Dataset { String trajectory_id; Float64 Time[Time = 4350]; Grid { Array: Float32 CBIT.empiricalFaultElevOffset[Time = 4350]; Maps: Float64 Time[Time = 4350]; } CBIT.empiricalFaultElevOffset; Grid { Array: Float32 VerticalTemperatureHomogeneityIndexCalculator.vertical_temperature_homogeneity_index[Time = 4350]; Maps: Float64 Time[Time = 4350]; } VerticalTemperatureHomogeneityIndexCalculator.vertical_temperature_homogeneity_index; Grid { Array: Int16 UpwellingFrontDetector.front[Time = 4350]; Maps: Float64 Time[Time = 4350]; } UpwellingFrontDetector.front; Grid { Array: Float64 latitude[Time = 4350]; Maps: Float64 Time[Time = 4350]; } latitude; Grid { Array: Float64 longitude[Time = 4350]; Maps: Float64 Time[Time = 4350]; } longitude; Grid { Array: Float32 fix_residual_percent_distance_traveled[Time = 4350]; Maps: Float64 Time[Time = 4350]; } fix_residual_percent_distance_traveled; Grid { Array: Float32 mass_concentration_of_oxygen_in_sea_water[Time = 4350]; Maps: Float64 Time[Time = 4350]; } mass_concentration_of_oxygen_in_sea_water; Grid { Array: Float32 sea_water_salinity[Time = 4350]; Maps: Float64 Time[Time = 4350]; } sea_water_salinity; Grid { Array: Float32 CTD_NeilBrown.bin_mean_sea_water_temperature[Time = 4350]; Maps: Float64 Time[Time = 4350]; } CTD_NeilBrown.bin_mean_sea_water_temperature; Grid { Array: Float32 downwelling_photosynthetic_photon_flux_in_sea_water[Time = 4350]; Maps: Float64 Time[Time = 4350]; } downwelling_photosynthetic_photon_flux_in_sea_water; Grid { Array: Float32 WetLabsBB2FL.VolumeScatCoeff117deg470nm[Time = 4350]; Maps: Float64 Time[Time = 4350]; } WetLabsBB2FL.VolumeScatCoeff117deg470nm; Grid { Array: Float32 WetLabsBB2FL.VolumeScatCoeff117deg650nm[Time = 4350]; Maps: Float64 Time[Time = 4350]; } WetLabsBB2FL.VolumeScatCoeff117deg650nm; Grid { Array: Float32 WetLabsBB2FL.bin_mean_mass_concentration_of_chlorophyll_in_sea_water[Time = 4350]; Maps: Float64 Time[Time = 4350]; } WetLabsBB2FL.bin_mean_mass_concentration_of_chlorophyll_in_sea_water; Grid { Array: Float32 depth[Time = 4350]; Maps: Float64 Time[Time = 4350]; } depth; Grid { Array: Float64 time_fix[Time = 4350]; Maps: Float64 Time[Time = 4350]; } time_fix; Grid { Array: Float64 latitude_fix[Time = 4350]; Maps: Float64 Time[Time = 4350]; } latitude_fix; Grid { Array: Float64 longitude_fix[Time = 4350]; Maps: Float64 Time[Time = 4350]; } longitude_fix; Grid { Array: Float32 platform_average_current[Time = 4350]; Maps: Float64 Time[Time = 4350]; } platform_average_current; Grid { Array: Float32 platform_battery_charge[Time = 4350]; Maps: Float64 Time[Time = 4350]; } platform_battery_charge; Grid { Array: Float32 platform_battery_voltage[Time = 4350]; Maps: Float64 Time[Time = 4350]; } platform_battery_voltage; Grid { Array: Float64 sci2.Science.PeakChl[Time = 4350]; Maps: Float64 Time[Time = 4350]; } sci2.Science.PeakChl; Grid { Array: Float64 sci2.Science.PeakChlDepth[Time = 4350]; Maps: Float64 Time[Time = 4350]; } sci2.Science.PeakChlDepth; Grid { Array: Int16 follow_1D_front.DetectedFront[Time = 4350]; Maps: Float64 Time[Time = 4350]; } follow_1D_front.DetectedFront; Grid { Array: Float64 follow_1D_front.DetectedFrontCount[Time = 4350]; Maps: Float64 Time[Time = 4350]; } follow_1D_front.DetectedFrontCount; Grid { Array: Int16 follow_1D_front.PassedFront[Time = 4350]; Maps: Float64 Time[Time = 4350]; } follow_1D_front.PassedFront; Grid { Array: Float64 follow_1D_front.TemperatureDelta[Time = 4350]; Maps: Float64 Time[Time = 4350]; } follow_1D_front.TemperatureDelta; Grid { Array: Float64 follow_1D_front.Front[Time = 4350]; Maps: Float64 Time[Time = 4350]; } follow_1D_front.Front; Grid { Array: Float64 follow_1D_front.FrontLatitude[Time = 4350]; Maps: Float64 Time[Time = 4350]; } follow_1D_front.FrontLatitude; Grid { Array: Float64 follow_1D_front.FrontLongitude[Time = 4350]; Maps: Float64 Time[Time = 4350]; } follow_1D_front.FrontLongitude; } shore.nc;