 'A', 't_a': 0.00368121209, 't_b': 0.00060623048, 't_c': 1.69997484e-05, 't_d': 1.9027084e-06, 't_f0': 3021.866, 'c_a': 5.06773355e-07, 'c_b': 0.44274839, 'c_c': -4.15648471, 'c_d': -7.86233381e-05, 'c_m': 5.3, 'eps': -9.57e-08, 'SOc': 0.0, 'BOc': 0.0, 'Voff': 0.0, 'TCor': 0.0, 'PCor': 0.0} median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } ctd2_salinity { Float64 _FillValue NaN; String long_name "Salinity"; String standard_name "sea_water_salinity"; String units ""; String comment "Derived from cond_frequency from ctdDriver2.nc via calibration parms: {'t_coefs': 'A', 'c_coefs': 'A', 't_a': 0.00368121209, 't_b': 0.00060623048, 't_c': 1.69997484e-05, 't_d': 1.9027084e-06, 't_f0': 3021.866, 'c_a': 5.06773355e-07, 'c_b': 0.44274839, 'c_c': -4.15648471, 'c_d': -7.86233381e-05, 'c_m': 5.3, 'eps': -9.57e-08, 'SOc': 0.0, 'BOc': 0.0, 'Voff': 0.0, 'TCor': 0.0, 'PCor': 0.0} median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } ctd2_temperature_onboard { Float64 _FillValue NaN; String long_name "Temperature computed onboard the vehicle"; String units "degree_Celsius"; String comment "Temperature computed onboard the vehicle from calibration parameters installed on the vehicle at the time of deployment. median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } ctd2_conductivity_onboard { Float64 _FillValue NaN; String long_name "Conductivity computed onboard the vehicle"; String units "Siemens/meter"; String comment "Temperature computed onboard the vehicle from calibration parameters installed on the vehicle at the time of deployment. median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } ctd2_salinity_onboard { Float64 _FillValue NaN; String long_name "Salinity computed onboard the vehicle"; String units ""; String comment "Salinity computed onboard the vehicle from calibration parameters installed on the vehicle at the time of deployment. median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } ctd2_flow2 { Float64 _FillValue NaN; String long_name "Flow sensor on ctd1"; String units "Volts"; String comment "flow2 from ctdDriver2.nc median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 3.990000000000000; String coordinates "time depth latitude longitude"; } isus_nitrate { Float64 _FillValue NaN; String long_name "Nitrate"; String units "micromoles/liter"; String comment "isusNitrate from isuslog.nc median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 0.7800000000000000; String coordinates "time depth latitude longitude"; } isus_temp { Float64 _FillValue NaN; String long_name "Temperature from ISUS"; String units "Celsius"; String comment "isusTemp from isuslog.nc median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 0.7800000000000000; String coordinates "time depth latitude longitude"; } biolume_flow { Float64 _FillValue NaN; String long_name "Bioluminesence pump flow rate"; String units "mL/s"; String comment "flow from biolume.nc median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 0.9800000000000000; String coordinates "time depth latitude longitude"; } biolume_avg_biolume { Float64 _FillValue NaN; String long_name "Bioluminesence Average of 60Hz data"; String units "photons s^-1"; String comment "avg_biolume from biolume.nc with plumbing lag correction of 0.5 seconds median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 0.9800000000000000; String coordinates "time depth latitude longitude"; } biolume_nbflash_high { Float64 _FillValue NaN; String long_name "High intensity flashes (copepods proxy)"; String units "flashes/liter"; String comment " - Computed with flash_threshold = 5e+10"; String coordinates "time depth latitude longitude"; } biolume_nbflash_low { Float64 _FillValue NaN; String long_name "Low intensity flashes (Larvacean proxy)"; String units "flashes/liter"; String comment " - Computed with flash_threshold = 5e+10"; String coordinates "time depth latitude longitude"; } biolume_intflash { Float64 _FillValue NaN; String long_name "Flashes intensity (small jellies proxy)"; String units "photons/s"; String comment " intensity of flashes from 60 Hz biolume_raw variable in 1S intervals."; String coordinates "time depth latitude longitude"; } biolume_bg_biolume { Float64 _FillValue NaN; String long_name "Background bioluminescence (dinoflagellates proxy)"; String units "photons/liter"; String comment ""; String coordinates "time depth latitude longitude"; } biolume_proxy_adinos { Float64 _FillValue NaN; String comment "Autotrophic dinoflagellate proxy using proxy_ratio_adinos = 3.9811e+13 and proxy_cal_factor = 0.004700"; String coordinates "time depth latitude longitude"; } biolume_proxy_hdinos { Float64 _FillValue NaN; String comment "Heterotrophic dinoflagellate proxy using proxy_ratio_adinos = 3.9811e+13 and proxy_cal_factor = 0.004700"; String coordinates "time depth latitude longitude"; } biolume_proxy_diatoms { Float64 _FillValue NaN; String comment "Diatom proxy using proxy_ratio_adinos = 3.9811e+13 and proxy_cal_factor = 0.004700"; String coordinates "time depth latitude longitude"; } tailcone_propRpm { Float64 _FillValue NaN; String long_name "Vehicle propeller speed"; String units "rad/s"; String comment "propRpm from tailCone.nc (convert to RPM by multiplying by 9.549297) median filtered with 3 samples and resampled with .mean() aggregator to 1S intervals."; Float64 instrument_sample_rate_hz 5.000000000000000; String coordinates "time depth latitude longitude"; } profile_number { String long_name "Profile number"; } NC_GLOBAL { String netcdf_version "4"; String Conventions "CF-1.6"; String date_created "2024-01-05T19:36:46Z"; String date_update "2024-01-05T19:36:46Z"; String date_modified "2024-01-05T19:36:46Z"; String featureType "trajectory"; String time_coverage_start "2018-02-28T00:23:03.000000000"; String time_coverage_end "2018-02-28T18:09:33.000000000"; String time_coverage_duration "17:46:30"; Float64 geospatial_vertical_min -0.6141190800034360; Float64 geospatial_vertical_max 103.2590368090598; Float64 geospatial_lat_min 36.65784189266920; Float64 geospatial_lat_max 36.90315947410613; Float64 geospatial_lon_min -122.0290307422296; Float64 geospatial_lon_max -121.8210470142948; String license "Any use requires prior approval from MBARI"; String history "Created by src/data/process_dorado.py -v --num_cores 1 --flash_threshold 5E10 --resample --start_year 2017 --end_year 2023 on 2024-01-05T19:36:56Z"; String source "MBARI Dorado-class AUV data produced from original log files with execution of 'src/data/process_dorado.py -v --num_cores 1 --flash_threshold 5E10 --resample --start_year 2017 --end_year 2023' at 2024-01-05T19:36:56Z on host dd0867640019 using git commit a417e89891411fa4c5883973aa99a249a2bc597b from software at 'https://github.com/mbari-org/auv-python'"; String summary "Observational oceanographic data obtained from an Autonomous Underwater Vehicle mission with measurements sampled at 1S intervals. Data processed at 2024-01-05T19:36:56Z using MBARI's auv-python software. Processing log file: http://dods.mbari.org/opendap/data/auvctd/surveys/2018/netcdf/dorado_2018.059.00_processing.log"; String title "Monterey Bay Diamond program - calibrated, aligned, and resampled AUV sensor data from dorado mission 2018.059.00"; String program "Monterey Bay Diamond"; String comment "MBTS mission - Overnight diamond in Monterey Bay QC note: Best CTD is ctd2, still issues in ctd2 so would loose temp data and would need to be cleaned up for salt. Only the first half is good for ctd2 salt, but 1 is screwy. Nearly all salinity is bad - ctdToUse = ctd1 . Variable depth pitch corrected using SensorOffset(x=4.5, y=0.0)"; } }