From 42e3a97f47cb0384427e7df9e0fcdec335bbac82 Mon Sep 17 00:00:00 2001 From: Michael Vardaro Date: Tue, 12 Dec 2023 10:09:21 -0800 Subject: [PATCH] Removed question marks from bin_depth parameters Four of the ADCP parameters in Preload (PD7983, PD7984, PD7985, and PD8112) had "?" as a character for bin depth in the dataproductidentifier field. Removed to avoid ingestion issues. --- csv/ParameterDefs.csv | 8 ++++---- 1 file changed, 4 insertions(+), 4 deletions(-) diff --git a/csv/ParameterDefs.csv b/csv/ParameterDefs.csv index 2ed364c..346854a 100644 --- a/csv/ParameterDefs.csv +++ b/csv/ParameterDefs.csv @@ -3502,9 +3502,9 @@ TO-DO,,ts_status_secondary_reference_clock,ts_status_secondary_reference_clock,P TO-DO,,ts_status_time_error,ts_status_time_error,PD7980,quantity,,string,,1,empty,Status Time Error Quantity,,,,,,,,Status Time Error Quantity,,, TO-DO,,ts_status_timeout_error,ts_status_timeout_error,PD7981,quantity,,string,,1,empty,Status Timout Error,,,,,,,,Status Timout Error,,, TO-DO,,ts_system_up_time,ts_system_up_time,PD7982,quantity,,int32,,count,-9999999,System Up Time,0,,,,,,,System Up Time,,, -TO-DO,ADCP_PD0,bin_depths,bin_depths,PD7983,function,"[""bin""]",float32,,m,-9999999,Bin Depths,0,,PFID203,"{""sensor_depth"":""PD8085"", ""bin_size"":""PD623"", ""dist_first_bin"":""PD651"", ""num_bins"":""PD621"", ""adcp_orientation"":""PD617""}",,,?,Bin Depths,,, -TO-DO,ADCP_PD0,bin_depths,bin_depths,PD7984,function,"[""bin""]",float32,,m,-9999999,Bin Depths,0,,PFID202,"{""dist_first_bin"":""PD651"",""bin_size"":""PD623"",""num_bins"":""PD621"",""pressure"":""PD1527"",""adcp_orientation"":""PD617"",""latitude"":""PD8105""}",,,?,Bin Depths,,, -TO-DO,ADCP_PD8,bin_depths,bin_depths,PD7985,function,"[""bin""]",float32,,m,-9999999,Bin Depths,0,,PFID203,"{""dist_first_bin"":""CC_dist_first_bin"",""bin_size"":""CC_bin_size"",""num_bins"":""PD621"",""sensor_depth"":""CC_depth"",""adcp_orientation"":""CC_orientation""}",,,?,Bin Depths,,, +TO-DO,ADCP_PD0,bin_depths,bin_depths,PD7983,function,"[""bin""]",float32,,m,-9999999,Bin Depths,0,,PFID203,"{""sensor_depth"":""PD8085"", ""bin_size"":""PD623"", ""dist_first_bin"":""PD651"", ""num_bins"":""PD621"", ""adcp_orientation"":""PD617""}",,,,Bin Depths,,, +TO-DO,ADCP_PD0,bin_depths,bin_depths,PD7984,function,"[""bin""]",float32,,m,-9999999,Bin Depths,0,,PFID202,"{""dist_first_bin"":""PD651"",""bin_size"":""PD623"",""num_bins"":""PD621"",""pressure"":""PD1527"",""adcp_orientation"":""PD617"",""latitude"":""PD8105""}",,,,Bin Depths,,, +TO-DO,ADCP_PD8,bin_depths,bin_depths,PD7985,function,"[""bin""]",float32,,m,-9999999,Bin Depths,0,,PFID203,"{""dist_first_bin"":""CC_dist_first_bin"",""bin_size"":""CC_bin_size"",""num_bins"":""PD621"",""sensor_depth"":""CC_depth"",""adcp_orientation"":""CC_orientation""}",,,,Bin Depths,,, TO-DO,Gliders,parad_m_par,parad_m_par,PD7986,function,,float32,,umol photons m-2 s-1,,Photosynthetically Active Radiation,4,,PFID189,"{""value"": ""PD1470"", ""scaler"": ""CC_bsipar_par_scaling""}",OPTPARW,downwelling_photosynthetic_photon_flux_in_sea_water,OPTPARW_L1,Photosynthetically Active Radiation (PAR) is the measure of the density of photons per unit area that are in the spectral range of light (400-700 nanometers) that primary producers use for photosynthesis.,Photosynthetically Active Radiation (400-700 nm),Science Data,L1 CTD,CTDMO,ctdmo_seawater_pressure,sea_water_pressure,PD7987,function,,float32,,dbar,-9999,Seawater Pressure,,,PFID205,"{""p0"":""PD195"", ""pt0"":""PD196"", ""ptempa0"":""CC_ptempa0"", ""ptempa1"":""CC_ptempa1"", ""ptempa2"":""CC_ptempa2"", ""ptca0"":""CC_ptca0"", ""ptca1"":""CC_ptca1"", ""ptca2"":""CC_ptca2"", ""ptcb0"":""CC_ptcb0"", ""ptcb1"":""CC_ptcb1"", ""ptcb2"":""CC_ptcb2"", ""pa0"":""CC_pa0"", ""pa1"":""CC_pa1"", ""pa2"":""CC_pa2""}",PRESWAT,sea_water_pressure,PRESWAT_L1,Seawater Pressure refers to the pressure exerted on a sensor in situ by the weight of the column of seawater above it. It is calculated by subtracting one standard atmosphere from the absolute pressure at the sensor to remove the weight of the atmosphere on top of the water column. The pressure at a sensor in situ provides a metric of the depth of that sensor.,Seawater Pressure,Science Data,L1 CTD,CTDMO,ctdmo_seawater_temperature,sea_water_temperature,PD7988,function,,float32,,degrees_Celsius,-9999999,Seawater Temperature,4,,PFID206,"{""t0"":""PD193"",""a0"":""CC_a0"",""a1"":""CC_a1"",""a2"":""CC_a2"",""a3"":""CC_a3""}",TEMPWAT,sea_water_temperature,TEMPWAT_L1,Seawater temperature near the sensor.,Seawater Temperature,Science Data,L1 @@ -3631,7 +3631,7 @@ DOSTA_D,DOSTA,oxygen_from_calphase,oxygen_from_calphase,PD8107,function,,float32 DOSTA_D,DOSTA,oxygen_from_calphase,,PD8109,function,,float32,,umol L-1,-9999999,DO from Phase,4,,PFID16,"{""x"":""PD8107""}",DOCONCS,,,"Dissolved Oxygen Concentration from a co-located Stable Response Dissolved Oxygen (DO) Instrument is a measure of the concentration of gaseous oxygen mixed in seawater. This instrument measures dissolved oxygen concentrations on mobile assets, deep profilers, and moorings. This data product is corrected for temperature.",Dissolved Oxygen Concentration from Stable DO Instrument,Science Data,L1 ,DOSTA,corrected_dissolved_oxygen,,PD8110,function,,float32,,umol kg-1,-9999999,DO from Phase - Corrected,4,,PFID16,"{""x"":""PD8108""}",DOCONCS,moles_of_oxygen_per_unit_mass_in_sea_water,,"Dissolved Oxygen Concentration from a co-located Stable Response Dissolved Oxygen Instrument is a measure of the concentration of gaseous oxygen mixed in seawater. This data product is corrected for salinity, temperature, and depth.",Dissolved Oxygen Concentration from Stable DO Instrument,Science Data,L2 DOFST,DOFST,corrected_dissolved_oxygen,,PD8111,function,,float32,,umol kg-1,-9999999,Dissolved Oxygen - Pressure Temp Sal Corrected (CTD),4,,PFID16,"{""x"":""PD3777""}",DOCONCF,,,"Dissolved Oxygen (DO) Concentration from the Fast Response (Fastrep) DO Instrument is a measure of the concentration of gaseous oxygen mixed in seawater. This Instrument measures dissolved oxygen concentrations on shallow coastal profilers through rapid oxygen gradients. This data product is corrected for salinity, temperature, and depth from a collocated CTD.",Dissolved Oxygen Concentration from Fastrep DO Instrument,Science Data,L2 -ADCP_PD0,ADCP_PD0,bin_depths,,PD8112,function,"[""bin""]",float32,,m,-9999999,Bin Depths,0,,PFID203,"{""sensor_depth"": ""PD8085"",""bin_size"":""CC_bin_size"",""dist_first_bin"": ""CC_dist_first_bin"",""num_bins"": ""PD1641"",""adcp_orientation"": ""CC_orientation""}",,,?,Bin Depths,,, +ADCP_PD0,ADCP_PD0,bin_depths,,PD8112,function,"[""bin""]",float32,,m,-9999999,Bin Depths,0,,PFID203,"{""sensor_depth"": ""PD8085"",""bin_size"":""CC_bin_size"",""dist_first_bin"": ""CC_dist_first_bin"",""num_bins"": ""PD1641"",""adcp_orientation"": ""CC_orientation""}",,,,Bin Depths,,, FLORD_G,,raw_signal_beta_volts,,PD8113,function,,float32,,V,-9999999,Optical Backscatter Measurement,4,,PFID209,"{""counts"":""dpi_FLUBSCT_L0""}",,,FLUBSCT-VLT_L0,Optical backscatter unprocessed measurement output from the sensor.,Optical Backscatter (Red Wavelengths) Measurement,Unprocessed Data,L0 FLORD_G,,raw_signal_chl_volts,,PD8114,function,,float32,,V,-9999999,Chlorophyll-A Measurement,4,,PFID209,"{""counts"":""dpi_CHLAFLO_L0""}",,,CHLAFLO-VLT_L0,Fluorometric chlorophyll-a unprocessed measurement output from the sensor.,Fluorometric Chlorophyll-a Measurement,Unprocessed Data,L0 FLOR,,fluorometric_chlorophyll_a,,PD8115,function,,float32,,ug L-1,-9999999,Chlorophyll-a Concentration,6,,PFID80,"{""counts_output"":""dpi_CHLAFLO-VLT_L0"",""counts_dark"":""CC_dark_counts_chlorophyll_a"",""scale_factor"":""CC_scale_factor_chlorophyll_a""}",,mass_concentration_of_chlorophyll_a_in_sea_water,CHLAFLO_L1,Fluorometric Chlorophyll-a Concentration is an estimate of phytoplankton biomass using fluorescence. The fluorometer emits light at a specific wavelength that is absorbed by chlorophyll and re-emitted as light at a different wavelength. By measuring the intensity of the re-emitted wavelength of light the chlorophyll-a concentration in the surrounding seawater can be estimated. Chlorophyll-a concentrations can be used as a proxy for phytoplankton biomass as it is a dominant photosynthetic pigment.,Fluorometric Chlorophyll-a Concentration,Science Data,L1