Concept
Dimensionless
URI | http://vocab.nerc.ac.uk/collection/P06/current/UUUU/2/ | ||
---|---|---|---|
Within Vocab | BODC-approved data storage units | ||
Alternative Labels | Dmnless | ||
Definition | A quantity with the dimension of 1. | ||
Date | 2017-10-22T14:07:46 | ||
Identifier | SDN:P06::UUUU | ||
Note | accepted | ||
Is Version Of | UUUU | ||
Previous Version | 1 | ||
version | 2 | ||
Same As | CEH | http://onto.nerc.ac.uk/CAST/163 | |
Broader | P24:DIMLESS |
[dimensionless] | |
DBpedia | http://dbpedia.org/resource/Dimensionless_quantity | ||
Related | B39:salin |
sea surface salinity | |
A05 AtlantOS Essential Variables - (2) [+] | |||
A05:EV_SALIN |
Salinity | ||
A05:EV_WAVES |
Waves | ||
MVB Movebank Attribute Dictionary - (9) [+] | |||
MVB:MVB000115 |
GPS DOP | ||
MVB:MVB000360 |
GPS GDOP | ||
MVB:MVB000118 |
GPS HDOP | ||
MVB:MVB000284 |
GPS PDOP | ||
MVB:MVB000361 |
GPS TDOP | ||
MVB:MVB000122 |
GPS VDOP | ||
MVB:MVB000370 |
Lotek eRes | ||
MVB:MVB000391 |
WC residual | ||
MVB:MVB000419 |
WildFi prox RSSI burst | ||
P09 MEDATLAS Parameter Usage Vocabulary - (17) [+] | |||
P09:NAVG |
AVERAGED DATA CYCLE NUMBER | ||
P09:WBFO |
BEAUFORT WIND FORCE | ||
P09:CDO2 |
COLORED DISS. ORGANIC MATTER | ||
P09:OCNT |
COUNT OF BIOLOGICAL ENTITY | ||
P09:DATE |
DATE | ||
P09:DAYX |
DAY WITHIN MONTH | ||
P09:DAYS |
DAY WITHIN YEAR | ||
P09:FLUO |
FLUORESCENCE | ||
P09:VST1 |
MAXIMUM WAVE STEEPNESS | ||
P09:MNTH |
MONTH | ||
P09:PSAL |
PRACTICAL SALINITY | ||
P09:PS02 |
PRACTICAL SALINITY 2 | ||
P09:PRAB |
PRESENCE OR ABSENCE OF ENTITY | ||
P09:SACC |
SALINITY ACCURACY | ||
P09:SSPS |
SEA SURFACE PRACTICAL SALINITY | ||
P09:TUR5 |
TURBIDITY | ||
P09:YEAR |
YEAR | ||
R03 Argo parameter codes - (31) [+] | |||
R03:TRANSMITTANCE_PARTICLE_BEAM_ATTENUATION |
Beam attenuation from transmissometer sensor at x nanometers | ||
R03:COUNT_DOXY |
Count reported by oxygen sensor | ||
R03:TEMP_COUNT_DOXY |
Count which is expressive of uncalibrated temperature value reported by oxygen sensor | ||
R03:UV_INTENSITY_DARK_NITRATE |
Intensity of ultra-violet flux dark measurement from nitrate sensor | ||
R03:UV_INTENSITY_DARK_SEAWATER_NITRATE |
Intensity of ultra-violet flux dark seawater from nitrate sensor | ||
R03:UV_INTENSITY_NITRATE |
Intensity of ultra-violet flux from nitrate sensor | ||
R03:FIT_ERROR_NITRATE |
Nitrate fit error | ||
R03:NB_SAMPLE |
Number of samples in bin | ||
R03:LED_FLASHING_COUNT_DOXY |
Number of times oxygen sensor flashing to measure oxygen | ||
R03:TRANSMITTANCE_PARTICLE_BEAM_ATTENUATION660 |
Particle beam attenuation from transmissometer sensor at 660 nanometers | ||
R03:PSAL |
Practical salinity | ||
R03:RAW_DOWNWELLING_IRRADIANCE380 |
Raw downwelling irradiance at 380 nanometers | ||
R03:RAW_DOWNWELLING_IRRADIANCE412 |
Raw downwelling irradiance at 412 nanometers | ||
R03:RAW_DOWNWELLING_IRRADIANCE443 |
Raw downwelling irradiance at 443 nanometers | ||
R03:RAW_DOWNWELLING_IRRADIANCE490 |
Raw downwelling irradiance at 490 nanometers | ||
R03:RAW_DOWNWELLING_IRRADIANCE555 |
Raw downwelling irradiance at 555 nanometers | ||
R03:RAW_DOWNWELLING_IRRADIANCE |
Raw downwelling irradiance at x nanometers | ||
R03:RAW_DOWNWELLING_PAR |
Raw downwelling photosynthetically available radiation | ||
R03:FLUORESCENCE_CDOM |
Raw fluorescence from coloured dissolved organic matter sensor | ||
R03:FLUORESCENCE_CHLA |
Raw signal from chlorophyll-a fluorometer | ||
R03:RAW_UPWELLING_RADIANCE412 |
Raw upwelling radiance at 412 nanometers | ||
R03:RAW_UPWELLING_RADIANCE443 |
Raw upwelling radiance at 443 nanometers | ||
R03:RAW_UPWELLING_RADIANCE490 |
Raw upwelling radiance at 490 nanometers | ||
R03:RAW_UPWELLING_RADIANCE555 |
Raw upwelling radiance at 555 nanometers | ||
R03:RAW_UPWELLING_RADIANCE |
Raw upwelling radiance at x nanometers | ||
R03:TEMP_CPU_CHLA |
Thermistor signal from backscattering meter and/or fluorometer | ||
R03:BETA_BACKSCATTERING470 |
Total angle specific volume from backscattering sensor at 470 nanometers | ||
R03:BETA_BACKSCATTERING532 |
Total angle specific volume from backscattering sensor at 532 nanometers | ||
R03:BETA_BACKSCATTERING700 |
Total angle specific volume from backscattering sensor at 700 nanometers | ||
R03:BETA_BACKSCATTERING |
Total angle specific volume from backscattering sensor at x nanometers | ||
R03:SIDE_SCATTERING_TURBIDITY |
Turbidity signal from side scattering sensor | ||
OG1 OceanGliders Parameter Usage Vocabulary - (38) [+] | |||
OG1:COR_FACT |
Correlation factor of acoustic signal by altimeter | ||
OG1:CNTDOXY |
Count reported by oxygen sensor | ||
OG1:TCNTDOXY |
Count which is expressive of uncalibrated temperature value reported by oxygen sensor | ||
OG1:ENLEVEL |
Energy level of acoustic signal by altimeter | ||
OG1:CYCLEENG |
Engineering data cycle number | ||
OG1:GLCOMPH |
Glider command phase | ||
OG1:NBSAMP |
Number of samples in bin | ||
OG1:LCNTDOXY |
Number of times oxygen sensor flashing to measure oxygen | ||
OG1:FLUOPHYC |
Phycoerythrin signal from fluorescence sensor | ||
OG1:PSAL |
Practical salinity | ||
OG1:EDLAM380 |
Raw downwelling irradiance at 380 nanometers | ||
OG1:EDLAM412 |
Raw downwelling irradiance at 412 nanometers | ||
OG1:EDLAM443 |
Raw downwelling irradiance at 443 nanometers | ||
OG1:EDLAM490 |
Raw downwelling irradiance at 490 nanometers | ||
OG1:EDLAM555 |
Raw downwelling irradiance at 555 nanometers | ||
OG1:EDLAM |
Raw downwelling irradiance at x nanometers | ||
OG1:RAWDPAR |
Raw downwelling photosynthetic available radiation | ||
OG1:FLUOCDOM |
Raw fluorescence from coloured dissolved organic matter sensor | ||
OG1:RTHERTUR_MN |
Raw signal (mean) from turbulence profiler thermistor | ||
OG1:RTHERTUR_MN2 |
Raw signal (mean) from turbulence profiler thermistor (second sensor) | ||
OG1:RSHEAR_SD |
Raw signal (standard deviation) from turbulence profiler shear sensor | ||
OG1:RSHEAR_SD2 |
Raw signal (standard deviation) from turbulence profiler shear sensor (second sensor) | ||
OG1:RTHERTUR_SD |
Raw signal (standard deviation) from turbulence profiler thermistor | ||
OG1:RTHERTUR_SD2 |
Raw signal (standard deviation) from turbulence profiler thermistor (second sensor) | ||
OG1:RBBP700 |
Raw signal from backscattering sensor | ||
OG1:FLUOCHLA |
Raw signal from chlorophyll-a fluorometer | ||
OG1:PITMPOS |
Setting (counts) of glider pitch mass | ||
OG1:ROLMPOS |
Setting (counts) of glider roll mass | ||
OG1:VBD |
Setting (counts) of glider variable buoyancy device | ||
OG1:CROLMPOS |
Setting (offset angle from neutral) of glider roll mass | ||
OG1:TCPUCHLA |
Thermistor signal from backscattering meter and/or fluorometer | ||
OG1:TCPURADP |
Thermistor signal from radiometer | ||
OG1:BETA470 |
Total angle specific volume from backscattering sensor at 470 nanometers | ||
OG1:BETA532 |
Total angle specific volume from backscattering sensor at 532 nanometers | ||
OG1:BETA650 |
Total angle specific volume from backscattering sensor at 650 nanometers | ||
OG1:BETA700 |
Total angle specific volume from backscattering sensor at 700 nanometers | ||
OG1:BETA880 |
Total angle specific volume from backscattering sensor at 880 nanometers | ||
OG1:BETABBP |
Total angle specific volume from backscattering sensor at x nanometers | ||
P07 Climate and Forecast Standard Names - (604) [+] | |||
P07:ZM49JDO0 |
acoustic_area_backscattering_strength_in_sea_water | ||
P07:07RO7YIE |
acoustic_proportion_occupied_in_sea_water | ||
P07:MM3VZ038 |
acoustic_target_strength_in_sea_water | ||
P07:0RYYN1L4 |
acoustic_volume_backscattering_strength_in_sea_water | ||
P07:CFSN0012 |
aerosol_angstrom_exponent | ||
P07:7CUMJMNV |
aerosol_type_in_atmosphere_layer_in_air | ||
P07:NSQIIIL7 |
aggregate_quality_flag | ||
P07:CF12S1 |
angstrom_exponent_of_ambient_aerosol_in_air | ||
P07:LKV9NXIH |
angstrom_exponent_of_volume_backwards_scattering_in_air_due_to_ambient_aerosol_particles | ||
P07:CFSN0001 |
area_fraction | ||
P07:CFSN0002 |
area_fraction_below_surface | ||
P07:WSIX6RS1 |
area_fraction_of_day_defined_by_solar_zenith_angle | ||
P07:UA5EK79W |
area_fraction_of_night_defined_by_solar_zenith_angle | ||
P07:QUPKH73P |
area_fraction_of_twilight_defined_by_solar_zenith_angle | ||
P07:27DLRI6W |
asymmetry_factor_of_ambient_aerosol_particles | ||
P07:CFV13N44 |
atmosphere_absorption_optical_thickness_due_to_ambient_aerosol | ||
P07:K733V1TX |
atmosphere_absorption_optical_thickness_due_to_ambient_aerosol_particles | ||
P07:CFV13N37 |
atmosphere_absorption_optical_thickness_due_to_black_carbon_ambient_aerosol | ||
P07:CFV13N38 |
atmosphere_absorption_optical_thickness_due_to_dust_ambient_aerosol | ||
P07:4PKYZCZO |
atmosphere_absorption_optical_thickness_due_to_dust_ambient_aerosol_particles | ||
P07:0XG3ABPC |
atmosphere_absorption_optical_thickness_due_to_nitrate_ambient_aerosol_particles | ||
P07:CFV13N39 |
atmosphere_absorption_optical_thickness_due_to_particulate_organic_matter_ambient_aerosol | ||
P07:7L9GZZ3C |
atmosphere_absorption_optical_thickness_due_to_particulate_organic_matter_ambient_aerosol_particles | ||
P07:NBNM4BKR |
atmosphere_absorption_optical_thickness_due_to_sea_salt_ambient_aerosol_particles | ||
P07:CFV13N40 |
atmosphere_absorption_optical_thickness_due_to_seasalt_ambient_aerosol | ||
P07:EPD9XTVI |
atmosphere_absorption_optical_thickness_due_to_seasalt_ambient_aerosol_particles | ||
P07:CFV13N41 |
atmosphere_absorption_optical_thickness_due_to_sulfate_ambient_aerosol | ||
P07:35C2WEJP |
atmosphere_absorption_optical_thickness_due_to_sulfate_ambient_aerosol_particles | ||
P07:CFSN0755 |
atmosphere_hybrid_sigma_pressure_coordinate | ||
P07:CFSN0757 |
atmosphere_ln_pressure_coordinate | ||
P07:CFSN0763 |
atmosphere_optical_thickness_due_to_aerosol | ||
P07:CFV13A2 |
atmosphere_optical_thickness_due_to_ambient_aerosol | ||
P07:BZT50PNT |
atmosphere_optical_thickness_due_to_ambient_aerosol_particles | ||
P07:A0VQCZ7T |
atmosphere_optical_thickness_due_to_ammonium_ambient_aerosol_particles | ||
P07:CFV7N72 |
atmosphere_optical_thickness_due_to_black_carbon_ambient_aerosol | ||
P07:CF12N184 |
atmosphere_optical_thickness_due_to_cloud | ||
P07:CF12N185 |
atmosphere_optical_thickness_due_to_convective_cloud | ||
P07:CFV7N73 |
atmosphere_optical_thickness_due_to_dust_ambient_aerosol | ||
P07:8EM4NR55 |
atmosphere_optical_thickness_due_to_dust_ambient_aerosol_particles | ||
P07:BBAH2112 |
atmosphere_optical_thickness_due_to_dust_dry_aerosol | ||
P07:8653W3HC |
atmosphere_optical_thickness_due_to_dust_dry_aerosol_particles | ||
P07:0HFAZTDG |
atmosphere_optical_thickness_due_to_nitrate_ambient_aerosol_particles | ||
P07:CFV7N74 |
atmosphere_optical_thickness_due_to_particulate_organic_matter_ambient_aerosol | ||
P07:RFMOUWGK |
atmosphere_optical_thickness_due_to_particulate_organic_matter_ambient_aerosol_particles | ||
P07:CFV7N68 |
atmosphere_optical_thickness_due_to_pm10_ambient_aerosol | ||
P07:OJ9FZRPI |
atmosphere_optical_thickness_due_to_pm10_ambient_aerosol_particles | ||
P07:CFV7N69 |
atmosphere_optical_thickness_due_to_pm1_ambient_aerosol | ||
P07:7FIU8PCM |
atmosphere_optical_thickness_due_to_pm1_ambient_aerosol_particles | ||
P07:CFV7N70 |
atmosphere_optical_thickness_due_to_pm2p5_ambient_aerosol | ||
P07:O1IPIHLF |
atmosphere_optical_thickness_due_to_pm2p5_ambient_aerosol_particles | ||
P07:5D3PO7YU |
atmosphere_optical_thickness_due_to_sea_salt_ambient_aerosol_particles | ||
P07:CFV7N71 |
atmosphere_optical_thickness_due_to_seasalt_ambient_aerosol | ||
P07:O7C6DLT1 |
atmosphere_optical_thickness_due_to_seasalt_ambient_aerosol_particles | ||
P07:CF12N186 |
atmosphere_optical_thickness_due_to_stratiform_cloud | ||
P07:J6HSDN4T |
atmosphere_optical_thickness_due_to_sulfate_ambient_aerosol_particles | ||
P07:CFV7N44 |
atmosphere_optical_thickness_due_to_water_in_ambient_aerosol | ||
P07:XSKHRFMM |
atmosphere_optical_thickness_due_to_water_in_ambient_aerosol_particles | ||
P07:CFSN0766 |
atmosphere_sigma_coordinate | ||
P07:CFSN0767 |
atmosphere_sleve_coordinate | ||
P07:XORQBBJU |
attenuated_signal_test_quality_flag | ||
P07:CF12N187 |
backscattering_ratio | ||
P07:QT0VTCHE |
backscattering_ratio_in_air | ||
P07:RIMODKVA |
beam_consistency_indicator_from_multibeam_acoustic_doppler_velocity_profiler_in_sea_water | ||
P07:CFV7N45 |
beaufort_wind_force | ||
P07:GACJJFFJ |
burned_area_fraction | ||
P07:ECFAHXEC |
canadian_fire_weather_index | ||
P07:Z3R8636B |
canopy_albedo | ||
P07:EGJCGAEC |
change_over_time_in_sea_water_practical_salinity | ||
P07:BBAH2111 |
change_over_time_in_sea_water_salinity | ||
P07:OSR9FYTK |
charnock_coefficient_for_surface_roughness_length_for_momentum_in_air | ||
P07:OBDP98IE |
clear_sky_area_fraction | ||
P07:U8OR7J3E |
climatology_test_quality_flag | ||
P07:CF12N191 |
cloud_albedo | ||
P07:CFSN0745 |
cloud_area_fraction | ||
P07:CFSN0746 |
cloud_area_fraction_in_atmosphere_layer | ||
P07:J2ZAL3RP |
cloud_binary_mask | ||
P07:CFV11N1 |
cloud_ice_mixing_ratio | ||
P07:CFV11N2 |
cloud_liquid_water_mixing_ratio | ||
P07:CF12N192 |
cloud_longwave_emissivity | ||
P07:GWEZRUTL |
cloud_type | ||
P07:6OP5LKSX |
concentration_of_colored_dissolved_organic_matter_in_sea_water_expressed_as_equivalent_mass_fraction_of_quinine_sulfate_dihydrate | ||
P07:CFV16A8 |
convection_time_fraction | ||
P07:CFSN0707 |
convective_cloud_area_fraction | ||
P07:CFSN0708 |
convective_cloud_area_fraction_in_atmosphere_layer | ||
P07:CF12N193 |
convective_cloud_longwave_emissivity | ||
P07:CFSN0774 |
correction_for_model_negative_specific_humidity | ||
P07:Z6JKE6RA |
density_ratio_of_dry_soil_to_water | ||
P07:CFSN0725 |
dimensionless_exner_function | ||
P07:ZV42E2GH |
dry_atmosphere_mole_fraction_of_carbon_dioxide | ||
P07:4Q24B9AP |
dry_atmosphere_mole_fraction_of_methane | ||
P07:8O6N4MAH |
dvorak_tropical_cyclone_current_intensity_number | ||
P07:REEO20PV |
dvorak_tropical_number | ||
P07:Y7RLJ6Z3 |
enrichment_of_13C_in_particulate_carbon_in_sea_water_expressed_as_lowercase_delta_13C_relative_to_VPDB | ||
P07:PVTJCRHT |
enrichment_of_14C_in_carbon_dioxide_in_air_expressed_as_uppercase_delta_14C | ||
P07:5UUAWMX7 |
enrichment_of_15N_in_particulate_nitrogen_in_sea_water_expressed_as_lowercase_delta_15N_relative_to_atmospheric_nitrogen | ||
P07:IMYZ46Y5 |
flat_line_test_quality_flag | ||
P07:U2HD33ZJ |
floating_ice_sheet_area_fraction | ||
P07:B58LZ0OO |
floating_ice_shelf_area_fraction | ||
P07:18AFGUED |
fog_area_fraction | ||
P07:5D73T768 |
fraction_of_surface_downwelling_photosynthetic_radiative_flux_absorbed_by_vegetation | ||
P07:M6FAQ4GA |
fraction_of_time_with_sea_ice_area_fraction_above_threshold | ||
P07:CFSN0623 |
fractional_saturation_of_oxygen_in_sea_water | ||
P07:WJ0KLQVT |
gap_test_quality_flag | ||
P07:SEO24YNV |
gross_range_test_quality_flag | ||
P07:3DXQHARK |
grounded_ice_sheet_area_fraction | ||
P07:IS3UMREH |
growth_limitation_of_calcareous_phytoplankton_due_to_solar_irradiance | ||
P07:5UY43J8S |
growth_limitation_of_diatoms_due_to_solar_irradiance | ||
P07:2LTDBEIM |
growth_limitation_of_diazotrophic_phytoplankton_due_to_solar_irradiance | ||
P07:ZVO41E4G |
growth_limitation_of_diazotrophs_due_to_solar_irradiance | ||
P07:R6NXPIMO |
growth_limitation_of_miscellaneous_phytoplankton_due_to_solar_irradiance | ||
P07:4GPLREOI |
growth_limitation_of_picophytoplankton_due_to_solar_irradiance | ||
P07:ADHIFDDC |
high_type_cloud_area_fraction | ||
P07:RSLGQH3R |
histogram_of_backscattering_ratio_in_air_over_height_above_reference_ellipsoid | ||
P07:CF12N209 |
histogram_of_backscattering_ratio_over_height_above_reference_ellipsoid | ||
P07:CF12N210 |
histogram_of_equivalent_reflectivity_factor_over_height_above_reference_ellipsoid | ||
P07:CFSN0607 |
humidity_mixing_ratio | ||
P07:1C3HWKK2 |
ice_cloud_area_fraction | ||
P07:95JF7EN0 |
ice_cloud_area_fraction_in_atmosphere_layer | ||
P07:JXJNSNLH |
ice_volume_in_frozen_ground_in_excess_of_pore_volume_in_unfrozen_ground_expressed_as_fraction_of_frozen_ground_volume | ||
P07:AU3S0E39 |
iron_growth_limitation_of_calcareous_phytoplankton | ||
P07:Z65YIO2Q |
iron_growth_limitation_of_diatoms | ||
P07:J88U9LS0 |
iron_growth_limitation_of_diazotrophic_phytoplankton | ||
P07:WOFTU731 |
iron_growth_limitation_of_diazotrophs | ||
P07:R0MDYZHM |
iron_growth_limitation_of_miscellaneous_phytoplankton | ||
P07:CTF4RH8X |
iron_growth_limitation_of_picophytoplankton | ||
P07:CFSN0611 |
isccp_cloud_area_fraction | ||
P07:E413P1AY |
isotope_ratio_of_17O_to_16O_in_sea_water_excluding_solutes_and_solids | ||
P07:BJ3ONH9W |
keetch_byram_drought_index | ||
P07:CFSN0618 |
land_area_fraction | ||
P07:CFSN0574 |
land_binary_mask | ||
P07:CFSN0576 |
land_ice_area_fraction | ||
P07:CFSN0584 |
land_ice_sigma_coordinate | ||
P07:CFSN0592 |
large_scale_cloud_area_fraction | ||
P07:CFSN0601 |
leaf_area_index | ||
P07:G1N8HPK6 |
left_singular_vector_of_remote_sensing_averaging_kernel_of_logarithm_of_mole_fraction_of_methane_in_air | ||
P07:00DLLYK5 |
left_singular_vector_of_remote_sensing_averaging_kernel_of_mole_fraction_of_methane_in_air | ||
P07:91ED54E3 |
liquid_water_cloud_area_fraction | ||
P07:RH61M1BL |
liquid_water_cloud_area_fraction_in_atmosphere_layer | ||
P07:1U1P3ED5 |
location_test_quality_flag | ||
P07:HDDAAAHH |
low_type_cloud_area_fraction | ||
P07:CF12N326 |
mass_fraction_of_acetic_acid_in_air | ||
P07:CF12N327 |
mass_fraction_of_aceto_nitrile_in_air | ||
P07:CF12N328 |
mass_fraction_of_alkanes_in_air | ||
P07:CF12N329 |
mass_fraction_of_alkenes_in_air | ||
P07:CF12N330 |
mass_fraction_of_alpha_hexachlorocyclohexane_in_air | ||
P07:CF12N331 |
mass_fraction_of_alpha_pinene_in_air | ||
P07:CF12N332 |
mass_fraction_of_ammonia_in_air | ||
P07:CFSN0788 |
mass_fraction_of_ammonium_dry_aerosol_in_air | ||
P07:7QGQFIQV |
mass_fraction_of_ammonium_dry_aerosol_particles_in_air | ||
P07:CF12N333 |
mass_fraction_of_anthropogenic_nmvoc_expressed_as_carbon_in_air | ||
P07:CF12N334 |
mass_fraction_of_aromatic_compounds_in_air | ||
P07:CF12N335 |
mass_fraction_of_atomic_bromine_in_air | ||
P07:CF12N336 |
mass_fraction_of_atomic_chlorine_in_air | ||
P07:CF12N337 |
mass_fraction_of_atomic_nitrogen_in_air | ||
P07:CF12N338 |
mass_fraction_of_benzene_in_air | ||
P07:CF12N339 |
mass_fraction_of_beta_pinene_in_air | ||
P07:CF12N340 |
mass_fraction_of_biogenic_nmvoc_expressed_as_carbon_in_air | ||
P07:CFSN0789 |
mass_fraction_of_black_carbon_dry_aerosol_in_air | ||
P07:CF12N341 |
mass_fraction_of_bromine_chloride_in_air | ||
P07:CF12N342 |
mass_fraction_of_bromine_monoxide_in_air | ||
P07:CF12N343 |
mass_fraction_of_bromine_nitrate_in_air | ||
P07:CF12N344 |
mass_fraction_of_brox_expressed_as_bromine_in_air | ||
P07:CF12N345 |
mass_fraction_of_butane_in_air | ||
P07:CF12N346 |
mass_fraction_of_carbon_dioxide_in_air | ||
P07:J3GXAOH3 |
mass_fraction_of_carbon_dioxide_tracer_in_air | ||
P07:CF12N347 |
mass_fraction_of_carbon_monoxide_in_air | ||
P07:CF12N348 |
mass_fraction_of_carbon_tetrachloride_in_air | ||
P07:CF12N350 |
mass_fraction_of_cfc113_in_air | ||
P07:CF12N351 |
mass_fraction_of_cfc113a_in_air | ||
P07:CF12N352 |
mass_fraction_of_cfc114_in_air | ||
P07:CF12N353 |
mass_fraction_of_cfc115_in_air | ||
P07:CF12N349 |
mass_fraction_of_cfc11_in_air | ||
P07:CF12N354 |
mass_fraction_of_cfc12_in_air | ||
P07:CF12N355 |
mass_fraction_of_chlorine_dioxide_in_air | ||
P07:CF12N356 |
mass_fraction_of_chlorine_monoxide_in_air | ||
P07:CF12N357 |
mass_fraction_of_chlorine_nitrate_in_air | ||
P07:ORZ7DVDT |
mass_fraction_of_chlorophyll_a_in_sea_water | ||
P07:P9XAB8CM |
mass_fraction_of_clay_in_soil | ||
P07:CFSN0531 |
mass_fraction_of_cloud_condensed_water_in_air | ||
P07:CFSN0532 |
mass_fraction_of_cloud_ice_in_air | ||
P07:CFSN0533 |
mass_fraction_of_cloud_liquid_water_in_air | ||
P07:CF12N358 |
mass_fraction_of_clox_expressed_as_chlorine_in_air | ||
P07:CFV8NS1 |
mass_fraction_of_convective_cloud_condensed_water_in_air | ||
P07:CFSN0534 |
mass_fraction_of_convective_cloud_ice_in_air | ||
P07:CFSN0535 |
mass_fraction_of_convective_cloud_liquid_water_in_air | ||
P07:CF12N359 |
mass_fraction_of_dichlorine_peroxide_in_air | ||
P07:CFSN0537 |
mass_fraction_of_dimethyl_sulfide_in_air | ||
P07:CF12N360 |
mass_fraction_of_dinitrogen_pentoxide_in_air | ||
P07:CFSN0790 |
mass_fraction_of_dust_dry_aerosol_in_air | ||
P07:KBOQ4L1S |
mass_fraction_of_dust_dry_aerosol_particles_in_air | ||
P07:EDUTEJ6O |
mass_fraction_of_elemental_carbon_dry_aerosol_particles_in_air | ||
P07:CF12N361 |
mass_fraction_of_ethane_in_air | ||
P07:CF12N362 |
mass_fraction_of_ethanol_in_air | ||
P07:CF12N363 |
mass_fraction_of_ethene_in_air | ||
P07:CF12N364 |
mass_fraction_of_ethyne_in_air | ||
P07:CF12N365 |
mass_fraction_of_formaldehyde_in_air | ||
P07:CF12N366 |
mass_fraction_of_formic_acid_in_air | ||
P07:CFSN0538 |
mass_fraction_of_frozen_water_in_soil_moisture | ||
P07:CF12N367 |
mass_fraction_of_gaseous_divalent_mercury_in_air | ||
P07:CF12N368 |
mass_fraction_of_gaseous_elemental_mercury_in_air | ||
P07:CV47QYMG |
mass_fraction_of_graupel_and_hail_in_air | ||
P07:CFSN0539 |
mass_fraction_of_graupel_in_air | ||
P07:BX9QJR9J |
mass_fraction_of_gravel_in_soil | ||
P07:XA00ZM9D |
mass_fraction_of_hail_in_air | ||
P07:CF12N369 |
mass_fraction_of_halon1202_in_air | ||
P07:CF12N370 |
mass_fraction_of_halon1211_in_air | ||
P07:CF12N371 |
mass_fraction_of_halon1301_in_air | ||
P07:CF12N372 |
mass_fraction_of_halon2402_in_air | ||
P07:CF12N373 |
mass_fraction_of_hcc140a_in_air | ||
P07:CF12N374 |
mass_fraction_of_hcfc141b_in_air | ||
P07:CF12N375 |
mass_fraction_of_hcfc142b_in_air | ||
P07:CF12N376 |
mass_fraction_of_hcfc22_in_air | ||
P07:CF12N377 |
mass_fraction_of_hexachlorobiphenyl_in_air | ||
P07:CF12N378 |
mass_fraction_of_hox_expressed_as_hydrogen_in_air | ||
P07:CF12N379 |
mass_fraction_of_hydrogen_bromide_in_air | ||
P07:CF12N380 |
mass_fraction_of_hydrogen_chloride_in_air | ||
P07:CF12N381 |
mass_fraction_of_hydrogen_cyanide_in_air | ||
P07:CF12N382 |
mass_fraction_of_hydrogen_peroxide_in_air | ||
P07:CF12N383 |
mass_fraction_of_hydroperoxyl_radical_in_air | ||
P07:CF12N384 |
mass_fraction_of_hydroxyl_radical_in_air | ||
P07:CF12N385 |
mass_fraction_of_hypobromous_acid_in_air | ||
P07:CF12N386 |
mass_fraction_of_hypochlorous_acid_in_air | ||
P07:CF12N387 |
mass_fraction_of_inorganic_bromine_in_air | ||
P07:CF12N388 |
mass_fraction_of_inorganic_chlorine_in_air | ||
P07:CF12N389 |
mass_fraction_of_isoprene_in_air | ||
P07:CF12N390 |
mass_fraction_of_limonene_in_air | ||
P07:57TUBKUQ |
mass_fraction_of_liquid_precipitation_in_air | ||
P07:CFSN0791 |
mass_fraction_of_mercury_dry_aerosol_in_air | ||
P07:IKWO62WV |
mass_fraction_of_mercury_dry_aerosol_particles_in_air | ||
P07:CF12N391 |
mass_fraction_of_methane_in_air | ||
P07:TGN7JAU8 |
mass_fraction_of_methanesulfonic_acid_dry_aerosol_particles_in_air | ||
P07:CF12N392 |
mass_fraction_of_methanol_in_air | ||
P07:CF12N393 |
mass_fraction_of_methyl_bromide_in_air | ||
P07:CF12N394 |
mass_fraction_of_methyl_chloride_in_air | ||
P07:CF12N395 |
mass_fraction_of_methyl_hydroperoxide_in_air | ||
P07:CF12N396 |
mass_fraction_of_methyl_peroxy_radical_in_air | ||
P07:CF12N397 |
mass_fraction_of_molecular_hydrogen_in_air | ||
P07:CFSN0792 |
mass_fraction_of_nitrate_dry_aerosol_in_air | ||
P07:6RWOHGO9 |
mass_fraction_of_nitrate_dry_aerosol_particles_in_air | ||
P07:CF12N398 |
mass_fraction_of_nitrate_radical_in_air | ||
P07:CF12N399 |
mass_fraction_of_nitric_acid_in_air | ||
P07:CF12N400 |
mass_fraction_of_nitric_acid_trihydrate_ambient_aerosol_in_air | ||
P07:MX090E9Y |
mass_fraction_of_nitric_acid_trihydrate_ambient_aerosol_particles_in_air | ||
P07:CF12N401 |
mass_fraction_of_nitrogen_dioxide_in_air | ||
P07:CF12N402 |
mass_fraction_of_nitrogen_monoxide_in_air | ||
P07:CF12N403 |
mass_fraction_of_nitrous_acid_in_air | ||
P07:CF12N404 |
mass_fraction_of_nitrous_oxide_in_air | ||
P07:CF12N405 |
mass_fraction_of_nmvoc_expressed_as_carbon_in_air | ||
P07:CF12N406 |
mass_fraction_of_nox_expressed_as_nitrogen_in_air | ||
P07:CF12N407 |
mass_fraction_of_noy_expressed_as_nitrogen_in_air | ||
P07:HAAN5RSL |
mass_fraction_of_organic_matter_in_soil | ||
P07:CF12N408 |
mass_fraction_of_oxygenated_hydrocarbons_in_air | ||
P07:CFSN0540 |
mass_fraction_of_ozone_in_air | ||
P07:CFSN0793 |
mass_fraction_of_particulate_organic_matter_dry_aerosol_in_air | ||
P07:6OABDF0Q |
mass_fraction_of_particulate_organic_matter_dry_aerosol_particles_expressed_as_carbon_in_air | ||
P07:5UJSYYVL |
mass_fraction_of_particulate_organic_matter_dry_aerosol_particles_in_air | ||
P07:CF12N409 |
mass_fraction_of_peroxy_radicals_in_air | ||
P07:CF12N410 |
mass_fraction_of_peroxyacetyl_nitrate_in_air | ||
P07:CF12N411 |
mass_fraction_of_peroxynitric_acid_in_air | ||
P07:CFSN0795 |
mass_fraction_of_pm10_aerosol_in_air | ||
P07:CF12S25 |
mass_fraction_of_pm10_ambient_aerosol_in_air | ||
P07:ARL7QV7Y |
mass_fraction_of_pm10_ambient_aerosol_particles_in_air | ||
P07:9QZ2QHB7 |
mass_fraction_of_pm10_ammonium_dry_aerosol_particles_in_air | ||
P07:VBJM9TLW |
mass_fraction_of_pm10_dry_aerosol_particles_in_air | ||
P07:ANXB9UGP |
mass_fraction_of_pm10_dust_dry_aerosol_particles_in_air | ||
P07:V6QCY6T5 |
mass_fraction_of_pm10_elemental_carbon_dry_aerosol_particles_in_air | ||
P07:NES6QEUW |
mass_fraction_of_pm10_nitrate_dry_aerosol_particles_in_air | ||
P07:XV8G2YEP |
mass_fraction_of_pm10_particulate_organic_matter_dry_aerosol_particles_expressed_as_carbon_in_air | ||
P07:I1LQOQOL |
mass_fraction_of_pm10_particulate_organic_matter_dry_aerosol_particles_in_air | ||
P07:4H65VZPH |
mass_fraction_of_pm10_primary_particulate_organic_matter_dry_aerosol_particles_in_air | ||
P07:TTP6IXMO |
mass_fraction_of_pm10_sea_salt_dry_aerosol_particles_expressed_as_cations_in_air | ||
P07:H00S0SMG |
mass_fraction_of_pm10_sea_salt_dry_aerosol_particles_in_air | ||
P07:CWT9D7KY |
mass_fraction_of_pm10_sulfate_dry_aerosol_particles_in_air | ||
P07:CFSN0794 |
mass_fraction_of_pm1_aerosol_in_air | ||
P07:CF12S24 |
mass_fraction_of_pm1_ambient_aerosol_in_air | ||
P07:A8WMKTJ0 |
mass_fraction_of_pm1_ambient_aerosol_particles_in_air | ||
P07:P4RQBVV8 |
mass_fraction_of_pm1_dry_aerosol_particles_in_air | ||
P07:CFSN0796 |
mass_fraction_of_pm2p5_aerosol_in_air | ||
P07:CF12S26 |
mass_fraction_of_pm2p5_ambient_aerosol_in_air | ||
P07:GFVM4F3K |
mass_fraction_of_pm2p5_ambient_aerosol_particles_in_air | ||
P07:7YP3AA62 |
mass_fraction_of_pm2p5_ammonium_dry_aerosol_particles_in_air | ||
P07:GVM5787K |
mass_fraction_of_pm2p5_dry_aerosol_particles_in_air | ||
P07:O4THGLE3 |
mass_fraction_of_pm2p5_dust_dry_aerosol_particles_in_air | ||
P07:VUKDVF70 |
mass_fraction_of_pm2p5_elemental_carbon_dry_aerosol_particles_in_air | ||
P07:2B2GSLXR |
mass_fraction_of_pm2p5_nitrate_dry_aerosol_particles_in_air | ||
P07:QDRZ34AJ |
mass_fraction_of_pm2p5_particulate_organic_matter_dry_aerosol_particles_expressed_as_carbon_in_air | ||
P07:079HT6L5 |
mass_fraction_of_pm2p5_particulate_organic_matter_dry_aerosol_particles_in_air | ||
P07:I7TP4Z8H |
mass_fraction_of_pm2p5_primary_particulate_organic_matter_dry_aerosol_particles_in_air | ||
P07:M1RA6M3C |
mass_fraction_of_pm2p5_sea_salt_dry_aerosol_particles_expressed_as_cations_in_air | ||
P07:1R2FRHAH |
mass_fraction_of_pm2p5_sea_salt_dry_aerosol_particles_in_air | ||
P07:C2WKGUFT |
mass_fraction_of_pm2p5_sulfate_dry_aerosol_particles_in_air | ||
P07:CFSN0541 |
mass_fraction_of_precipitation_in_air | ||
P07:CFSN0797 |
mass_fraction_of_primary_particulate_organic_matter_dry_aerosol_in_air | ||
P07:PDWSOGYJ |
mass_fraction_of_primary_particulate_organic_matter_dry_aerosol_particles_in_air | ||
P07:CF12N412 |
mass_fraction_of_propane_in_air | ||
P07:CF12N413 |
mass_fraction_of_propene_in_air | ||
P07:CF12N414 |
mass_fraction_of_radon_in_air | ||
P07:IECJ4WAM |
mass_fraction_of_rain_and_drizzle_in_air | ||
P07:CFSN0542 |
mass_fraction_of_rain_in_air | ||
P07:SZ9GHK1M |
mass_fraction_of_rainfall_falling_onto_surface_snow | ||
P07:QYA7ZFMF |
mass_fraction_of_sand_in_soil | ||
P07:VBJFQAS9 |
mass_fraction_of_sea_salt_dry_aerosol_particles_expressed_as_cations_in_air | ||
P07:1IRVLFFX |
mass_fraction_of_sea_salt_dry_aerosol_particles_in_air | ||
P07:CFSN0798 |
mass_fraction_of_seasalt_dry_aerosol_in_air | ||
P07:GMFCAI5Q |
mass_fraction_of_seasalt_dry_aerosol_particles_in_air | ||
P07:CFSN0799 |
mass_fraction_of_secondary_particulate_organic_matter_dry_aerosol_in_air | ||
P07:RNVB2L9N |
mass_fraction_of_secondary_particulate_organic_matter_dry_aerosol_particles_in_air | ||
P07:0WTCM5TN |
mass_fraction_of_shallow_convective_cloud_liquid_water_in_air | ||
P07:5PJT1ZMA |
mass_fraction_of_silt_in_soil | ||
P07:CFSN0543 |
mass_fraction_of_snow_in_air | ||
P07:DE12EGZX |
mass_fraction_of_solid_precipitation_falling_onto_surface_snow | ||
P07:CFSN0544 |
mass_fraction_of_stratiform_cloud_ice_in_air | ||
P07:CFSN0545 |
mass_fraction_of_stratiform_cloud_liquid_water_in_air | ||
P07:CFSN0800 |
mass_fraction_of_sulfate_dry_aerosol_in_air | ||
P07:3UGROHS3 |
mass_fraction_of_sulfate_dry_aerosol_particles_in_air | ||
P07:CFSN0546 |
mass_fraction_of_sulfur_dioxide_in_air | ||
P07:CF12N415 |
mass_fraction_of_sulfuric_acid_in_air | ||
P07:CF12N416 |
mass_fraction_of_terpenes_in_air | ||
P07:CF12N417 |
mass_fraction_of_toluene_in_air | ||
P07:CFSN0547 |
mass_fraction_of_unfrozen_water_in_soil_moisture | ||
P07:CFSN0548 |
mass_fraction_of_water_in_air | ||
P07:CFSN0801 |
mass_fraction_of_water_in_ambient_aerosol_in_air | ||
P07:UJWSGQ2N |
mass_fraction_of_water_in_ambient_aerosol_particles_in_air | ||
P07:P94M93AS |
mass_fraction_of_water_in_pm10_ambient_aerosol_particles_in_air | ||
P07:EF6TBF9F |
mass_fraction_of_water_in_pm2p5_ambient_aerosol_particles_in_air | ||
P07:CF12N418 |
mass_fraction_of_xylene_in_air | ||
P07:Y7NOULT3 |
mass_ratio_of_moisture_to_dry_soil | ||
P07:FFIBGAFG |
medium_type_cloud_area_fraction | ||
P07:5L1T2OVM |
minimum_mass_ratio_of_water_to_dry_soil_for_soil_plastic_behavior | ||
P07:ZVTMSND1 |
minimum_mass_ratio_of_water_to_dry_soil_for_soil_viscous_flow | ||
P07:CFSN0549 |
model_level_number | ||
P07:CFV10N20 |
model_level_number_at_base_of_ocean_mixed_layer_defined_by_sigma_theta | ||
P07:CFSN0550 |
model_level_number_at_convective_cloud_base | ||
P07:CFSN0551 |
model_level_number_at_convective_cloud_top | ||
P07:CFV10N21 |
model_level_number_at_sea_floor | ||
P07:CFSN0552 |
model_level_number_at_top_of_atmosphere_boundary_layer | ||
P07:6B3KYNGV |
modified_fosberg_fire_weather_index | ||
P07:3N2L16JR |
modis_cloud_area_fraction | ||
P07:OKOVAI5O |
modis_ice_topped_cloud_area_fraction | ||
P07:I49JSQC6 |
modis_liquid_topped_cloud_area_fraction | ||
P07:UBNDM2MJ |
mole_fraction_of_acetaldehyde_in_air | ||
P07:CF12N510 |
mole_fraction_of_acetic_acid_in_air | ||
P07:CF12N511 |
mole_fraction_of_aceto_nitrile_in_air | ||
P07:0BANM54Q |
mole_fraction_of_acetone_in_air | ||
P07:GCCDGGCA |
mole_fraction_of_aldehydes_in_air | ||
P07:HGGIACEG |
mole_fraction_of_alkanes_in_air | ||
P07:7KBKC1NS |
mole_fraction_of_alkenes_in_air | ||
P07:CFSN0811 |
mole_fraction_of_alpha_hexachlorocyclohexane_in_air | ||
P07:CF12N512 |
mole_fraction_of_alpha_pinene_in_air | ||
P07:CF12N513 |
mole_fraction_of_ammonia_in_air | ||
P07:CF12N514 |
mole_fraction_of_anthropogenic_nmvoc_expressed_as_carbon_in_air | ||
P07:DZ3BYFZL |
mole_fraction_of_artificial_tracer_with_fixed_lifetime_in_air | ||
P07:CFV8N10 |
mole_fraction_of_atomic_bromine_in_air | ||
P07:CFV8N11 |
mole_fraction_of_atomic_chlorine_in_air | ||
P07:CFV8N12 |
mole_fraction_of_atomic_nitrogen_in_air | ||
P07:CFV7N46 |
mole_fraction_of_benzene_in_air | ||
P07:CF12N515 |
mole_fraction_of_beta_pinene_in_air | ||
P07:CF12N516 |
mole_fraction_of_biogenic_nmvoc_expressed_as_carbon_in_air | ||
P07:CFV8N13 |
mole_fraction_of_bromine_chloride_in_air | ||
P07:CFV8N14 |
mole_fraction_of_bromine_monoxide_in_air | ||
P07:CFV8N15 |
mole_fraction_of_bromine_nitrate_in_air | ||
P07:CF12N517 |
mole_fraction_of_brox_expressed_as_bromine_in_air | ||
P07:CF12N518 |
mole_fraction_of_butane_in_air | ||
P07:CFV7N47 |
mole_fraction_of_carbon_dioxide_in_air | ||
P07:GAXBFKR9 |
mole_fraction_of_carbon_dioxide_in_dry_air | ||
P07:CFSN0812 |
mole_fraction_of_carbon_monoxide_in_air | ||
P07:8RT94HBX |
mole_fraction_of_carbon_monoxide_in_dry_air | ||
P07:CFV8N16 |
mole_fraction_of_carbon_tetrachloride_in_air | ||
P07:GYGQPPOA |
mole_fraction_of_carbon_tetrafluoride_in_air | ||
P07:JEB22TKP |
mole_fraction_of_carbonyl_fluoride_in_air | ||
P07:Y8LMUTED |
mole_fraction_of_carbonyl_sulfide_in_air | ||
P07:CFV8N18 |
mole_fraction_of_cfc113_in_air | ||
P07:CFV8N19 |
mole_fraction_of_cfc113a_in_air | ||
P07:CFV8N20 |
mole_fraction_of_cfc114_in_air | ||
P07:CFV8N21 |
mole_fraction_of_cfc115_in_air | ||
P07:CFV8N17 |
mole_fraction_of_cfc11_in_air | ||
P07:CFV8N22 |
mole_fraction_of_cfc12_in_air | ||
P07:B79DQ8TZ |
mole_fraction_of_cfc13_in_air | ||
P07:CFV11S2 |
mole_fraction_of_chlorine_dioxide_in_air | ||
P07:CFV11S3 |
mole_fraction_of_chlorine_monoxide_in_air | ||
P07:CFV8N25 |
mole_fraction_of_chlorine_nitrate_in_air | ||
P07:M97DOKAK |
mole_fraction_of_chloroform_in_air | ||
P07:CF12N519 |
mole_fraction_of_clox_expressed_as_chlorine_in_air | ||
P07:CGAFCEHA |
mole_fraction_of_dichlorine_in_air | ||
P07:CFV11S4 |
mole_fraction_of_dichlorine_peroxide_in_air | ||
P07:LCZWET9R |
mole_fraction_of_dichloromethane_in_air | ||
P07:CFSN0813 |
mole_fraction_of_dimethyl_sulfide_in_air | ||
P07:CFV8N27 |
mole_fraction_of_dinitrogen_pentoxide_in_air | ||
P07:CFV7N48 |
mole_fraction_of_ethane_in_air | ||
P07:CF12N520 |
mole_fraction_of_ethanol_in_air | ||
P07:CFV7N49 |
mole_fraction_of_ethene_in_air | ||
P07:CFV7N50 |
mole_fraction_of_ethyne_in_air | ||
P07:CFV7N51 |
mole_fraction_of_formaldehyde_in_air | ||
P07:CF12N521 |
mole_fraction_of_formic_acid_in_air | ||
P07:CFV7N52 |
mole_fraction_of_gaseous_divalent_mercury_in_air | ||
P07:CFV7N53 |
mole_fraction_of_gaseous_elemental_mercury_in_air | ||
P07:Y4E46BJR |
mole_fraction_of_glyoxal_in_air | ||
P07:CFV8N28 |
mole_fraction_of_halon1202_in_air | ||
P07:CFV8N29 |
mole_fraction_of_halon1211_in_air | ||
P07:CFV8N30 |
mole_fraction_of_halon1301_in_air | ||
P07:CFV8N31 |
mole_fraction_of_halon2402_in_air | ||
P07:CF12N522 |
mole_fraction_of_hcc140a_in_air | ||
P07:VZ8ASN37 |
mole_fraction_of_hcfc124_in_air | ||
P07:CL1JLKLJ |
mole_fraction_of_hcfc132b_in_air | ||
P07:S2L9T054 |
mole_fraction_of_hcfc133a_in_air | ||
P07:CF12N523 |
mole_fraction_of_hcfc141b_in_air | ||
P07:CF12N524 |
mole_fraction_of_hcfc142b_in_air | ||
P07:CF12N525 |
mole_fraction_of_hcfc22_in_air | ||
P07:CFSN0814 |
mole_fraction_of_hexachlorobiphenyl_in_air | ||
P07:EWMAPRJO |
mole_fraction_of_hfc125_in_air | ||
P07:BU0SQG0F |
mole_fraction_of_hfc134a_in_air | ||
P07:1UCLCK0S |
mole_fraction_of_hfc143a_in_air | ||
P07:8V0G6IXE |
mole_fraction_of_hfc152a_in_air | ||
P07:RAO97MVK |
mole_fraction_of_hfc227ea_in_air | ||
P07:042CV38X |
mole_fraction_of_hfc236fa_in_air | ||
P07:XQNX4ZZ3 |
mole_fraction_of_hfc23_in_air | ||
P07:IBLOP51J |
mole_fraction_of_hfc245fa_in_air | ||
P07:CJ1SCFXE |
mole_fraction_of_hfc32_in_air | ||
P07:GRA5B5ST |
mole_fraction_of_hfc365mfc_in_air | ||
P07:LTWDCI0A |
mole_fraction_of_hfc4310mee_in_air | ||
P07:CF12N526 |
mole_fraction_of_hox_expressed_as_hydrogen_in_air | ||
P07:CFV8N32 |
mole_fraction_of_hydrogen_bromide_in_air | ||
P07:CFV8N33 |
mole_fraction_of_hydrogen_chloride_in_air | ||
P07:CFV8N34 |
mole_fraction_of_hydrogen_cyanide_in_air | ||
P07:CFV8N35 |
mole_fraction_of_hydrogen_peroxide_in_air | ||
P07:CADJBCCG |
mole_fraction_of_hydrogen_sulfide_in_air | ||
P07:CFV8N36 |
mole_fraction_of_hydroperoxyl_radical_in_air | ||
P07:CFSN0815 |
mole_fraction_of_hydroxyl_radical_in_air | ||
P07:CFV8N37 |
mole_fraction_of_hypobromous_acid_in_air | ||
P07:CFV11S5 |
mole_fraction_of_hypochlorous_acid_in_air | ||
P07:CF12S33 |
mole_fraction_of_inorganic_bromine_in_air | ||
P07:CFV8N39 |
mole_fraction_of_inorganic_chlorine_in_air | ||
P07:CFV7N54 |
mole_fraction_of_isoprene_in_air | ||
P07:CF12N527 |
mole_fraction_of_limonene_in_air | ||
P07:CFV7N55 |
mole_fraction_of_methane_in_air | ||
P07:760D4K7J |
mole_fraction_of_methane_in_dry_air | ||
P07:CF12N528 |
mole_fraction_of_methanol_in_air | ||
P07:HDFFIHBC |
mole_fraction_of_methlyglyoxal_in_air | ||
P07:CFV8N40 |
mole_fraction_of_methyl_bromide_in_air | ||
P07:CFV8N41 |
mole_fraction_of_methyl_chloride_in_air | ||
P07:CFV8N42 |
mole_fraction_of_methyl_hydroperoxide_in_air | ||
P07:CF12N529 |
mole_fraction_of_methyl_peroxy_radical_in_air | ||
P07:ML5LCAE4 |
mole_fraction_of_methylglyoxal_in_air | ||
P07:CFV8N43 |
mole_fraction_of_molecular_hydrogen_in_air | ||
P07:CF12N530 |
mole_fraction_of_nitrate_radical_in_air | ||
P07:CFSN0816 |
mole_fraction_of_nitric_acid_in_air | ||
P07:CF12N531 |
mole_fraction_of_nitric_acid_trihydrate_ambient_aerosol_in_air | ||
P07:URGNWFUF |
mole_fraction_of_nitric_acid_trihydrate_ambient_aerosol_particles_in_air | ||
P07:CFSN0817 |
mole_fraction_of_nitrogen_dioxide_in_air | ||
P07:CFSN0818 |
mole_fraction_of_nitrogen_monoxide_in_air | ||
P07:1X7MO7TH |
mole_fraction_of_nitrogen_trifluoride_in_air | ||
P07:CF12N532 |
mole_fraction_of_nitrous_acid_in_air | ||
P07:CFV8N44 |
mole_fraction_of_nitrous_oxide_in_air | ||
P07:M8TGRULE |
mole_fraction_of_nitrous_oxide_in_dry_air | ||
P07:CF12N533 |
mole_fraction_of_nmvoc_expressed_as_carbon_in_air | ||
P07:CF12N534 |
mole_fraction_of_nox_expressed_as_nitrogen_in_air | ||
P07:CF12N535 |
mole_fraction_of_noy_expressed_as_nitrogen_in_air | ||
P07:XALF0BMD |
mole_fraction_of_organic_nitrates_in_air | ||
P07:E51UYNQI |
mole_fraction_of_ox_in_air | ||
P07:CFSN0513 |
mole_fraction_of_ozone_in_air | ||
P07:XK25S2YP |
mole_fraction_of_perchloroethene_in_air | ||
P07:CFSN0820 |
mole_fraction_of_peroxyacetyl_nitrate_in_air | ||
P07:CFV8N45 |
mole_fraction_of_peroxynitric_acid_in_air | ||
P07:BTBIQPHD |
mole_fraction_of_pfc116_in_air | ||
P07:CNZT2ZMQ |
mole_fraction_of_pfc218_in_air | ||
P07:KD40CHA6 |
mole_fraction_of_pfc318_in_air | ||
P07:CFV7N56 |
mole_fraction_of_propane_in_air | ||
P07:CFV7N57 |
mole_fraction_of_propene_in_air | ||
P07:CF12N536 |
mole_fraction_of_radon_in_air | ||
P07:CFSN0821 |
mole_fraction_of_sulfur_dioxide_in_air | ||
P07:49ICY8QO |
mole_fraction_of_sulfur_hexafluoride_in_air | ||
P07:9O4GJXPD |
mole_fraction_of_sulfuryl_fluoride_in_air | ||
P07:CFV7N58 |
mole_fraction_of_toluene_in_air | ||
P07:CFV8N46 |
mole_fraction_of_total_inorganic_bromine_in_air | ||
P07:CFV8N47 |
mole_fraction_of_total_reactive_nitrogen_in_air | ||
P07:CFV8N48 |
mole_fraction_of_water_vapor_in_air | ||
P07:CFV7N59 |
mole_fraction_of_xylene_in_air | ||
P07:CF12N537 |
mole_ratio_of_nitrate_to_phosphate_in_sea_water | ||
P07:6P7MT1WN |
multi_variate_test_quality_flag | ||
P07:3ZX9BPRR |
neighbor_test_quality_flag | ||
P07:OK7Z6IG0 |
nfdrs_burning_index | ||
P07:WMDR89AT |
nfdrs_severe_fire_danger_index | ||
P07:9UY49M39 |
nitrogen_growth_limitation_of_calcareous_phytoplankton | ||
P07:GWTPAK6W |
nitrogen_growth_limitation_of_diatoms | ||
P07:S0J575JU |
nitrogen_growth_limitation_of_diazotrophic_phytoplankton | ||
P07:19AADTTA |
nitrogen_growth_limitation_of_diazotrophs | ||
P07:J961T8J3 |
nitrogen_growth_limitation_of_miscellaneous_phytoplankton | ||
P07:UE639GE7 |
nitrogen_growth_limitation_of_picophytoplankton | ||
P07:CFSN0775 |
normalized_difference_vegetation_index | ||
P07:CFV13N11 |
number_of_days_with_air_temperature_above_threshold | ||
P07:CFV13N12 |
number_of_days_with_air_temperature_below_threshold | ||
P07:CFV13N13 |
number_of_days_with_lwe_thickness_of_precipitation_amount_above_threshold | ||
P07:Z0QXDO4I |
number_of_days_with_surface_temperature_below_threshold | ||
P07:CFV13N14 |
number_of_days_with_wind_speed_above_threshold | ||
P07:IHYPC47B |
number_of_missing_observations | ||
P07:EPC34CZ8 |
number_of_observations | ||
P07:90AFXCPV |
ocean_double_sigma_coordinate | ||
P07:CFSN0472 |
ocean_s_coordinate | ||
P07:XRN901TU |
ocean_s_coordinate_g1 | ||
P07:AHGD87DI |
ocean_s_coordinate_g2 | ||
P07:CFSN0473 |
ocean_sigma_coordinate | ||
P07:3HWMM33G |
ocean_sigma_z_coordinate | ||
P07:CFSN0475 |
ocean_volume_fraction | ||
P07:CFSN0478 |
optical_thickness_of_atmosphere_layer_due_to_aerosol | ||
P07:CFV13A5 |
optical_thickness_of_atmosphere_layer_due_to_ambient_aerosol | ||
P07:BLJKADJX |
optical_thickness_of_atmosphere_layer_due_to_ambient_aerosol_particles | ||
P07:CFSN2203 |
permafrost_area_fraction | ||
P07:CFSN0479 |
planetary_albedo | ||
P07:3U841HOA |
probability_distribution_of_wind_from_direction_over_time | ||
P07:SXAR4CDU |
proportion_of_acceptable_signal_returns_from_acoustic_instrument_in_sea_water | ||
P07:0O77RYX8 |
quality_flag | ||
P07:55WE8US9 |
rank_of_remote_sensing_averaging_kernel_of_logarithm_of_mole_fraction_of_methane_in_air | ||
P07:U4W9W0WQ |
rank_of_remote_sensing_averaging_kernel_of_mole_fraction_of_methane_in_air | ||
P07:APJWQEQV |
rate_of_change_test_quality_flag | ||
P07:9PMQJPRZ |
ratio_of_ice_volume_in_frozen_ground_to_pore_volume_in_unfrozen_ground | ||
P07:CFSN0411 |
realization | ||
P07:CFSN0413 |
relative_humidity | ||
P07:9E76O6TE |
relative_humidity_for_aerosol_particle_size_selection | ||
P07:5QAZTACX |
remote_sensing_averaging_kernel_of_logarithm_of_mole_fraction_of_methane_in_air | ||
P07:DQZZZ923 |
remote_sensing_averaging_kernel_of_mole_fraction_of_methane_in_air | ||
P07:CFV10N33 |
richardson_number_in_sea_water | ||
P07:3AWXTX3S |
right_singular_vector_of_remote_sensing_averaging_kernel_of_logarithm_of_mole_fraction_of_methane_in_air | ||
P07:7QWVMGLE |
right_singular_vector_of_remote_sensing_averaging_kernel_of_mole_fraction_of_methane_in_air | ||
P07:CA8V57UH |
scene_type_of_dvorak_tropical_cyclone_cloud_region | ||
P07:PJ3UQFTI |
scene_type_of_dvorak_tropical_cyclone_eye_region | ||
P07:CFSN0419 |
sea_area_fraction | ||
P07:NK7W2T5M |
sea_binary_mask | ||
P07:CFV10N34 |
sea_ice_albedo | ||
P07:CFSN0424 |
sea_ice_area_fraction | ||
P07:2GCI5QBG |
sea_ice_basal_drag_coefficient_for_momentum_in_sea_water | ||
P07:CFV16A36 |
sea_ice_salinity | ||
P07:85ISLTTF |
sea_surface_mean_square_crosswave_slope | ||
P07:CLERVFHJ |
sea_surface_mean_square_upwave_slope | ||
P07:CFSN0376 |
sea_surface_salinity | ||
P07:RJVTH20O |
sea_surface_wave_maximum_steepness | ||
P07:Y7OPS9U4 |
sea_surface_wave_mean_square_slope | ||
P07:RK9C1CMU |
sea_surface_wave_mean_square_x_slope | ||
P07:MD1VQZV3 |
sea_surface_wave_mean_square_y_slope | ||
P07:ZJ6XEK2Y |
sea_water_ph_abiotic_analogue_reported_on_total_scale | ||
P07:7NJ6MEE6 |
sea_water_ph_natural_analogue_reported_on_total_scale | ||
P07:CF14N56 |
sea_water_ph_reported_on_total_scale | ||
P07:IADIHDIJ |
sea_water_practical_salinity | ||
P07:Z13QZFMP |
sea_water_practical_salinity_at_sea_floor | ||
P07:CFSN0331 |
sea_water_salinity | ||
P07:KFHXV8N9 |
sea_water_salinity_at_sea_floor | ||
P07:7B3X6L2J |
sea_water_turbidity | ||
P07:OEVX57HN |
sea_water_volume_fraction | ||
P07:CFV16A41 |
shallow_convection_time_fraction | ||
P07:U3HLI1KX |
signal_intensity_from_multibeam_acoustic_doppler_velocity_sensor_in_sea_water | ||
P07:I3YXAZMK |
single_scattering_albedo_in_air_due_to_ambient_aerosol_particles | ||
P07:B2PEL2WX |
singular_value_of_remote_sensing_averaging_kernel_mole_fraction_of_methane_in_air | ||
P07:JCUHVGTD |
singular_value_of_remote_sensing_averaging_kernel_of_logarithm_of_mole_fraction_of_methane_in_air | ||
P07:77KW4GRD |
snow_area_fraction_viewable_from_above | ||
P07:CFSN0345 |
soil_albedo | ||
P07:CFSN0351 |
soil_porosity | ||
P07:GAGPRVHP |
soil_water_ph | ||
P07:WO8GKMFX |
soil_water_salinity | ||
P07:CFSN0313 |
specific_humidity | ||
P07:G0DMEMEL |
spike_test_quality_flag | ||
P07:BKHRL40U |
square_of_sea_surface_salinity | ||
P07:NH835ZLS |
status_flag | ||
P07:CFV15A12 |
stratiform_cloud_area_fraction | ||
P07:CFSN0324 |
stratiform_cloud_area_fraction_in_atmosphere_layer | ||
P07:CF12N590 |
stratiform_cloud_longwave_emissivity | ||
P07:2781WEYZ |
stratosphere_optical_thickness_due_to_ambient_aerosol_particles | ||
P07:HKGQA2QF |
stratosphere_optical_thickness_due_to_sulfate_ambient_aerosol_particles | ||
P07:3YBJPWG7 |
stratosphere_optical_thickness_due_to_volcanic_ambient_aerosol_particles | ||
P07:CF12N591 |
sunlit_binary_mask | ||
P07:CFSN0328 |
surface_albedo | ||
P07:CFSN0289 |
surface_albedo_assuming_deep_snow | ||
P07:CFSN0290 |
surface_albedo_assuming_no_snow | ||
P07:CFV10N43 |
surface_backwards_scattering_coefficient_of_radar_wave | ||
P07:BBAEEEBE |
surface_bidirectional_reflectance | ||
P07:IC5SICQL |
surface_diffuse_shortwave_hemispherical_reflectance | ||
P07:IFVYXD3A |
surface_direct_shortwave_hemispherical_reflectance | ||
P07:CFSN0263 |
surface_drag_coefficient_for_heat_in_air | ||
P07:CFSN0264 |
surface_drag_coefficient_for_momentum_in_air | ||
P07:CFSN0265 |
surface_drag_coefficient_in_air | ||
P07:CF12N594 |
surface_longwave_emissivity | ||
P07:CF12N595 |
surface_microwave_emissivity | ||
P07:CFSN0251 |
surface_snow_area_fraction | ||
P07:EEFIEJID |
surface_snow_binary_mask | ||
P07:CFSN0224 |
surface_specific_humidity | ||
P07:VJ1PUAOC |
syntax_test_quality_flag | ||
P07:CFSN0114 |
thunderstorm_probability | ||
P07:CF12N789 |
toa_bidirectional_reflectance | ||
P07:WYB1LR85 |
ultraviolet_index | ||
P07:MXPA4R9T |
ultraviolet_index_assuming_clear_sky | ||
P07:PRLBXY56 |
ultraviolet_index_assuming_overcast_sky | ||
P07:CFSN0090 |
vegetation_area_fraction | ||
P07:HWVJLD32 |
volume_extinction_angstrom_exponent_in_air_due_to_ambient_aerosol_particles | ||
P07:CFSN0067 |
volume_fraction_of_clay_in_soil | ||
P07:CFSNA042 |
volume_fraction_of_condensed_water_in_soil | ||
P07:CFSNA043 |
volume_fraction_of_condensed_water_in_soil_at_critical_point | ||
P07:CFSNA044 |
volume_fraction_of_condensed_water_in_soil_at_field_capacity | ||
P07:CFSNA045 |
volume_fraction_of_condensed_water_in_soil_at_wilting_point | ||
P07:CFSN0826 |
volume_fraction_of_condensed_water_in_soil_pores | ||
P07:CFSN0068 |
volume_fraction_of_frozen_water_in_soil | ||
P07:CF12N801 |
volume_fraction_of_oxygen_in_sea_water | ||
P07:AW6GVC8E |
volume_fraction_of_pelite_in_sea_floor_sediment | ||
P07:CFSN0069 |
volume_fraction_of_sand_in_soil | ||
P07:CFSN0070 |
volume_fraction_of_silt_in_soil | ||
P07:G54IR8IP |
volume_fraction_of_water_in_soil_at_saturation | ||
P07:CFSN0074 |
volume_mixing_ratio_of_oxygen_at_stp_in_sea_water | ||
P01 BODC Parameter Usage Vocabulary - (1165) [+] | |||
P01:GA2CFSV1 |
1st order directional energy distribution Fourier cosine coefficient of waves {A1} on the water body by waverider and computation from horizontal co-spectra translation after Kuik et al. (1988) | ||
P01:GB2CFSV1 |
1st order directional energy distribution Fourier sine coefficient of waves {B1} on the water body by waverider and computation from horizontal co-spectra translation after Kuik et al. (1988) | ||
P01:GA2CFS01 |
2nd order directional energy distribution Fourier cosine coefficient of waves {A2} on the water body by computation from horizontal co-spectra translation after Kuik et al. (1988) | ||
P01:GA2CFSV2 |
2nd order directional energy distribution Fourier cosine coefficient of waves {A2} on the water body by waverider and computation from horizontal co-spectra translation after Kuik et al. (1988) | ||
P01:GB2CFS01 |
2nd order directional energy distribution Fourier sine coefficient of waves {B2} on the water body by computation from horizontal co-spectra translation after Kuik et al. (1988) | ||
P01:GB2CFSV2 |
2nd order directional energy distribution Fourier sine coefficient of waves {B2} on the water body by waverider and computation from horizontal co-spectra translation after Kuik et al. (1988) | ||
P01:NTESWA01 |
Absorbance of electromagnetic radiation (unspecified single wavelength) {light absorbance} by the water body [dissolved plus reactive particulate phase] | ||
P01:XKEYZZ01 |
Access control key | ||
P01:SALINACC |
Accuracy of salinity in the water body | ||
P01:APO77005 |
Activity ratio of polonium-210/lead-210 {210Po/210Pb} in the water body [dissolved plus reactive particulate <0.4/0.45um phase] by filtration, acidification and alpha spectroscopy | ||
P01:RA226228 |
Activity ratio of radium-228/radium-226 {228Ra/226Ra} in the water body [dissolved plus reactive particulate phase] | ||
P01:THRTAPXT |
Activity ratio of thorium-230/thorium-232 {230Th/232Th} in the sediment by digestion, purification, plating and alpha spectroscopy | ||
P01:ARTH02MS |
Activity ratio of thorium-232/thorium-230 {232Th/230Th} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, acidification and inductively-coupled plasma mass spectrometry | ||
P01:ARTHTTMS |
Activity ratio of thorium-232/thorium-230 {232Th/230Th} in the water body [dissolved plus reactive particulate phase] by acidification and inductively-coupled plasma mass spectrometry | ||
P01:URATAPXT |
Activity ratio of uranium-234/uranium-238 {234U/238U} in the sediment by digestion, purification, plating and alpha spectroscopy | ||
P01:ARURXX03 |
Activity ratio of uranium-238/uranium-236 {238U/236U} in the water body [dissolved plus reactive particulate <unknown phase] | ||
P01:APO77006 |
Activity ratio standard deviation of polonium-210/lead-210 {210Po/210Pb} in the water body [dissolved plus reactive particulate <0.4/0.45um phase] by filtration, acidification and alpha spectroscopy | ||
P01:ARURXX04 |
Activity ratio standard deviation of uranium-238/uranium-236 {238U/236U} in the water body [dissolved plus reactive particulate <unknown phase] | ||
P01:R226228E |
Activity ratio standard error of radium-228/radium-226 {228Ra/226Ra} in the water body [dissolved plus reactive particulate phase] | ||
P01:SETRAPXT |
Activity ratio standard error of thorium-230/thorium-232 {230Th/232Th} in the sediment by digestion, purification, plating and alpha spectroscopy | ||
P01:ARTH02SD |
Activity ratio standard error of thorium-232/thorium-230 {232Th/230Th} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, acidification and inductively-coupled plasma mass spectrometry | ||
P01:ARTHTTSD |
Activity ratio standard error of thorium-232/thorium-230 {232Th/230Th} in the water body [dissolved plus reactive particulate phase] by acidification and inductively-coupled plasma mass spectrometry | ||
P01:SEURAPXT |
Activity ratio standard error of uranium-234/uranium-238 {234U/238U} in the sediment by digestion, purification, plating and alpha spectroscopy | ||
P01:IORTAMDP |
Atomic ratio of iodine-129/iodine-127 {129I/127I} in the water body [dissolved plus reactive particulate phase] by AgI precipitation and accelerator mass spectrometry | ||
P01:ARPBAP03 |
Atomic ratio of lead-206/lead-204 {206Pb/204Pb} in the atmosphere [aerosol phase] | ||
P01:ARPBX203 |
Atomic ratio of lead-206/lead-204 {206Pb/204Pb} in the water body [dissolved plus reactive particulate <0.2um phase] | ||
P01:ARPBXX03 |
Atomic ratio of lead-206/lead-204 {206Pb/204Pb} in the water body [dissolved plus reactive particulate phase] | ||
P01:ARPBAP01 |
Atomic ratio of lead-206/lead-207 {206Pb/207Pb} in the atmosphere [aerosol phase] | ||
P01:ARPBX201 |
Atomic ratio of lead-206/lead-207 {206Pb/207Pb} in the water body [dissolved plus reactive particulate <0.2um phase] | ||
P01:PB67MSD2 |
Atomic ratio of lead-206/lead-207 {206Pb/207Pb} in the water body [dissolved plus reactive particulate <0.4/0.45um phase] by filtration and inductively-coupled plasma mass spectrometry | ||
P01:ARPBXX01 |
Atomic ratio of lead-206/lead-207 {206Pb/207Pb} in the water body [dissolved plus reactive particulate phase] | ||
P01:PB67MSP2 |
Atomic ratio of lead-206/lead-207 {206Pb/207Pb} in the water body [particulate >0.4/0.45um phase] by filtration and inductively-coupled plasma mass spectrometry | ||
P01:ARPBAP07 |
Atomic ratio of lead-207/lead-204 {207Pb/204Pb} in the atmosphere [aerosol phase] | ||
P01:ARPBXX07 |
Atomic ratio of lead-207/lead-204 {207Pb/204Pb} in the water body [dissolved plus reactive particulate phase] | ||
P01:ARPBAP09 |
Atomic ratio of lead-208/lead-204 {208Pb/204Pb} in the atmosphere [aerosol phase] | ||
P01:ARPBXX09 |
Atomic ratio of lead-208/lead-204 {208Pb/204Pb} in the water body [dissolved plus reactive particulate phase] | ||
P01:ARPBXX11 |
Atomic ratio of lead-208/lead-206 {208Pb/206Pb} in the water body [dissolved plus reactive particulate phase] | ||
P01:ARPBAP05 |
Atomic ratio of lead-208/lead-207 {208Pb/207Pb} in the atmosphere [aerosol phase] | ||
P01:ARPBX205 |
Atomic ratio of lead-208/lead-207 {208Pb/207Pb} in the water body [dissolved plus reactive particulate <0.2um phase] | ||
P01:ARPBXX05 |
Atomic ratio of lead-208/lead-207 {208Pb/207Pb} in the water body [dissolved plus reactive particulate phase] | ||
P01:ARNDAP01 |
Atomic ratio of neodymium-143/neodymium-144 {143Nd/144Nd} in the atmosphere [aerosol phase] | ||
P01:ISMJUN01 |
Atomic ratio of organic carbon/nitrogen {Corg/N} in the sediment | ||
P01:ISMA1502 |
Atomic ratio of organic carbon/nitrogen {Corg/N} in the suspended particulate material | ||
P01:ARPBAP13 |
Atomic ratio standard deviation of lead-206/lead-204 {206Pb/204Pb} in the atmosphere [aerosol phase] | ||
P01:ARPBAP11 |
Atomic ratio standard deviation of lead-206/lead-207 {206Pb/207Pb} in the atmosphere [aerosol phase] | ||
P01:ARPBXX13 |
Atomic ratio standard deviation of lead-206/lead-207 {206Pb/207Pb} in the water body [dissolved plus reactive particulate phase] | ||
P01:ARPBAP17 |
Atomic ratio standard deviation of lead-207/lead-204 {207Pb/204Pb} in the atmosphere [aerosol phase] | ||
P01:ARPBAP19 |
Atomic ratio standard deviation of lead-208/lead-204 {208Pb/204Pb} in the atmosphere [aerosol phase] | ||
P01:ARPBAP15 |
Atomic ratio standard deviation of lead-208/lead-207 {208Pb/207Pb} in the atmosphere [aerosol phase] | ||
P01:ARPBXX14 |
Atomic ratio standard deviation of lead-208/lead-207 {208Pb/207Pb} in the water body [dissolved plus reactive particulate phase] | ||
P01:ARNDAP11 |
Atomic ratio standard deviation of neodymium-143/neodymium-144 {143Nd/144Nd} in the atmosphere [aerosol phase] | ||
P01:SEIRAMDP |
Atomic ratio standard error of iodine-129/iodine-127 {129I/127I} in the water body [dissolved plus reactive particulate phase] by AgI precipitation and accelerator mass spectrometry | ||
P01:ARPBXX04 |
Atomic ratio uncertainty of lead-206/lead-204 {206Pb/204Pb} in the water body [dissolved plus reactive particulate phase] | ||
P01:ARPBXX02 |
Atomic ratio uncertainty of lead-206/lead-207 {206Pb/207Pb} in the water body [dissolved plus reactive particulate phase] | ||
P01:ARPBXX08 |
Atomic ratio uncertainty of lead-207/lead-204 {207Pb/204Pb} in the water body [dissolved plus reactive particulate phase] | ||
P01:ARPBXX10 |
Atomic ratio uncertainty of lead-208/lead-204 {208Pb/204Pb} in the water body [dissolved plus reactive particulate phase] | ||
P01:ARPBXX12 |
Atomic ratio uncertainty of lead-208/lead-206 {208Pb/206Pb} in the water body [dissolved plus reactive particulate phase] | ||
P01:ARPBXX06 |
Atomic ratio uncertainty of lead-208/lead-207 {208Pb/207Pb} in the water body [dissolved plus reactive particulate phase] | ||
P01:GAINFRXX |
Automatic gain factor by in-situ fast repetition rate fluorometer (FRRF) | ||
P01:BATHYCOR |
Bathymetry correction (sound velocity GSC0) | ||
P01:BINNUMBR |
Bin number | ||
P01:FIRSEQID |
Bottle firing sequence number | ||
P01:ROSPOSID |
Bottle rosette position identifier | ||
P01:NTFEZZ01 |
Calibration fit error of nitrate {NO3- CAS 14797-55-8} in the water body | ||
P01:ARAYELID |
Cell identifier | ||
P01:GM2CFA01 |
Centred 2nd order directional energy distribution Fourier cosine coefficient of waves on the water body by computation from horizontal co-spectra translation after Kuik et al. (1988) | ||
P01:GN2CFA01 |
Centred 2nd order directional energy distribution Fourier sine coefficient of waves on the water body | ||
P01:CIEXAA01 |
CIE tristimulus value X (CIE 1931 XYZ colour space) of the sediment by calculated using CIE algorithm with 2 degree standard observer and D65 illuminant | ||
P01:CIEYAA01 |
CIE tristimulus value Y (CIE 1931 XYZ colour space) of the sediment by calculated using CIE algorithm with 2 degree standard observer and D65 illuminant | ||
P01:CIEZAA01 |
CIE tristimulus value Z (CIE 1931 XYZ colour space) of the sediment by calculated using CIE algorithm with 2 degree standard observer and D65 illuminant | ||
P01:CIEAAA01 |
CIELAB coordinate a* (CIELAB 1976 colour space) of the sediment by calculated using CIE algorithm with 2 degree standard observer and D65 illuminant | ||
P01:CIEBAA01 |
CIELAB coordinate b* (CIELAB 1976 colour space) of the sediment by calculated using CIE algorithm with 2 degree standard observer and D65 illuminant | ||
P01:CIELAA01 |
CIELAB coordinate L* (CIELAB 1976 colour space) of the sediment by calculated using CIE algorithm with 2 degree standard observer and D65 illuminant | ||
P01:WMOCCBLW |
Cloud base altitude in the atmosphere by visual estimation and conversion to WMO code | ||
P01:WMOCCCAC |
Cloud cover (all clouds) in the atmosphere by visual estimation and conversion to WMO code | ||
P01:WMOCCCLM |
Cloud cover (low and middle clouds) in the atmosphere by visual estimation and conversion to WMO code | ||
P01:WMOCCTAC |
Cloud type (all clouds) in the atmosphere by visual estimation and conversion to WMO code | ||
P01:WMOCCTHC |
Cloud type (high clouds) in the atmosphere by visual estimation and conversion to WMO code | ||
P01:WMOCCTLC |
Cloud type (low clouds) in the atmosphere by visual estimation and conversion to WMO code | ||
P01:WMOCCTMC |
Cloud type (middle clouds) in the atmosphere by visual estimation and conversion to WMO code | ||
P01:COLCOPT1 |
Colour (Pt/Co scale) of water in the water body | ||
P01:CLFORULE |
Colour of the water body by visual estimation and conversion to a number on the Forel-Ule scale | ||
P01:COFLPP01 |
Constant in-vivo fluorescence (chlorophyll) of the water body by in-situ pump and probe chlorophyll fluorometer | ||
P01:CRSECTID |
Core section identifier | ||
P01:CFACZZ01 |
Correlation factor of acoustic signal returns from the bed by altimeter | ||
P01:CMAGZZ05 |
Correlation magnitude of acoustic signal returns from the water body by acoustic doppler current profiler (ADCP) vertical beam | ||
P01:CMAGZZ01 |
Correlation magnitude of acoustic signal returns from the water body by moored acoustic doppler current profiler (ADCP) beam 1 | ||
P01:CMAGZZ02 |
Correlation magnitude of acoustic signal returns from the water body by moored acoustic doppler current profiler (ADCP) beam 2 | ||
P01:CMAGZZ03 |
Correlation magnitude of acoustic signal returns from the water body by moored acoustic doppler current profiler (ADCP) beam 3 | ||
P01:CMAGZZ04 |
Correlation magnitude of acoustic signal returns from the water body by moored acoustic doppler current profiler (ADCP) beam 4 | ||
P01:SOVO0001 |
Count (breeding pairs) of biological entity specified elsewhere | ||
P01:SB852109 |
Count (in assayed sample) of Calanus (ITIS: 85263: WoRMS 104152) [Stage: adult Sex: female] | ||
P01:O6A929A7 |
Count (in assayed sample) of Calanus (ITIS: 85263: WoRMS 104152) [Stage: adult Sex: male] | ||
P01:D420585B |
Count (in assayed sample) of Calanus (ITIS: 85263: WoRMS 104152) [Stage: copepodites C1] | ||
P01:U4A96348 |
Count (in assayed sample) of Calanus (ITIS: 85263: WoRMS 104152) [Stage: copepodites C2] | ||
P01:S762500B |
Count (in assayed sample) of Calanus (ITIS: 85263: WoRMS 104152) [Stage: copepodites C3] | ||
P01:S21915A3 |
Count (in assayed sample) of Calanus (ITIS: 85263: WoRMS 104152) [Stage: copepodites C4] | ||
P01:E1889AB8 |
Count (in assayed sample) of Calanus (ITIS: 85263: WoRMS 104152) [Stage: copepodites C5] | ||
P01:D0A44418 |
Count (in assayed sample) of Calanus (ITIS: 85263: WoRMS 104152) [Stage: nauplii N1-N3] | ||
P01:KB4A2718 |
Count (in assayed sample) of Calanus (ITIS: 85263: WoRMS 104152) [Stage: nauplii N4-N6] | ||
P01:T4826222 |
Count (in assayed sample) of Calanus finmarchicus (ITIS: 85272: WoRMS 104464) [Stage: adult Sex: female] | ||
P01:W96955A8 |
Count (in assayed sample) of Calanus finmarchicus (ITIS: 85272: WoRMS 104464) [Stage: adult Sex: male] | ||
P01:WBA08759 |
Count (in assayed sample) of Calanus finmarchicus (ITIS: 85272: WoRMS 104464) [Stage: adult] | ||
P01:G399BAB1 |
Count (in assayed sample) of Calanus finmarchicus (ITIS: 85272: WoRMS 104464) [Stage: copepodites C1] | ||
P01:Q7675340 |
Count (in assayed sample) of Calanus finmarchicus (ITIS: 85272: WoRMS 104464) [Stage: copepodites C2] | ||
P01:QB90B864 |
Count (in assayed sample) of Calanus finmarchicus (ITIS: 85272: WoRMS 104464) [Stage: copepodites C3] | ||
P01:AAB63431 |
Count (in assayed sample) of Calanus finmarchicus (ITIS: 85272: WoRMS 104464) [Stage: copepodites C4] | ||
P01:L55A0448 |
Count (in assayed sample) of Calanus finmarchicus (ITIS: 85272: WoRMS 104464) [Stage: copepodites C5] | ||
P01:NMSMP005 |
Count (in assayed sample) of Cerastoderma glaucum (ITIS: 205619: WoRMS 138999) | ||
P01:NMSMP004 |
Count (in assayed sample) of Cercopagis pengoi (ITIS: 684625: WoRMS 234025) | ||
P01:NUMB1319 |
Count (in assayed sample) of Clupea harengus (ITIS: 161722: WoRMS 126417) | ||
P01:X2412A9B |
Count (in assayed sample) of Euphausia krohnii (ITIS: 660849: WoRMS 110687) | ||
P01:F87607AA |
Count (in assayed sample) of Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Stage: adult Sex: female Subgroup: with spermatophores or spermatozoa inside the thelycum] | ||
P01:V7917314 |
Count (in assayed sample) of Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Stage: adult Sex: female Subgroup: without spermatophores] | ||
P01:HA0A31B6 |
Count (in assayed sample) of Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Stage: adult Sex: female] | ||
P01:Z8186694 |
Count (in assayed sample) of Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Stage: adult Sex: male Subgroup: with spermatophores at the genital aperture or attached to the petasma] | ||
P01:T917B6A9 |
Count (in assayed sample) of Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Stage: adult Sex: male Subgroup: without external spermatophores] | ||
P01:X826584A |
Count (in assayed sample) of Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Stage: adult Sex: male] | ||
P01:B85A9341 |
Count (in assayed sample) of Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Stage: juvenile+sub-adult Sex: female] | ||
P01:B9472805 |
Count (in assayed sample) of Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Stage: juvenile] | ||
P01:D30B3217 |
Count (in assayed sample) of Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Stage: sub-adult Sex: female] | ||
P01:T4105511 |
Count (in assayed sample) of Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Stage: sub-adult Sex: male] | ||
P01:D100898A |
Count (in assayed sample) of Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Stage: sub-adult+adult Sex: female Subgroup: without spermatophores] | ||
P01:S32AA26A |
Count (in assayed sample) of Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Stage: sub-adult+adult Sex: male Subgroup: without external spermatophores] | ||
P01:NUMB2366 |
Count (in assayed sample) of Gadus morhua (ITIS: 164712: WoRMS 126436) | ||
P01:NMSMP003 |
Count (in assayed sample) of Hediste diversicolor (ITIS: 65991: WoRMS 152302) | ||
P01:NUMB3107 |
Count (in assayed sample) of Limanda limanda (ITIS: 172881: WoRMS 127139) | ||
P01:NMSMP002 |
Count (in assayed sample) of Macoma balthica (ITIS: 567846: WoRMS 141579) | ||
P01:BB786342 |
Count (in assayed sample) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) | ||
P01:X07B7257 |
Count (in assayed sample) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: adult Sex: female Subgroup: with spermatophores or spermatozoa inside the thelycum] | ||
P01:E0B77584 |
Count (in assayed sample) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: adult Sex: female Subgroup: without spermatophores] | ||
P01:X15A4387 |
Count (in assayed sample) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: adult Sex: female] | ||
P01:RB822307 |
Count (in assayed sample) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: adult Sex: male Subgroup: with spermatophores at the genital aperture or attached to the petasma] | ||
P01:Q5647735 |
Count (in assayed sample) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: adult Sex: male Subgroup: without external spermatophores] | ||
P01:K0B79410 |
Count (in assayed sample) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: adult Sex: male] | ||
P01:GAYNORF2 |
Count (in assayed sample) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: indeterminate Sex: indeterminate] | ||
P01:EB252A55 |
Count (in assayed sample) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: juvenile+sub-adult Sex: female] | ||
P01:J5313621 |
Count (in assayed sample) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: juvenile] | ||
P01:M3B07415 |
Count (in assayed sample) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: sub-adult Sex: female] | ||
P01:O0576830 |
Count (in assayed sample) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: sub-adult Sex: male] | ||
P01:Z33495B4 |
Count (in assayed sample) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: sub-adult+adult Sex: female Subgroup: without spermatophores] | ||
P01:Y593986B |
Count (in assayed sample) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: sub-adult+adult Sex: male Subgroup: without external spermatophores] | ||
P01:NMSMP006 |
Count (in assayed sample) of Mya arenaria (ITIS: 81692: WoRMS 140430) | ||
P01:NUMB3538 |
Count (in assayed sample) of Mytilus edulis (ITIS: 79454: WoRMS 140480) | ||
P01:NUMB6661 |
Count (in assayed sample) of Nassarius reticulatus (ITIS: 74123: WoRMS 140513) | ||
P01:I02B907B |
Count (in assayed sample) of Nematobrachion boopis (ITIS: 95537: WoRMS 110691) | ||
P01:O1132620 |
Count (in assayed sample) of Nematobrachion boopis (ITIS: 95537: WoRMS 110691) [Stage: adult Sex: female Subgroup: with spermatophores or spermatozoa inside the thelycum] | ||
P01:N003140A |
Count (in assayed sample) of Nematobrachion boopis (ITIS: 95537: WoRMS 110691) [Stage: adult Sex: female Subgroup: without spermatophores] | ||
P01:H2782A12 |
Count (in assayed sample) of Nematobrachion boopis (ITIS: 95537: WoRMS 110691) [Stage: adult Sex: female] | ||
P01:Q8874857 |
Count (in assayed sample) of Nematobrachion boopis (ITIS: 95537: WoRMS 110691) [Stage: adult Sex: male Subgroup: with spermatophores at the genital aperture or attached to the petasma] | ||
P01:E37148A0 |
Count (in assayed sample) of Nematobrachion boopis (ITIS: 95537: WoRMS 110691) [Stage: adult Sex: male Subgroup: without external spermatophores] | ||
P01:K7789235 |
Count (in assayed sample) of Nematobrachion boopis (ITIS: 95537: WoRMS 110691) [Stage: adult Sex: male] | ||
P01:K43AAB77 |
Count (in assayed sample) of Nematobrachion boopis (ITIS: 95537: WoRMS 110691) [Stage: juvenile+sub-adult Sex: female] | ||
P01:FB710586 |
Count (in assayed sample) of Nematobrachion boopis (ITIS: 95537: WoRMS 110691) [Stage: juvenile] | ||
P01:A42B3B8B |
Count (in assayed sample) of Nematobrachion boopis (ITIS: 95537: WoRMS 110691) [Stage: sub-adult Sex: female] | ||
P01:ZA504A73 |
Count (in assayed sample) of Nematobrachion boopis (ITIS: 95537: WoRMS 110691) [Stage: sub-adult Sex: male] | ||
P01:N19299B5 |
Count (in assayed sample) of Nematobrachion boopis (ITIS: 95537: WoRMS 110691) [Stage: sub-adult] | ||
P01:K5A2BA1A |
Count (in assayed sample) of Nematoscelis megalops (ITIS: 95542: WoRMS 110695) | ||
P01:T3649026 |
Count (in assayed sample) of Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Stage: adult Sex: female Subgroup: with spermatophores or spermatozoa inside the thelycum] | ||
P01:S9B852B1 |
Count (in assayed sample) of Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Stage: adult Sex: female Subgroup: without spermatophores] | ||
P01:ZB8A2015 |
Count (in assayed sample) of Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Stage: adult Sex: female] | ||
P01:W4452808 |
Count (in assayed sample) of Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Stage: adult Sex: male Subgroup: with spermatophores at the genital aperture or attached to the petasma] | ||
P01:A92B6457 |
Count (in assayed sample) of Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Stage: adult Sex: male Subgroup: without external spermatophores] | ||
P01:Q2200894 |
Count (in assayed sample) of Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Stage: adult Sex: male] | ||
P01:W8774058 |
Count (in assayed sample) of Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Stage: juvenile+sub-adult Sex: female] | ||
P01:Y475A430 |
Count (in assayed sample) of Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Stage: juvenile] | ||
P01:S7696408 |
Count (in assayed sample) of Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Stage: sub-adult Sex: female] | ||
P01:L83265A6 |
Count (in assayed sample) of Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Stage: sub-adult Sex: male] | ||
P01:W9071127 |
Count (in assayed sample) of Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Stage: sub-adult+adult Sex: female Subgroup: without spermatophores] | ||
P01:S761AB5B |
Count (in assayed sample) of Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Stage: sub-adult+adult Sex: male Subgroup: without external spermatophores] | ||
P01:TA439675 |
Count (in assayed sample) of Oithona (ITIS: 88802: WoRMS 106485) [Stage: copepodites plus adults] | ||
P01:C7764457 |
Count (in assayed sample) of Oithona (ITIS: 88802: WoRMS 106485) [Stage: copepodites] | ||
P01:R525B372 |
Count (in assayed sample) of Oithona (ITIS: 88802: WoRMS 106485) [Stage: nauplii] | ||
P01:M895695A |
Count (in assayed sample) of Oithona similis (ITIS: 88805: WoRMS 106656) [Sex: female] | ||
P01:NMSMP007 |
Count (in assayed sample) of Osmerus eperlanus (ITIS: 162039: WoRMS 126736) | ||
P01:NMSMP008 |
Count (in assayed sample) of Perca fluviatilis (ITIS: 168470: WoRMS 151353) | ||
P01:NUMB4323 |
Count (in assayed sample) of Platichthys flesus (ITIS: 172894: WoRMS 127141) | ||
P01:NMSMP001 |
Count (in assayed sample) of Saduria entomon (ITIS: 92646: WoRMS 119034) | ||
P01:NMSMP009 |
Count (in assayed sample) of Sprattus sprattus (ITIS: 161789: WoRMS 126425) | ||
P01:N9862714 |
Count (in assayed sample) of Stylocheiron (ITIS: 95556: WoRMS 110678) | ||
P01:B5510857 |
Count (in assayed sample) of Stylocheiron (ITIS: 95556: WoRMS 110678) [Stage: adult Sex: female Subgroup: with spermatophores or spermatozoa inside the thelycum] | ||
P01:A30B0354 |
Count (in assayed sample) of Stylocheiron (ITIS: 95556: WoRMS 110678) [Stage: adult Sex: female Subgroup: without spermatophores] | ||
P01:X886219A |
Count (in assayed sample) of Stylocheiron (ITIS: 95556: WoRMS 110678) [Stage: juvenile] | ||
P01:V7594A35 |
Count (in assayed sample) of Stylocheiron (ITIS: 95556: WoRMS 110678) [Stage: sub-adult Sex: male] | ||
P01:Z1AB233A |
Count (in assayed sample) of Stylocheiron elongatum (ITIS: 95559: WoRMS 110702) [Stage: adult Sex: female] | ||
P01:D920104B |
Count (in assayed sample) of Stylocheiron longicorne (ITIS: 95557: WoRMS 110703) [Stage: adult Sex: female] | ||
P01:A98717A3 |
Count (in assayed sample) of Stylocheiron maximum (ITIS: 95558: WoRMS 110704) [Sex: female] | ||
P01:X5111088 |
Count (in assayed sample) of Stylocheiron maximum (ITIS: 95558: WoRMS 110704) [Stage: adult Sex: female Subgroup: with spermatophores or spermatozoa inside the thelycum] | ||
P01:TA5014B8 |
Count (in assayed sample) of Stylocheiron maximum (ITIS: 95558: WoRMS 110704) [Stage: adult Sex: female Subgroup: without spermatophores] | ||
P01:G2620AB9 |
Count (in assayed sample) of Stylocheiron maximum (ITIS: 95558: WoRMS 110704) [Stage: adult Sex: male Subgroup: without external spermatophores] | ||
P01:L6253210 |
Count (in assayed sample) of Stylocheiron maximum (ITIS: 95558: WoRMS 110704) [Stage: adult Sex: male] | ||
P01:R8194008 |
Count (in assayed sample) of Stylocheiron maximum (ITIS: 95558: WoRMS 110704) [Stage: furcilia] | ||
P01:E10959AB |
Count (in assayed sample) of Stylocheiron maximum (ITIS: 95558: WoRMS 110704) [Stage: juvenile] | ||
P01:D015288A |
Count (in assayed sample) of Stylocheiron maximum (ITIS: 95558: WoRMS 110704) [Stage: sub-adult Sex: female] | ||
P01:PA311136 |
Count (in assayed sample) of Stylocheiron maximum (ITIS: 95558: WoRMS 110704) [Stage: sub-adult Sex: male] | ||
P01:N54449A8 |
Count (in assayed sample) of Stylocheiron maximum (ITIS: 95558: WoRMS 110704) [Stage: sub-adult+adult Sex: male Subgroup: without external spermatophores] | ||
P01:Z006B691 |
Count (in assayed sample) of Thysanoessa inermis (ITIS: 95573: WoRMS 110708) | ||
P01:P8803173 |
Count (in assayed sample) of Thysanoessa inermis (ITIS: 95573: WoRMS 110708) [Stage: adult Sex: female Subgroup: with spermatophores or spermatozoa inside the thelycum] | ||
P01:V1054067 |
Count (in assayed sample) of Thysanoessa inermis (ITIS: 95573: WoRMS 110708) [Stage: adult Sex: female Subgroup: without spermatophores] | ||
P01:S9B89086 |
Count (in assayed sample) of Thysanoessa inermis (ITIS: 95573: WoRMS 110708) [Stage: adult Sex: female] | ||
P01:J0B45481 |
Count (in assayed sample) of Thysanoessa inermis (ITIS: 95573: WoRMS 110708) [Stage: adult Sex: male Subgroup: with spermatophores at the genital aperture or attached to the petasma] | ||
P01:X7A16629 |
Count (in assayed sample) of Thysanoessa inermis (ITIS: 95573: WoRMS 110708) [Stage: adult Sex: male Subgroup: without external spermatophores] | ||
P01:J4733A14 |
Count (in assayed sample) of Thysanoessa inermis (ITIS: 95573: WoRMS 110708) [Stage: adult Sex: male] | ||
P01:HA080024 |
Count (in assayed sample) of Thysanoessa inermis (ITIS: 95573: WoRMS 110708) [Stage: juvenile+sub-adult Sex: female] | ||
P01:Q58A5135 |
Count (in assayed sample) of Thysanoessa inermis (ITIS: 95573: WoRMS 110708) [Stage: juvenile] | ||
P01:R27BB115 |
Count (in assayed sample) of Thysanoessa inermis (ITIS: 95573: WoRMS 110708) [Stage: postlarvae] | ||
P01:D8356521 |
Count (in assayed sample) of Thysanoessa inermis (ITIS: 95573: WoRMS 110708) [Stage: sub-adult Sex: female] | ||
P01:S737A706 |
Count (in assayed sample) of Thysanoessa inermis (ITIS: 95573: WoRMS 110708) [Stage: sub-adult Sex: male] | ||
P01:C0252865 |
Count (in assayed sample) of Thysanoessa inermis (ITIS: 95573: WoRMS 110708) [Stage: sub-adult+adult Sex: female Subgroup: without spermatophores] | ||
P01:B204B1A5 |
Count (in assayed sample) of Thysanoessa inermis (ITIS: 95573: WoRMS 110708) [Stage: sub-adult+adult Sex: male Subgroup: without external spermatophores] | ||
P01:T6A1B0B5 |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) | ||
P01:U5217854 |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Sex: female] | ||
P01:S5174760 |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Sex: male] | ||
P01:D90B5803 |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: adult Sex: female Subgroup: with spermatophores or spermatozoa inside the thelycum] | ||
P01:B22B91B3 |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: adult Sex: female Subgroup: without spermatophores] | ||
P01:X57B8533 |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: adult Sex: female] | ||
P01:J808AB3A |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: adult Sex: male Subgroup: with spermatophores at the genital aperture or attached to the petasma] | ||
P01:J25034B9 |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: adult Sex: male Subgroup: without external spermatophores] | ||
P01:Z1458B28 |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: adult Sex: male] | ||
P01:GAYNORFX |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: indeterminate Sex: indeterminate] | ||
P01:RA232856 |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: juvenile+sub-adult Sex: female] | ||
P01:YB6B2753 |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: juvenile] | ||
P01:G38A46B1 |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: postlarvae+juvenile] | ||
P01:OAB1170A |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: postlarvae] | ||
P01:KB95221A |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: sub-adult Sex: female] | ||
P01:K1720A34 |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: sub-adult Sex: male] | ||
P01:I201925A |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: sub-adult+adult Sex: female Subgroup: without spermatophores] | ||
P01:CA5B5A4B |
Count (in assayed sample) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: sub-adult+adult Sex: male Subgroup: without external spermatophores] | ||
P01:V2138ABB |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) | ||
P01:D81212B7 |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Sex: female] | ||
P01:HA386B19 |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: adult Sex: female Subgroup: with spermatophores or spermatozoa inside the thelycum] | ||
P01:G2565418 |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: adult Sex: female Subgroup: without spermatophores] | ||
P01:Q16B3706 |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: adult Sex: female] | ||
P01:U3694966 |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: adult Sex: male Subgroup: with spermatophores at the genital aperture or attached to the petasma] | ||
P01:K739A236 |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: adult Sex: male Subgroup: without external spermatophores] | ||
P01:G4946532 |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: adult Sex: male] | ||
P01:O357193A |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: furcilia] | ||
P01:W8616461 |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: juvenile+furcilia] | ||
P01:B885A60A |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: juvenile+sub-adult Sex: female] | ||
P01:N2233306 |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: juvenile] | ||
P01:T6B3297A |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: postlarvae+sub-adult Sex: female+indeterminate] | ||
P01:H2300545 |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: postlarvae+sub-adult] | ||
P01:X1909788 |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: postlarvae] | ||
P01:X067220A |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: sub-adult Sex: female] | ||
P01:J11B1B0A |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: sub-adult Sex: male] | ||
P01:V9B80435 |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: sub-adult+adult Sex: female Subgroup: without spermatophores] | ||
P01:NA323461 |
Count (in assayed sample) of Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: sub-adult+adult Sex: male Subgroup: without external spermatophores] | ||
P01:NUMB6621 |
Count (in assayed sample) of Zoarces viviparus (ITIS: 165324: WoRMS 127123) | ||
P01:SOVO0004 |
Count (January) {midwinter count} of biological entity specified elsewhere | ||
P01:CPO08261 |
Count (leaves per shoot) mean of Posidonia oceanica (ITIS: 897411: WoRMS 145794) biota | ||
P01:OCNTMEAN |
Count mean of biological entity specified elsewhere | ||
P01:B008M01Z |
Count of Accipiter gentilis (ITIS: 175300: WoRMS 159104) | ||
P01:B008M02Z |
Count of Accipiter nisus (ITIS: 175333) | ||
P01:PNGCNT01 |
Count of acoustic signal emissions (per ensemble) {pings per ensemble} to the water body by acoustic doppler current profiler (ADCP) | ||
P01:X6185473 |
Count of Actiniaria (ITIS: 52485: WoRMS 1360) [Morphology: ~18 orange tentacles] on the bed by image analysis | ||
P01:P420830B |
Count of Actiniaria (ITIS: 52485: WoRMS 1360) [Size: diameter 15-20cm Morphology: purple tentacles (~60% radius of whole animal) in three whorls of ~20 tentacles, orange oral disc Colour: purple] on the bed by image analysis | ||
P01:L667664B |
Count of Actiniaria (ITIS: 52485: WoRMS 1360) [Size: diameter >20cm Morphology: thin tentacles (~40% radius length) in two whorls of ~15 tentacles each, darker orange mouth Colour: orange] on the bed by image analysis | ||
P01:M874A8B9 |
Count of Actiniaria (ITIS: 52485: WoRMS 1360) [Size: diameter ~10cm Morphology: 12 blue tentacles (length ~4.5cm)] on the bed by image analysis | ||
P01:H25B02B2 |
Count of Actiniaria (ITIS: 52485: WoRMS 1360) [Size: diameter ~10cm Morphology: stalked Colour: white column, brown stalk] on the bed by image analysis | ||
P01:CA7085B0 |
Count of Actiniaria (ITIS: 52485: WoRMS 1360) [Size: diameter ~10cm Morphology: ~3 whorls of tentacles (length 1-2cm) Colour: virtually transparent white] on the bed by image analysis | ||
P01:O3294775 |
Count of Actiniaria (ITIS: 52485: WoRMS 1360) [Size: diameter ~12cm Morphology: 12-18 light and dark coloured tentacles (length ~5cm)] on the bed by image analysis | ||
P01:K0326B2B |
Count of Actiniaria (ITIS: 52485: WoRMS 1360) [Size: diameter ~20cm Morphology: ~30 tentacles (length ~7cm), oval mouth Colour: semi-transparent light brown] on the bed by image analysis | ||
P01:M511045A |
Count of Actiniaria (ITIS: 52485: WoRMS 1360) [Size: diameter ~20cm Morphology: ~50 tentacles (~25% of total diameter) Colour: blue] on the bed by image analysis | ||
P01:Y90B4658 |
Count of Actiniaria (ITIS: 52485: WoRMS 1360) [Size: diameter ~2cm Morphology: ~12 fine feather-like tentacles (length ~4cm), yellow oral disc] on the bed by image analysis | ||
P01:YBB76550 |
Count of Actiniaria (ITIS: 52485: WoRMS 1360) [Size: diameter ~5cm Colour: blue] on the bed by image analysis | ||
P01:S1831195 |
Count of Actiniaria (ITIS: 52485: WoRMS 1360) [Size: diameter ~5cm Colour: white] on the bed by image analysis | ||
P01:E3448780 |
Count of Actiniaria (ITIS: 52485: WoRMS 1360) [Size: diameter ~5cm Morphology: ~12 tentacles (length 1.5cm) Colour: yellow] on the bed by image analysis | ||
P01:I2600811 |
Count of Actiniaria (ITIS: 52485: WoRMS 1360) [Size: diameter ~8cm Morphology: ~40 fine white tentacles (length ~8cm), white oral disc] on the bed by image analysis | ||
P01:S960B040 |
Count of Actiniaria (ITIS: 52485: WoRMS 1360) [Size: length ~7cm Morphology: ~12 tentacles (length 3cm) Colour: purple] on the bed by image analysis | ||
P01:G8751111 |
Count of Actiniaria (ITIS: 52485: WoRMS 1360) on the bed by image analysis | ||
P01:B009M01Z |
Count of Actitis hypoleucos (ITIS: 176613: WoRMS 212603) | ||
P01:B010M01Z |
Count of Aix galericulata (ITIS: 175123: WoRMS 416679) | ||
P01:B011M01Z |
Count of Alca torda (ITIS: 176971: WoRMS 137128) | ||
P01:B012M01Z |
Count of Alcedo atthis (ITIS: 554549) | ||
P01:B013M00Z |
Count of Alcidae (ITIS: 176967: WoRMS 136987) | ||
P01:Q3739B70 |
Count of Alcyonacea (ITIS: 52016: WoRMS 1365) [Size: >15cm Colour: blue] on the bed by image analysis | ||
P01:S2035166 |
Count of Alcyonacea (ITIS: 52016: WoRMS 1365) on the bed by image analysis | ||
P01:B014M01Z |
Count of Alle alle (ITIS: 176982: WoRMS 137129) | ||
P01:B015M01Z |
Count of Alopochen aegyptiacus (ITIS: 553909: WoRMS 416680) | ||
P01:X6A97A97 |
Count of Amauropsis rossiana (WoRMS 197036) on the bed by image analysis | ||
P01:O3320B64 |
Count of Amblyraja (ITIS: 564050: WoRMS 105760) on the bed by image analysis | ||
P01:B016M00Z |
Count of Anas (ITIS: 175062: WoRMS 148788) | ||
P01:B016M01Z |
Count of Anas acuta (ITIS: 175074: WoRMS 158939) | ||
P01:B016M02Z |
Count of Anas clypeata (ITIS: 175096: WoRMS 158941) | ||
P01:B016M03Z |
Count of Anas crecca (ITIS: 175081: WoRMS 158943) | ||
P01:B016M04Z |
Count of Anas penelope (ITIS: 175092: WoRMS 159168) | ||
P01:B016M05Z |
Count of Anas platyrhynchos (ITIS: 175063: WoRMS 148791) | ||
P01:B016M06Z |
Count of Anas querquedula (ITIS: 175093: WoRMS 159169) | ||
P01:B016M07Z |
Count of Anas strepera (ITIS: 175073: WoRMS 159171) | ||
P01:AA241SC1 |
Count of Anguilla anguilla (ITIS: 161128: WoRMS 126281) | ||
P01:B017M01Z |
Count of Anser albifrons (ITIS: 175020: WoRMS 159159) | ||
P01:B017M02Z |
Count of Anser anser (ITIS: 175028: WoRMS 416682) | ||
P01:B017M03Z |
Count of Anser brachyrhynchus (ITIS: 175036: WoRMS 416683) | ||
P01:B017M04Z |
Count of Anser caerulescens (ITIS: 175029) | ||
P01:B017M05Z |
Count of Anser erythropus (ITIS: 175033: WoRMS 416684) | ||
P01:B017M06Z |
Count of Anser fabalis (ITIS: 175024: WoRMS 416685) | ||
P01:B017M07Z |
Count of Anser indicus (ITIS: 175034) | ||
P01:B017M08Z |
Count of Anser rossii (ITIS: 175035) | ||
P01:B018M01Z |
Count of Ardea cinerea (ITIS: 174781: WoRMS 212668) | ||
P01:B018M02Z |
Count of Ardea purpurea (ITIS: 174791: WoRMS 212669) | ||
P01:B019M01Z |
Count of Arenaria interpres (ITIS: 176571: WoRMS 147431) | ||
P01:H177B564 |
Count of Ascidiacea (ITIS: 158854: WoRMS 1839) [Size: length ~7cm Morphology: 2 visible siphons Colour: blue] on the bed by image analysis | ||
P01:B020M01Z |
Count of Asio flammeus (ITIS: 177935: WoRMS 212685) | ||
P01:DB339221 |
Count of Asteroidea (ITIS: 156862: WoRMS 123080) [Morphology: 8 arms] on the bed by image analysis | ||
P01:B7968810 |
Count of Asteroidea (ITIS: 156862: WoRMS 123080) [Size: diameter 10-15cm Colour: white] on the bed by image analysis | ||
P01:R2891872 |
Count of Asteroidea (ITIS: 156862: WoRMS 123080) [Size: diameter 3-5cm Morphology: cushion-like Colour: white] on the bed by image analysis | ||
P01:QBB791B2 |
Count of Asteroidea (ITIS: 156862: WoRMS 123080) [Size: diameter 5-10cm Morphology: angular arms Colour: white] on the bed by image analysis | ||
P01:L1531624 |
Count of Asteroidea (ITIS: 156862: WoRMS 123080) [Size: diameter 5-10cm Morphology: raised parts at centre of arms Colour: white] on the bed by image analysis | ||
P01:Y0A2B142 |
Count of Asteroidea (ITIS: 156862: WoRMS 123080) [Size: diameter 5->10cm Colour: white] on the bed by image analysis | ||
P01:K8BB14B5 |
Count of Asteroidea (ITIS: 156862: WoRMS 123080) [Size: diameter 7-10cm Morphology: arm width 1cm Colour: yellow-white] on the bed by image analysis | ||
P01:BA09040A |
Count of Asteroidea (ITIS: 156862: WoRMS 123080) [Size: diameter ~10cm Colour: orange-red] on the bed by image analysis | ||
P01:MA3A5A37 |
Count of Asteroidea (ITIS: 156862: WoRMS 123080) [Size: diameter ~5cm Colour: white Subgroup: burrowing] on the bed by image analysis | ||
P01:FAA25A05 |
Count of Asteroidea (ITIS: 156862: WoRMS 123080) [Size: diameter ~5cm Colour: white] on the bed by image analysis | ||
P01:TA010109 |
Count of Asteroidea (ITIS: 156862: WoRMS 123080) [Size: diameter ~6cm Colour: pink] on the bed by image analysis | ||
P01:D4460A33 |
Count of Asteroidea (ITIS: 156862: WoRMS 123080) [Size: diameter ~6cm Colour: yellow] on the bed by image analysis | ||
P01:T3B03052 |
Count of Asteroidea (ITIS: 156862: WoRMS 123080) [Size: small Morphology: thick arms] on the bed by image analysis | ||
P01:T34A292A |
Count of Astrotoma agassizii (WoRMS 173167) on the bed by image analysis | ||
P01:B021M00Z |
Count of Aythya (ITIS: 175124: WoRMS 159160) | ||
P01:B021M01Z |
Count of Aythya ferina (ITIS: 175126: WoRMS 232037) | ||
P01:B021M02Z |
Count of Aythya fuligula (ITIS: 175135: WoRMS 159164) | ||
P01:B021M03Z |
Count of Aythya marila (ITIS: 175130: WoRMS 159172) | ||
P01:B021M04Z |
Count of Aythya nyroca (ITIS: 175139: WoRMS 416686) | ||
P01:T57AB349 |
Count of Balaena mysticetus (ITIS: 180533: WoRMS 137086) | ||
P01:U1674A89 |
Count of Balaenoptera (ITIS: 180523: WoRMS 137013) | ||
P01:S81BA2BA |
Count of Balaenoptera acutorostrata (ITIS: 180524: WoRMS 137087) | ||
P01:P790217B |
Count of Balaenoptera physalus (ITIS: 180527: WoRMS 137091) | ||
P01:M1BAB70A |
Count of Bathyplotes bongraini (WoRMS 174113) on the bed by image analysis | ||
P01:OCOUNT01 |
Count of biological entity specified elsewhere | ||
P01:B022M01Z |
Count of Botaurus stellaris (ITIS: 174859: WoRMS 345750) | ||
P01:B023M01Z |
Count of Branta bernicla (ITIS: 175011: WoRMS 159175) | ||
P01:B023M01A |
Count of Branta bernicla hrota (ITIS: 175012) | ||
P01:B023M01B |
Count of Branta bernicla nigricans (ITIS: 714723) | ||
P01:B023M02Z |
Count of Branta canadensis (ITIS: 174999: WoRMS 159176) | ||
P01:B023M03Z |
Count of Branta leucopsis (ITIS: 175014: WoRMS 159177) | ||
P01:B023M04Z |
Count of Branta ruficollis (ITIS: 175015: WoRMS 416687) | ||
P01:B024M01Z |
Count of Bucephala clangula (ITIS: 175141: WoRMS 159197) | ||
P01:B025M01Z |
Count of Buteo buteo (ITIS: 175383) | ||
P01:B025M02Z |
Count of Buteo lagopus (ITIS: 175373: WoRMS 159110) | ||
P01:B026M01Z |
Count of Calcarius lapponicus (ITIS: 179526: WoRMS 383230) | ||
P01:B027M01Z |
Count of Calidris alba (ITIS: 176669: WoRMS 159084) | ||
P01:B027M02Z |
Count of Calidris alpina (ITIS: 176661: WoRMS 159047) | ||
P01:B027M03Z |
Count of Calidris canutus (ITIS: 176642: WoRMS 147433) | ||
P01:B027M04Z |
Count of Calidris ferruginea (ITIS: 176660: WoRMS 159049) | ||
P01:B027M05Z |
Count of Calidris maritima (ITIS: 176646: WoRMS 159052) | ||
P01:B027M06Z |
Count of Calidris minuta (ITIS: 176670: WoRMS 212600) | ||
P01:B027M07Z |
Count of Calidris temminckii (ITIS: 176658: WoRMS 366591) | ||
P01:B028M01Z |
Count of Carduelis flavirostris (ITIS: 559047: WoRMS 232062) | ||
P01:Z2842B2B |
Count of Cephalopoda (ITIS: 82326: WoRMS 11707) [Size: <50cm] on the bed by image analysis | ||
P01:A654095A |
Count of Ceriantharia (ITIS: 51984: WoRMS 1361) [Size: diameter ~10cm Morphology: many brown tentacles] on the bed by image analysis | ||
P01:F8904194 |
Count of Ceriantharia (ITIS: 51984: WoRMS 1361) [Size: open diameter ~20cm Morphology: ~30-40 tentacles visible] on the bed by image analysis | ||
P01:Z8218171 |
Count of Champsocephalus gunnari (ITIS: 642743: WoRMS 234797) on the bed by image analysis | ||
P01:B029M01Z |
Count of Charadrius alexandrinus (ITIS: 176510: WoRMS 212611) | ||
P01:B029M02Z |
Count of Charadrius dubius (ITIS: 176529: WoRMS 212617) | ||
P01:B029M03Z |
Count of Charadrius hiaticula (ITIS: 176504: WoRMS 212619) | ||
P01:COREPT10 |
Count of Chelonia agassizii (ITIS: 202103: WoRMS 343989) | ||
P01:COREPT20 |
Count of Cheloniidae (ITIS: 173828: WoRMS 136999) | ||
P01:B030M01Z |
Count of Chlidonias niger (ITIS: 176959: WoRMS 137137) | ||
P01:K2A64590 |
Count of Chondrocladia gigantea (ITIS: 48279: WoRMS 133185) on the bed by image analysis | ||
P01:E2898515 |
Count of Chronrocladia on the bed by image analysis | ||
P01:B031M01Z |
Count of Ciconia ciconia (ITIS: 174907) | ||
P01:B031M02Z |
Count of Ciconia nigra (ITIS: 174909) | ||
P01:B032M01Z |
Count of Circus aeruginosus (ITIS: 559297) | ||
P01:B032M02Z |
Count of Circus cyaneus (ITIS: 175430: WoRMS 159372) | ||
P01:B032M03Z |
Count of Circus pygargus (ITIS: 175439) | ||
P01:B033M01Z |
Count of Clangula hyemalis (ITIS: 175147: WoRMS 137071) | ||
P01:NCOLIVXX |
Count of colonial individuals per colony of biological entity specified elsewhere | ||
P01:Q92B22A9 |
Count of Colossendeis (WoRMS 134586) on the bed by image analysis | ||
P01:B1774210 |
Count of Comatulida (ITIS: 158545: WoRMS 123093) [Size: diameter >15cm Morphology: 12 rays and dense ray branches] on the bed by image analysis | ||
P01:X0430909 |
Count of Comatulida (ITIS: 158545: WoRMS 123093) [Size: diameter ~15cm Morphology: slender] on the bed by image analysis | ||
P01:B034M01Z |
Count of Corvus corone cornix (WoRMS 232059) | ||
P01:B035M01Z |
Count of Cygnus atratus (ITIS: 553906: WoRMS 225915) | ||
P01:B035M02Z |
Count of Cygnus columbianus (ITIS: 174987: WoRMS 159088) | ||
P01:B035M03Z |
Count of Cygnus cygnus (ITIS: 174990: WoRMS 159089) | ||
P01:B035M04Z |
Count of Cygnus olor (ITIS: 174985: WoRMS 159090) | ||
P01:B036M01Z |
Count of Delphinidae (ITIS: 180415: WoRMS 136980) | ||
P01:B037M01Z |
Count of Delphinus delphis (ITIS: 180438: WoRMS 137094) | ||
P01:S9272731 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Colour: dark yellow-brown Subgroup: encrusting] on the bed by image analysis | ||
P01:Q3685507 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Colour: white Subgroup: encrusting] on the bed by image analysis | ||
P01:K5B21304 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Colour: white] on the bed by image analysis | ||
P01:DB000889 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Size: 10-15cm Morphology: attached centrally, tabular brim overhanging attached part, ear-shaped Colour: white] on the bed by image analysis | ||
P01:F06A5024 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Size: diameter 10-15cm Morphology: attached centrally, tabular brim overhanging attached part, ear-shaped Colour: white] on the bed by image analysis | ||
P01:Q7A05831 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Size: diameter 10-15cm Morphology: spherical Colour: white] on the bed by image analysis | ||
P01:U480282A |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Size: diameter 10cm Morphology: <10 lumps projecting up to 2cm from the body] on the bed by image analysis | ||
P01:L7584071 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Size: diameter ~20cm Morphology: ~0.5cm diameter oscula] on the bed by image analysis | ||
P01:Z73286B2 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Size: diameter ~6cm Morphology: roughly spherical with ~15 evenly-spaced 1cm by 1cm projections Colour: grey] on the bed by image analysis | ||
P01:QB8A9858 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Size: height 10-20cm, diameter ~5cm Morphology: mass of branches Colour: white] on the bed by image analysis | ||
P01:PA107A73 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Size: height ~10cm Morphology: clearly visible oscula (diameter 1-2cm), bottle shaped Colour: white] on the bed by image analysis | ||
P01:M88B469B |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Size: height ~10cm Morphology: grouped and clearly visible oscula (diameter 1-2cm), bottle shaped Colour: white] on the bed by image analysis | ||
P01:A7008775 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Size: height ~10cm, diameter 30cm Morphology: mass of branches Colour: brown] on the bed by image analysis | ||
P01:JB8668B1 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Size: height ~15cm, diameter 5-7cm Morphology: cylindrical main body, 2 ball-like projections on top, roughly bilateral symmetry Colour: white] on the bed by image analysis | ||
P01:O8143864 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Size: height ~15cm, diameter 5cm Morphology: lumps projecting <1cm from body Colour: blue] on the bed by image analysis | ||
P01:O350A8B3 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Size: height ~5cm, diameter ~10cm Morphology: >10 lumps projecting <10cm from body] on the bed by image analysis | ||
P01:OA2A8647 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Size: height ~5cm, diameter ~3cm Morphology: tubular Colour: grey] on the bed by image analysis | ||
P01:M2684522 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Size: thickness <2cm Subgroup: encrusting] on the bed by image analysis | ||
P01:D8266066 |
Count of Demospongiae (ITIS: 47528: WoRMS 164811) [Size: ~5cm Morphology: spherical Colour: dull orange] on the bed by image analysis | ||
P01:UB826352 |
Count of Dodecolopoda mawsoni (WoRMS 173246) on the bed by image analysis | ||
P01:Y625452A |
Count of Dorididae (ITIS: 78206: WoRMS 9904) on the bed by image analysis | ||
P01:D0925104 |
Count of Echinoidea (ITIS: 157821: WoRMS 123082) [Morphology: regular Colour: orange] on the bed by image analysis | ||
P01:B038M01Z |
Count of Egretta alba (ITIS: 174818: WoRMS 212664) | ||
P01:B038M02Z |
Count of Egretta garzetta (ITIS: 174816: WoRMS 159115) | ||
P01:B039M01Z |
Count of Eremophila alpestris (ITIS: 554256: WoRMS 232056) | ||
P01:B040M01Z |
Count of Eudromias morinellus (ITIS: 176547) | ||
P01:A4046B41 |
Count of Eumicrotremus spinosus (ITIS: 167545: WoRMS 127217) on the bed by image analysis | ||
P01:B041M01Z |
Count of Falco columbarius (ITIS: 175613: WoRMS 159152) | ||
P01:B041M02Z |
Count of Falco peregrinus (ITIS: 175604: WoRMS 159153) | ||
P01:B041M03Z |
Count of Falco subbuteo (ITIS: 175654) | ||
P01:B041M04Z |
Count of Falco tinnunculus (ITIS: 175620: WoRMS 345751) | ||
P01:B041M05Z |
Count of Falco vespertinus (ITIS: 175656) | ||
P01:W4278832 |
Count of Feresa attenuata (ITIS: 180461: WoRMS 137095) | ||
P01:B042M01Z |
Count of Fratercula arctica (ITIS: 177025: WoRMS 137131) | ||
P01:V2409007 |
Count of Fregata magnificens (ITIS: 174763: WoRMS 343999) | ||
P01:B043M01Z |
Count of Fulica atra (ITIS: 176290: WoRMS 232054) | ||
P01:B004M01Z |
Count of Fulmarus glacialis (ITIS: 174536: WoRMS 137195) | ||
P01:B044M01Z |
Count of Gallinago gallinago (ITIS: 176700: WoRMS 158949) | ||
P01:B045M01Z |
Count of Gallinula chloropus (ITIS: 176284: WoRMS 159009) | ||
P01:C8221258 |
Count of Gastropoda (ITIS: 69459: WoRMS 101) [Morphology: whelk-like] on the bed by image analysis | ||
P01:S4673937 |
Count of Gastropoda (ITIS: 69459: WoRMS 101) [Morphology: ~4 shell whorl, purple siphon Colour: cream] on the bed by image analysis | ||
P01:B001M00Z |
Count of Gavia (ITIS: 174468: WoRMS 137057) | ||
P01:B001M01Z |
Count of Gavia adamsii (ITIS: 174470: WoRMS 137185) | ||
P01:B001M02Z |
Count of Gavia arctica (ITIS: 174471: WoRMS 137186) | ||
P01:B001M03Z |
Count of Gavia immer (ITIS: 174469: WoRMS 137187) | ||
P01:B001M04Z |
Count of Gavia stellata (ITIS: 174474: WoRMS 137188) | ||
P01:TA337993 |
Count of Globicephala macrorhynchus (ITIS: 180466: WoRMS 137096) | ||
P01:B046M01Z |
Count of Globicephala melas (ITIS: 552461: WoRMS 137097) | ||
P01:G1856712 |
Count of Gorgonacea (ITIS: 52079: WoRMS 1366) on the bed by image analysis | ||
P01:Z1402755 |
Count of Gorgonocephalus (ITIS: 157359: WoRMS 123586) on the bed by image analysis | ||
P01:I49B8563 |
Count of Grampus griseus (ITIS: 180457: WoRMS 137098) | ||
P01:B047M01Z |
Count of Grus grus (ITIS: 176183) | ||
P01:B048M01Z |
Count of Haematopus ostralegus (ITIS: 176469: WoRMS 147436) | ||
P01:B049M01Z |
Count of Haliaeetus albicilla (ITIS: 175419: WoRMS 232053) | ||
P01:GSALLTOT |
Count of Halichoerus grypus (ITIS: 180653: WoRMS 137080) | ||
P01:GSPUPLAN |
Count of Halichoerus grypus (ITIS: 180653: WoRMS 137080) [Stage: pup] out of the water body | ||
P01:GSALLWAT |
Count of Halichoerus grypus (ITIS: 180653: WoRMS 137080) in the water body | ||
P01:GSALLLAN |
Count of Halichoerus grypus (ITIS: 180653: WoRMS 137080) out of the water body | ||
P01:N38245A5 |
Count of Hexactinellida (ITIS: 659131: WoRMS 22612) [Size: diameter 5-10cm Morphology: vase-shaped Colour: light blue] on the bed by image analysis | ||
P01:O66140B1 |
Count of Hexactinellida (ITIS: 659131: WoRMS 22612) [Size: diameter ~5cm Morphology: vase-shaped Colour: yellow] on the bed by image analysis | ||
P01:B050M01Z |
Count of Himantopus himantopus (ITIS: 176727: WoRMS 212609) | ||
P01:K1543B68 |
Count of Hydroida (ITIS: 48740: WoRMS 152195) [Morphology: bottlebrush-like] on the bed by image analysis | ||
P01:A5139965 |
Count of Hymenaster (ITIS: 157097: WoRMS 123333) [Morphology: visible interbrachial membrane] on the bed by image analysis | ||
P01:TBA6861B |
Count of Hymenaster pellucidus (ITIS: 157101: WoRMS 124135) on the bed by image analysis | ||
P01:J7651372 |
Count of Isotealia antarctica (ITIS: 611896: WoRMS 290229) on the bed by image analysis | ||
P01:B9B45306 |
Count of Kirkpatrickia variolosa (WoRMS 169300) on the bed by image analysis | ||
P01:IA895683 |
Count of Labidiaster annulatus (WoRMS 234924) on the bed by image analysis | ||
P01:B051M01Z |
Count of Lagenorhynchus (ITIS: 180441: WoRMS 137020) | ||
P01:B051M02Z |
Count of Lagenorhynchus acutus (ITIS: 180443: WoRMS 137100) | ||
P01:B051M03Z |
Count of Lagenorhynchus albirostris (ITIS: 180442: WoRMS 137101) | ||
P01:B052M00Z |
Count of Laridae (ITIS: 176802: WoRMS 136988) | ||
P01:B053M00Z |
Count of Larus (ITIS: 176803: WoRMS 137043) | ||
P01:B053M01Z |
Count of Larus argentatus (ITIS: 176824: WoRMS 137138) | ||
P01:W9463227 |
Count of Larus atricilla (ITIS: 176837: WoRMS 159074) | ||
P01:B053M02Z |
Count of Larus cachinnans (ITIS: 554270: WoRMS 137140) | ||
P01:B053M03Z |
Count of Larus canus (ITIS: 176832: WoRMS 137141) | ||
P01:B053M04Z |
Count of Larus fuscus (ITIS: 176821: WoRMS 137142) | ||
P01:B053M05Z |
Count of Larus glaucoides (ITIS: 176811: WoRMS 137144) | ||
P01:B053M06Z |
Count of Larus hyperboreus (ITIS: 176808: WoRMS 137145) | ||
P01:B053M07Z |
Count of Larus marinus (ITIS: 176815: WoRMS 137146) | ||
P01:B053M08Z |
Count of Larus melanocephalus (ITIS: 176858: WoRMS 137147) | ||
P01:B053M09Z |
Count of Larus minutus (ITIS: 176840: WoRMS 137148) | ||
P01:B053M10Z |
Count of Larus ridibundus (ITIS: 176835: WoRMS 137149) | ||
P01:B053M11Z |
Count of Larus sabini (ITIS: 176865: WoRMS 137151) | ||
P01:COREPT30 |
Count of Lepidochelys olivacea (ITIS: 173840: WoRMS 220293) | ||
P01:B054M01Z |
Count of Limosa lapponica (ITIS: 176687: WoRMS 159034) | ||
P01:B054M02Z |
Count of Limosa limosa (ITIS: 176691: WoRMS 159035) | ||
P01:H61B7980 |
Count of Luidia (ITIS: 156865: WoRMS 123260) on the bed by image analysis | ||
P01:AA137BB0 |
Count of Lycodes (ITIS: 165255: WoRMS 126104) on the bed by image analysis | ||
P01:B055M01Z |
Count of Lymnocryptes minimus (ITIS: 176591: WoRMS 558755) | ||
P01:J8A16264 |
Count of Lyrocteis flavopallidus (WoRMS 265958) on the bed by image analysis | ||
P01:T354A678 |
Count of Megaptera novaeangliae (ITIS: 180530: WoRMS 137092) | ||
P01:B056M01Z |
Count of Melanitta fusca (ITIS: 175163: WoRMS 137072) | ||
P01:B056M02Z |
Count of Melanitta nigra (ITIS: 175171: WoRMS 137073) | ||
P01:B057M01Z |
Count of Mergus albellus (ITIS: 175190) | ||
P01:B057M02Z |
Count of Mergus merganser (ITIS: 175185: WoRMS 159097) | ||
P01:B057M03Z |
Count of Mergus serrator (ITIS: 175187: WoRMS 159098) | ||
P01:YA85024A |
Count of Mesoplodon peruvianus (ITIS: 552772: WoRMS 231409) | ||
P01:MLITCNTS |
Count of micro-litter particles in the sediment by categorisation using EMODnet chemistry reporting protocol | ||
P01:MLITCNTW |
Count of micro-litter particles in the water body by categorisation using EMODnet chemistry reporting protocol | ||
P01:MLITVOVO |
Count of micro-litter particles in the water body by filtration, ultrasonication extraction and microfluidic flow capillary raman spectroscopy and holography and categorisation using EMODnet chemistry reporting protocol | ||
P01:B058M01Z |
Count of Milvus migrans (ITIS: 175469: WoRMS 212678) | ||
P01:B058M02Z |
Count of Milvus milvus (ITIS: 175470) | ||
P01:FB214679 |
Count of Mysticeti (ITIS: 552298: WoRMS 148724) | ||
P01:B059M03Z |
Count of Netta rufina (ITIS: 175234: WoRMS 416688) | ||
P01:B060M01Z |
Count of Numenius arquata (ITIS: 176596: WoRMS 159037) | ||
P01:B060M02Z |
Count of Numenius phaeopus (ITIS: 176599: WoRMS 159040) | ||
P01:B061M01Z |
Count of Nycticorax nycticorax (ITIS: 174832: WoRMS 159123) | ||
P01:Z96A1232 |
Count of Oceanodroma (ITIS: 174624: WoRMS 137060) | ||
P01:O7859B56 |
Count of Odontaster validus (WoRMS 172775) on the bed by image analysis | ||
P01:P8A5B910 |
Count of Odontoceti (ITIS: 180404: WoRMS 148723) | ||
P01:H7A88703 |
Count of Ophiacantha bidentata (ITIS: 157544: WoRMS 124978) on the bed by image analysis | ||
P01:Y3424B97 |
Count of Ophiactis abyssicola (ITIS: 206827: WoRMS 125109) on the bed by image analysis | ||
P01:MBA7669A |
Count of Ophionotus victoriae (ITIS: 157470: WoRMS 173593) on the bed by image analysis | ||
P01:RB710162 |
Count of Ophioscolex glacialis (ITIS: 157333: WoRMS 125147) on the bed by image analysis | ||
P01:U423A051 |
Count of Ophiuroidea (ITIS: 157325: WoRMS 123084) [Size: diameter 10cm Colour: pink] on the bed by image analysis | ||
P01:I105012A |
Count of Ophiuroidea (ITIS: 157325: WoRMS 123084) [Size: diameter 10cm Colour: white] on the bed by image analysis | ||
P01:VA923386 |
Count of Ophiuroidea (ITIS: 157325: WoRMS 123084) [Size: diameter 5cm Colour: grey] on the bed by image analysis | ||
P01:P8A09221 |
Count of Ophiuroidea (ITIS: 157325: WoRMS 123084) [Size: diameter 5cm Colour: pink] on the bed by image analysis | ||
P01:Q7A98681 |
Count of Ophuria sarsi on the bed by image analysis | ||
P01:N9421078 |
Count of Orcinus orca (ITIS: 180469: WoRMS 137102) | ||
P01:B062M01Z |
Count of Oxyura jamaicensis (ITIS: 175175: WoRMS 159100) | ||
P01:EA813B72 |
Count of Pandalus borealis (ITIS: 96967: WoRMS 107649) on the bed by image analysis | ||
P01:B063M01Z |
Count of Pandion haliaetus (ITIS: 175590: WoRMS 159377) | ||
P01:V0211A11 |
Count of Pectinidae (ITIS: 79611: WoRMS 213) on the bed by image analysis | ||
P01:COREPT40 |
Count of Pelamis (ITIS: 174355: WoRMS 205591) | ||
P01:D6B4704A |
Count of Pelecanus occidentalis (ITIS: 174685: WoRMS 343935) | ||
P01:U63B590B |
Count of Peniagone vignioni (WoRMS 174045) on the bed by image analysis | ||
P01:W47B7B0B |
Count of Pennatulacea (ITIS: 52348: WoRMS 1367) [Size: >20cm Colour: green-brown Subcomponent: primary polyp] on the bed by image analysis | ||
P01:Y3564709 |
Count of Pennatulacea (ITIS: 52348: WoRMS 1367) on the bed by image analysis | ||
P01:B064M01Z |
Count of Pernis apivorus (ITIS: 175454) | ||
P01:O5655816 |
Count of Phalacrocorax (ITIS: 174714: WoRMS 137054) | ||
P01:B007M01Z |
Count of Phalacrocorax aristotelis (ITIS: 174733: WoRMS 137178) | ||
P01:B007M02Z |
Count of Phalacrocorax carbo (ITIS: 174715: WoRMS 137179) | ||
P01:B065M01Z |
Count of Phalaropus lobatus (ITIS: 176735: WoRMS 137169) | ||
P01:B065M02Z |
Count of Phalaropus tricolor (ITIS: 176736: WoRMS 159043) | ||
P01:B066M01Z |
Count of Philomachus pugnax (ITIS: 176695: WoRMS 159046) | ||
P01:B067M01Z |
Count of Phoca vitulina (ITIS: 180649: WoRMS 137084) | ||
P01:B069M01Z |
Count of Phocidae (ITIS: 180640: WoRMS 136976) | ||
P01:B068M01Z |
Count of Phocoena phocoena (ITIS: 180473: WoRMS 137117) | ||
P01:B070M01Z |
Count of Phoenicopterus ruber (ITIS: 174976: WoRMS 212708) | ||
P01:G0520359 |
Count of Physeter macrocephalus (ITIS: 180488: WoRMS 137119) | ||
P01:B071M01Z |
Count of Platalea leucorodia (ITIS: 174933: WoRMS 416678) | ||
P01:B072M01Z |
Count of Plectrophenax nivalis (ITIS: 179532: WoRMS 383228) | ||
P01:B073M01Z |
Count of Pluvialis apricaria (ITIS: 176561: WoRMS 159135) | ||
P01:B073M02Z |
Count of Pluvialis dominica (ITIS: 176564: WoRMS 159136) | ||
P01:B073M05Z |
Count of Pluvialis fulva (ITIS: 554381: WoRMS 232044) | ||
P01:B073M03Z |
Count of Pluvialis squatarola (ITIS: 176567: WoRMS 159137) | ||
P01:B003M01Z |
Count of Podiceps auritus (ITIS: 174482: WoRMS 137181) | ||
P01:B003M02Z |
Count of Podiceps cristatus (ITIS: 174491: WoRMS 137182) | ||
P01:B003M03Z |
Count of Podiceps grisegena (ITIS: 174479: WoRMS 137183) | ||
P01:B003M04Z |
Count of Podiceps nigricollis (ITIS: 174485: WoRMS 137184) | ||
P01:M8410956 |
Count of Poliometra prolixa (WoRMS 124229) on the bed by image analysis | ||
P01:Y8546B4B |
Count of Polychaeta (ITIS: 914166: WoRMS 883) [Morphology: tentacles (length <5cm) in 3 concentric circles] on the bed by image analysis | ||
P01:N76A27B8 |
Count of Polychaeta (ITIS: 914166: WoRMS 883) [Size: length 5-10cm Colour: orange Subgroup: errant] on the bed by image analysis | ||
P01:B9991B88 |
Count of Polychaeta (ITIS: 914166: WoRMS 883) [Size: length ~20cm Morphology: probiscus-like Colour: purple] on the bed by image analysis | ||
P01:V6248843 |
Count of Polyplacophora (ITIS: 78807: WoRMS 55) on the bed by image analysis | ||
P01:B074M01Z |
Count of Polysticta stelleri (ITIS: 175153: WoRMS 232041) | ||
P01:X62B2620 |
Count of Pomachocrinus kerguelensis on the bed by image analysis | ||
P01:W4BA6B07 |
Count of Porania (ITIS: 157143: WoRMS 123320) on the bed by image analysis | ||
P01:M3188854 |
Count of Procellaria parkinsoni (ITIS: 174611: WoRMS 225914) | ||
P01:A97972A6 |
Count of Pseudorca crassidens (ITIS: 180463: WoRMS 137104) | ||
P01:G1ABB3B2 |
Count of Pseudostichopus mollis (ITIS: 158366: WoRMS 152565) on the bed by image analysis | ||
P01:P2669002 |
Count of Pteraster (ITIS: 157107: WoRMS 123335) on the bed by image analysis | ||
P01:M1638896 |
Count of Puffinus (ITIS: 174543: WoRMS 137065) | ||
P01:B005M01Z |
Count of Puffinus griseus (ITIS: 174553: WoRMS 137202) | ||
P01:B005M02Z |
Count of Puffinus puffinus (ITIS: 174555: WoRMS 137203) | ||
P01:B075M01Z |
Count of Rallus aquaticus (ITIS: 176223: WoRMS 416695) | ||
P01:B076M01Z |
Count of Recurvirostra avosetta (ITIS: 176723: WoRMS 212721) | ||
P01:B077M01Z |
Count of Rissa tridactyla (ITIS: 176875: WoRMS 137156) | ||
P01:I3AB696B |
Count of Rossella fibulata (WoRMS 172093) on the bed by image analysis | ||
P01:H5789840 |
Count of Rossella nuda (WoRMS 172101) on the bed by image analysis | ||
P01:N8882040 |
Count of Sabellida (ITIS: 555671: WoRMS 901) [Size: length 5-10cm Morphology: white tube] on the bed by image analysis | ||
P01:S9A08251 |
Count of Sabellida (ITIS: 555671: WoRMS 901) [Size: length <10cm Colour: white] on the bed by image analysis | ||
P01:AS242TR1 |
Count of Salmo salar (ITIS: 161996: WoRMS 127186) [Stage: adult] | ||
P01:ST241SC1 |
Count of Salmo salar (ITIS: 161996: WoRMS 127186) [Stage: smolt] | ||
P01:AT241SC1 |
Count of Salmo trutta (ITIS: 161997: WoRMS 127187) [Stage: adult] | ||
P01:SS242TR1 |
Count of Salmo trutta (ITIS: 161997: WoRMS 127187) [Stage: smolt] | ||
P01:C8138506 |
Count of Scleractinia (ITIS: 52839: WoRMS 1363) [Size: small Morphology: dichotomously branching Colour: white] on the bed by image analysis | ||
P01:B078M01Z |
Count of Scolopax rusticola (ITIS: 176578: WoRMS 159028) | ||
P01:A9241SC1 |
Count of Scomber scombrus (ITIS: 172414: WoRMS 127023) [Stage: eggs] | ||
P01:F8A82146 |
Count of Sepia (ITIS: 82361: WoRMS 138477) on the bed by image analysis | ||
P01:B079M01Z |
Count of Somateria mollissima (ITIS: 175155: WoRMS 137074) | ||
P01:N051B945 |
Count of Staurocumucumis turqueti on the bed by image analysis | ||
P01:M8327763 |
Count of Stenella attenuata (ITIS: 180430: WoRMS 137105) | ||
P01:B6567306 |
Count of Stenella attenuata attenuata (ITIS: 180432: WoRMS 383572) | ||
P01:B1970031 |
Count of Stenella coeruleoalba (ITIS: 180434: WoRMS 137107) | ||
P01:Q14BB268 |
Count of Steno bredanensis (ITIS: 180417: WoRMS 137110) | ||
P01:B080M01Z |
Count of Stercorarius longicaudus (ITIS: 176794: WoRMS 137171) | ||
P01:B080M02Z |
Count of Stercorarius parasiticus (ITIS: 176793: WoRMS 137172) | ||
P01:B080M03Z |
Count of Stercorarius pomarinus (ITIS: 176792: WoRMS 137173) | ||
P01:B080M04Z |
Count of Stercorarius skua (ITIS: 660059: WoRMS 137174) | ||
P01:F20A6764 |
Count of Sterechinus antarcticus (WoRMS 160828) on the bed by image analysis | ||
P01:BIO2M001 |
Count of Sterna (ITIS: 176885: WoRMS 137047) | ||
P01:B081M01Z |
Count of Sterna albifrons (ITIS: 176899: WoRMS 137157) | ||
P01:B081M02Z |
Count of Sterna caspia (ITIS: 176924: WoRMS 137159) | ||
P01:B081M03Z |
Count of Sterna hirundo (ITIS: 176888: WoRMS 137162) | ||
P01:R8529A2B |
Count of Sterna maxima (ITIS: 176922: WoRMS 137163) | ||
P01:B081M04Z |
Count of Sterna paradisaea (ITIS: 176890: WoRMS 137165) | ||
P01:B081M05Z |
Count of Sterna sandvicensis (ITIS: 176927: WoRMS 137166) | ||
P01:B082M00Z |
Count of Sternidae (WoRMS 148764) | ||
P01:W13A2178 |
Count of Stylasterina (ITIS: 718930) on the bed by image analysis | ||
P01:AB5B2379 |
Count of Stylocordyla borealis (ITIS: 204074: WoRMS 134240) on the bed by image analysis | ||
P01:O1704196 |
Count of Sula (ITIS: 174697: WoRMS 137055) | ||
P01:B006M01Z |
Count of Sula bassanus (ITIS: 174711) | ||
P01:O9016397 |
Count of Sula granti (ITIS: 726047: WoRMS 343958) | ||
P01:B7992937 |
Count of Sula leucogaster (ITIS: 174704: WoRMS 212597) | ||
P01:A15985A1 |
Count of Sula nebouxii (ITIS: 174702: WoRMS 343959) | ||
P01:P9356713 |
Count of Synallactidae (ITIS: 158359: WoRMS 123185) on the bed by image analysis | ||
P01:B002M02Z |
Count of Tachybaptus ruficollis (ITIS: 563259: WoRMS 148790) | ||
P01:B083M01Z |
Count of Tadorna ferruginea (ITIS: 175056: WoRMS 416689) | ||
P01:B083M02Z |
Count of Tadorna tadorna (ITIS: 175055: WoRMS 232042) | ||
P01:Y30ABA6A |
Count of Terebellida (ITIS: 555672: WoRMS 900) [Size: maximum length <50cm Morphology: large tentacles trailing on the sediment surface] on the bed by image analysis | ||
P01:A9242TR1 |
Count of Trachurus trachurus (ITIS: 168588: WoRMS 126822) [Stage: eggs] | ||
P01:E43A15A1 |
Count of Trachythyone parva (WoRMS 174079) on the bed by image analysis | ||
P01:B084M01Z |
Count of Tringa erythropus (ITIS: 176621: WoRMS 159029) | ||
P01:B084M02Z |
Count of Tringa glareola (ITIS: 176618: WoRMS 225916) | ||
P01:B084M03Z |
Count of Tringa nebularia (ITIS: 176624: WoRMS 158968) | ||
P01:B084M04Z |
Count of Tringa ochropus (ITIS: 176632: WoRMS 212622) | ||
P01:B084M05Z |
Count of Tringa stagnatilis (ITIS: 176633: WoRMS 212623) | ||
P01:B084M06Z |
Count of Tringa totanus (ITIS: 176622: WoRMS 158970) | ||
P01:D2092B8A |
Count of Tubularia (ITIS: 48914: WoRMS 117258) [Size: stalk length <30cm] on the bed by image analysis | ||
P01:B085M01Z |
Count of Tursiops truncatus (ITIS: 180426: WoRMS 137111) | ||
P01:A1B69952 |
Count of Umbellula (ITIS: 52384: WoRMS 128499) on the bed by image analysis | ||
P01:B086M01Z |
Count of Uria aalge (ITIS: 176974: WoRMS 137133) | ||
P01:B087M01Z |
Count of Vanellus vanellus (ITIS: 176481: WoRMS 159142) | ||
P01:NMBRWR01 |
Count of waves (in 30-minute period) on the water body by waverider | ||
P01:GNZCVA01 |
Count of waves (zero crossing) per record on the water body by waverider | ||
P01:G2559B51 |
Count of Ziphiidae (ITIS: 180493: WoRMS 136986) | ||
P01:N3B0847A |
Count of Ziphius (ITIS: 180497: WoRMS 137035) | ||
P01:C77A3A96 |
Count of Ziphius cavirostris (ITIS: 180498: WoRMS 137127) | ||
P01:HELCCVRG |
Coverage (HELCOM COMBINE) of biological entity specified elsewhere on the bed | ||
P01:DAYXXXXX |
Day within month | ||
P01:DIAMETRE |
Diameter (MOTHY nominal) of pollution simulation spillet | ||
P01:AGF127NM |
Diameter ratio of wet particle/dry particle {particle growth factor} of the atmosphere [aerosol 127nm phase] by Hygroscopic Tandem Differential Mobility Analyser | ||
P01:AGF169NM |
Diameter ratio of wet particle/dry particle {particle growth factor} of the atmosphere [aerosol 169nm phase] by Hygroscopic Tandem Differential Mobility Analyser | ||
P01:AGF211NM |
Diameter ratio of wet particle/dry particle {particle growth factor} of the atmosphere [aerosol 211nm phase] by Hygroscopic Tandem Differential Mobility Analyser | ||
P01:AGFO24NM |
Diameter ratio of wet particle/dry particle {particle growth factor} of the atmosphere [aerosol 24nm phase] by Hygroscopic Tandem Differential Mobility Analyser | ||
P01:AGF254NM |
Diameter ratio of wet particle/dry particle {particle growth factor} of the atmosphere [aerosol 254nm phase] by Hygroscopic Tandem Differential Mobility Analyser | ||
P01:AGFO43NM |
Diameter ratio of wet particle/dry particle {particle growth factor} of the atmosphere [aerosol 43nm phase] by Hygroscopic Tandem Differential Mobility Analyser | ||
P01:AGFO85NM |
Diameter ratio of wet particle/dry particle {particle growth factor} of the atmosphere [aerosol 85nm phase] by Hygroscopic Tandem Differential Mobility Analyser | ||
P01:GDOPN001 |
Dilution of precision of position (latitude) {GDOP(N)} | ||
P01:GDOPE001 |
Dilution of precision of position (longitude) {GDOP(E)} | ||
P01:WMOCWDXX |
Direction (from) of waves on the water body by visual estimation and conversion to WMO code using table 0885/0877 | ||
P01:WMOCDWXX |
Direction (from) of wind relative to True North {wind direction} in the atmosphere by visual estimation and conversion to WMO code using table 0885/0877 | ||
P01:ZZZZZZ42 |
Dummy channel | ||
P01:ZZZZZZ50 |
Dummy channel | ||
P01:ZZZZZZ21 |
Dummy channel | ||
P01:ZZZZZZ03 |
Dummy channel | ||
P01:ZZZZZZ10 |
Dummy channel | ||
P01:ZZZZZZ36 |
Dummy channel | ||
P01:ZZZZZZ26 |
Dummy channel | ||
P01:ZZZZZZ09 |
Dummy channel | ||
P01:ZZZZZZ08 |
Dummy channel | ||
P01:ZZZZZZ28 |
Dummy channel | ||
P01:ZZZZZZ27 |
Dummy channel | ||
P01:ZZZZZZ15 |
Dummy channel | ||
P01:ZZZZZZ39 |
Dummy channel | ||
P01:ZZZZZZ38 |
Dummy channel | ||
P01:ZZZZZZ33 |
Dummy channel | ||
P01:ZZZZZZ37 |
Dummy channel | ||
P01:ZZZZZZ19 |
Dummy channel | ||
P01:ZZZZZZ45 |
Dummy channel | ||
P01:ZZZZZZ07 |
Dummy channel | ||
P01:ZZZZZZ44 |
Dummy channel | ||
P01:ZZZZZZ49 |
Dummy channel | ||
P01:ZZZZZZ48 |
Dummy channel | ||
P01:ZZZZZZ20 |
Dummy channel | ||
P01:ZZZZZZ01 |
Dummy channel | ||
P01:ZZZZZZ30 |
Dummy channel | ||
P01:ZZZZZZ05 |
Dummy channel | ||
P01:ZZZZZZ04 |
Dummy channel | ||
P01:ZZZZZZ31 |
Dummy channel | ||
P01:ZZZZZZ12 |
Dummy channel | ||
P01:ZZZZZZ16 |
Dummy channel | ||
P01:ZZZZZZ22 |
Dummy channel | ||
P01:ZZZZZZ43 |
Dummy channel | ||
P01:ZZZZZZ46 |
Dummy channel | ||
P01:ZZZZZZ29 |
Dummy channel | ||
P01:ZZZZZZ02 |
Dummy channel | ||
P01:ZZZZZZ40 |
Dummy channel | ||
P01:ZZZZZZ25 |
Dummy channel | ||
P01:ZZZZZZ41 |
Dummy channel | ||
P01:ZZZZZZ06 |
Dummy channel | ||
P01:ZZZZZZ32 |
Dummy channel | ||
P01:ZZZZZZ14 |
Dummy channel | ||
P01:ZZZZZZ13 |
Dummy channel | ||
P01:ZZZZZZ18 |
Dummy channel | ||
P01:ZZZZZZ17 |
Dummy channel | ||
P01:ZZZZZZ24 |
Dummy channel | ||
P01:ZZZZZZ23 |
Dummy channel | ||
P01:ZZZZZZ11 |
Dummy channel | ||
P01:ZZZZZZ34 |
Dummy channel | ||
P01:ZZZZZZ35 |
Dummy channel | ||
P01:ZZZZZZ47 |
Dummy channel | ||
P01:ICEEDGEX |
Edge (EUMETSAT OSI-SAF) of ice on the water body by classification of brightness temperature and ASCAT backscatter | ||
P01:ENLVZZ01 |
Energy level of acoustic signal returns from the bed by altimeter | ||
P01:EVNTID01 |
Event identifier | ||
P01:EVNTAGFL |
Event number (Argo float) | ||
P01:PSTSGMDP |
Expression of genes for PSTS of Prochlorococcus (ITIS: 610076: WoRMS 345515) [Subgroup: deep-adapted] by antibody doping and Western dot blot | ||
P01:PSTSGMSP |
Expression of genes for PSTS of Prochlorococcus (ITIS: 610076: WoRMS 345515) [Subgroup: shallow-adapted] by antibody doping and Western dot blot | ||
P01:FLUOZZZZ |
Fluorescence of the water body | ||
P01:FLUOCDOM |
Fluorescence of the water body by linear-response CDOM fluorometer | ||
P01:KRTSPSXX |
Grain-size kurtosis in sediment by particle sizer | ||
P01:KRGSPSXX |
Grain-size kurtosis of particles in sediment by particle sizer | ||
P01:KRTSSSXX |
Grain-size kurtosis of particles in sediment by sieving and settling tube method | ||
P01:KRGSSSXX |
Grain-size kurtosis of particles in sediment by sieving and settling tube method | ||
P01:LDGSPSXX |
Grain-size logarithmic standard deviation in sediment by particle sizer and computation from phi size distribution | ||
P01:LDGSSSXX |
Grain-size logarithmic standard deviation in sediment by sieving and settling tube method and computation from phi size distribution | ||
P01:LDGSGCXX |
Grain-size logarithmic standard deviation in suspended particulate material by Coulter particle counter and geometric statistics computation | ||
P01:LDGSPSPM |
Grain-size logarithmic standard deviation in suspended particulate material by particle sizer and computation from phi size distribution | ||
P01:DIASPSZR |
Grain-size size class upper limit (phi-scale) | ||
P01:SKGSPSXX |
Grain-size skewness of particles in sediment by particle sizer | ||
P01:SKGSSSXX |
Grain-size skewness of particles in sediment by sieving and settling tube method | ||
P01:SKGSPSPM |
Grain-size skewness of particles in suspended particulate material by particle sizer | ||
P01:SRTCPSXX |
Grain-size sorting coefficient in sediment by particle sizer | ||
P01:SRTCSSFX |
Grain-size sorting coefficient in sediment by sieving and settling tube method and computation after Folk and Ward (1957) | ||
P01:BHQINDEX |
Habitat quality index of the bed by sediment profile imager and analysis following the protocol of Nilsson and Rosenberg (1997) | ||
P01:SDBIOL16 |
HELCOM COMBINE guidelines version used in calculation | ||
P01:WMOCHVXX |
Horizontal visibility (WMO code) in the atmosphere by visual estimation and conversion to WMO code using table 4300 | ||
P01:HYCLINDX |
Hydroclimatic index by protocol of Barber et al. (1994) and Dupont Hydroclimatic Index Methodology | ||
P01:IMGBTS01 |
Image (still) of the bed | ||
P01:IPOLBEDX |
Induced electrical polarization of the bed | ||
P01:ABCO2XMA |
Infra-red light absorbance (atmosphere sample) of carbon dioxide {CAS 124-38-9} by drying and constant temperature non-dispersive infra-red gas analysis | ||
P01:ABH2OXMA |
Infra-red light absorbance (atmosphere sample) of water vapour by drying and constant temperature non-dispersive infra-red gas analysis | ||
P01:ABCO2XEQ |
Infra-red light absorbance (equilibrated marine sample) of carbon dioxide {CAS 124-38-9} by equilibration with air, drying and constant temperature non-dispersive infra-red gas analysis | ||
P01:ABH2OXEQ |
Infra-red light absorbance (equilibrated marine sample) of water vapour by equilibration with air, drying and constant temperature non-dispersive infra-red gas analysis | ||
P01:ABCO2XS2 |
Infra-red light absorbance (nominal 250 ppm CO2 gas standard) of carbon dioxide {CAS 124-38-9} by constant temperature non-dispersive infra-red gas analysis | ||
P01:ABH2OXS2 |
Infra-red light absorbance (nominal 250 ppm CO2 gas standard) of water vapour by constant temperature non-dispersive infra-red gas analysis | ||
P01:ABCO2XS4 |
Infra-red light absorbance (nominal 450 ppm CO2 gas standard) of carbon dioxide {CAS 124-38-9} by constant temperature non-dispersive infra-red gas analysis | ||
P01:ABH2OXS4 |
Infra-red light absorbance (nominal 450 ppm CO2 gas standard) of water vapour by constant temperature non-dispersive infra-red gas analysis | ||
P01:ABCO2XS0 |
Infra-red light absorbance (nominal zero ppm CO2 gas standard) of carbon dioxide {CAS 124-38-9} by constant temperature non-dispersive infra-red gas analysis | ||
P01:ABH2OXS0 |
Infra-red light absorbance (nominal zero ppm CO2 gas standard) of water vapour by constant temperature non-dispersive infra-red gas analysis | ||
P01:INSREFMC |
Instrument identifier (SBE MicroCAT) | ||
P01:INSREFST |
Instrument identifier (SonTek current meter) | ||
P01:XDSCWS01 |
Instrument identifier (wavestaff) | ||
P01:IMOXXXXX |
International Maritime Organisation identifier {IMO number} | ||
P01:UVACZZ01 |
Light absorbance correction (temperature compensation) | ||
P01:A260A230 |
Light absorbance ratio (260/230 nm wavelengths) of deoxyribonucleic acid (extract) {DNA CAS 9007-49-2} | ||
P01:A260A280 |
Light absorbance ratio (260/280 nm wavelengths) of deoxyribonucleic acid (extract) {DNA CAS 9007-49-2} | ||
P01:ABSRAT01 |
Light absorbance ratio (578/434 nm wavelengths) by spectrophotometry | ||
P01:LORA1790 |
Location ratio (surface/bottom) of Dicentrarchus labrax (ITIS: 170317: WoRMS 126975) | ||
P01:LCIFECL1 |
Log ligand binding strength 95 per cent confidence interval of iron-complexing organic ligands (of the stronger dissolved iron-binding ligand (L1)) in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LCIFECL2 |
Log ligand binding strength 95 per cent confidence interval of iron-complexing organic ligands (of the weaker dissolved iron-binding ligand (L2)) in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LCIFECL3 |
Log ligand binding strength 95 per cent confidence interval of iron-complexing organic ligands (of the weaker dissolved iron-binding ligand (L3)) in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LTM02929 |
Log ligand binding strength lower uncertainty of copper-complexing organic ligands {Cu_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 7.2 and cathodic stripping voltammetry | ||
P01:LTM02424 |
Log ligand binding strength lower uncertainty of copper-complexing organic ligands {Cu_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 7.6 and cathodic stripping voltammetry | ||
P01:LTM01919 |
Log ligand binding strength lower uncertainty of copper-complexing organic ligands {Cu_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 8.05 and cathodic stripping voltammetry | ||
P01:LLBSEDL1 |
Log ligand binding strength lower uncertainty of iron-complexing organic ligands (of the stronger dissolved iron-binding ligand (L1)) in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LOGFLEL2 |
Log ligand binding strength lower uncertainty of iron-complexing organic ligands (of the weaker dissolved iron-binding ligand (L2)) in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LLBSEDL2 |
Log ligand binding strength lower uncertainty of iron-complexing organic ligands (of the weaker dissolved iron-binding ligand (L2)) in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:SDLFCLE6 |
Log ligand binding strength lower uncertainty of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LTM01414 |
Log ligand binding strength lower uncertainty of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 7.2 and cathodic stripping voltammetry | ||
P01:LTM00990 |
Log ligand binding strength lower uncertainty of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 7.6 and cathodic stripping voltammetry | ||
P01:LTM00440 |
Log ligand binding strength lower uncertainty of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 8.05 and cathodic stripping voltammetry | ||
P01:COLGCVZZ |
Log ligand binding strength of cobalt-complexing organic ligands {Co_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LOGCUCL1 |
Log ligand binding strength of copper-complexing organic ligands (of the stronger dissolved copper-binding ligand (L1)) in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LTM02828 |
Log ligand binding strength of copper-complexing organic ligands {Cu_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 7.2 and cathodic stripping voltammetry | ||
P01:LTM02323 |
Log ligand binding strength of copper-complexing organic ligands {Cu_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 7.6 and cathodic stripping voltammetry | ||
P01:LTM01818 |
Log ligand binding strength of copper-complexing organic ligands {Cu_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 8.05 and cathodic stripping voltammetry | ||
P01:LOGCUCS5 |
Log ligand binding strength of copper-complexing organic ligands {Cu_org_ligands} in the water body [dissolved plus reactive particulate phase] by cathodic stripping voltammetry | ||
P01:FELSCVLL |
Log ligand binding strength of iron-complexing organic ligands (iron-complexing, lower limit calculated from filtered (<0.2um) Fe) in the water body [dissolved plus reactive particulate phase] by cathodic stripping voltammetry | ||
P01:FELSCVUL |
Log ligand binding strength of iron-complexing organic ligands (iron-complexing, upper limit calculated from unfiltered iron concentration) in the water body [dissolved plus reactive particulate phase] by cathodic stripping voltammetry | ||
P01:LOGFECL1 |
Log ligand binding strength of iron-complexing organic ligands (of the stronger dissolved iron-binding ligand (L1)) in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LOG4ECL1 |
Log ligand binding strength of iron-complexing organic ligands (of the stronger dissolved iron-binding ligand (L1)) in the water body [dissolved plus reactive particulate <0.4/0.45um phase] by filtration and cathodic stripping voltammetry | ||
P01:LOGFECL2 |
Log ligand binding strength of iron-complexing organic ligands (of the weaker dissolved iron-binding ligand (L2)) in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LOG4ECL2 |
Log ligand binding strength of iron-complexing organic ligands (of the weaker dissolved iron-binding ligand (L2)) in the water body [dissolved plus reactive particulate <0.4/0.45um phase] by filtration and cathodic stripping voltammetry | ||
P01:LOGFECL3 |
Log ligand binding strength of iron-complexing organic ligands (of the weaker dissolved iron-binding ligand (L3)) in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LOG4ECL3 |
Log ligand binding strength of iron-complexing organic ligands (of the weaker dissolved iron-binding ligand (L3)) in the water body [dissolved plus reactive particulate <0.4/0.45um phase] by filtration and cathodic stripping voltammetry | ||
P01:FELSCVD5 |
Log ligand binding strength of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LTM01313 |
Log ligand binding strength of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 7.2 and cathodic stripping voltammetry | ||
P01:LTM00880 |
Log ligand binding strength of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 7.6 and cathodic stripping voltammetry | ||
P01:LTM00330 |
Log ligand binding strength of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 8.05 and cathodic stripping voltammetry | ||
P01:FELSCVDN |
Log ligand binding strength of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate <10**6 Dalton phase] by filtration and cathodic stripping voltammetry | ||
P01:FELSCVZZ |
Log ligand binding strength of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate phase] by cathodic stripping voltammetry | ||
P01:ZNLSCVZZ |
Log ligand binding strength of zinc-complexing organic ligands {Zn_org_ligands} in the water body [dissolved plus reactive particulate phase] by cathodic stripping voltammetry | ||
P01:SDCOCVZZ |
Log ligand binding strength standard deviation of cobalt-complexing organic ligands {Co_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:SDLOGCU7 |
Log ligand binding strength standard deviation of copper-complexing organic ligands {Cu_org_ligands} in the water body [dissolved plus reactive particulate phase] by cathodic stripping voltammetry | ||
P01:SDFLCVLL |
Log ligand binding strength standard deviation of iron-complexing organic ligands (iron-complexing, lower limit calculated from filtered (<0.2um) Fe) in the water body [dissolved plus reactive particulate phase] by cathodic stripping voltammetry | ||
P01:SDFLCVUL |
Log ligand binding strength standard deviation of iron-complexing organic ligands (iron-complexing, upper limit calculated from unfiltered iron concentration) in the water body [dissolved plus reactive particulate phase] by cathodic stripping voltammetry | ||
P01:LOGFSDL1 |
Log ligand binding strength standard deviation of iron-complexing organic ligands (of the stronger dissolved iron-binding ligand (L1)) in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LOG4SDL1 |
Log ligand binding strength standard deviation of iron-complexing organic ligands (of the stronger dissolved iron-binding ligand (L1)) in the water body [dissolved plus reactive particulate <0.4/0.45um phase] by filtration and cathodic stripping voltammetry | ||
P01:SDLOFEL2 |
Log ligand binding strength standard deviation of iron-complexing organic ligands (of the weaker dissolved iron-binding ligand (L2)) in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:SDLO4EL2 |
Log ligand binding strength standard deviation of iron-complexing organic ligands (of the weaker dissolved iron-binding ligand (L2)) in the water body [dissolved plus reactive particulate <0.4/0.45um phase] by filtration and cathodic stripping voltammetry | ||
P01:SDLOFEL3 |
Log ligand binding strength standard deviation of iron-complexing organic ligands (of the weaker dissolved iron-binding ligand (L3)) in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:SDLO4EL3 |
Log ligand binding strength standard deviation of iron-complexing organic ligands (of the weaker dissolved iron-binding ligand (L3)) in the water body [dissolved plus reactive particulate <0.4/0.45um phase] by filtration and cathodic stripping voltammetry | ||
P01:SDFLCVD5 |
Log ligand binding strength standard deviation of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:SDFLCVDN |
Log ligand binding strength standard deviation of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate <10**6 Dalton phase] by filtration and cathodic stripping voltammetry | ||
P01:SDFLCVZZ |
Log ligand binding strength standard deviation of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate phase] by cathodic stripping voltammetry | ||
P01:SDZLCVZZ |
Log ligand binding strength standard deviation of zinc-complexing organic ligands {Zn_org_ligands} in the water body [dissolved plus reactive particulate phase] by cathodic stripping voltammetry | ||
P01:FELSCVE6 |
Log ligand binding strength standard error of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LTM03030 |
Log ligand binding strength upper uncertainty of copper-complexing organic ligands {Cu_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 7.2 and cathodic stripping voltammetry | ||
P01:LTM02525 |
Log ligand binding strength upper uncertainty of copper-complexing organic ligands {Cu_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 7.6 and cathodic stripping voltammetry | ||
P01:LTM02020 |
Log ligand binding strength upper uncertainty of copper-complexing organic ligands {Cu_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 8.05 and cathodic stripping voltammetry | ||
P01:LLBSERL1 |
Log ligand binding strength upper uncertainty of iron-complexing organic ligands (of the stronger dissolved iron-binding ligand (L1)) in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LLBSERL2 |
Log ligand binding strength upper uncertainty of iron-complexing organic ligands (of the weaker dissolved iron-binding ligand (L2)) in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LOGFUEL2 |
Log ligand binding strength upper uncertainty of iron-complexing organic ligands (of the weaker dissolved iron-binding ligand (L2)) in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:SDLFCUE6 |
Log ligand binding strength upper uncertainty of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and cathodic stripping voltammetry | ||
P01:LTM01515 |
Log ligand binding strength upper uncertainty of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 7.2 and cathodic stripping voltammetry | ||
P01:LTM01010 |
Log ligand binding strength upper uncertainty of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 7.6 and cathodic stripping voltammetry | ||
P01:LTM00550 |
Log ligand binding strength upper uncertainty of iron-complexing organic ligands {Fe_org_ligands} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration, pH adjusted to 8.05 and cathodic stripping voltammetry | ||
P01:COXNFT01 |
Log10 Cox Number in the water body by turbulence profiler fast temperature sensor | ||
P01:RICHTERX |
Magnitude (Richter Scale) of earthquake | ||
P01:CNWCXX01 |
Mass ratio of carbon/nitrogen in biota {Acantharia (ITIS: 46107: WoRMS 586732)} by mass spectrometry | ||
P01:CNWCXX02 |
Mass ratio of carbon/nitrogen in biota {Aglantha digitale (ITIS: 719178: WoRMS 117849)} by mass spectrometry | ||
P01:CNWCXX03 |
Mass ratio of carbon/nitrogen in biota {Amphipoda (ITIS: 93294: WoRMS 1135)} by mass spectrometry | ||
P01:CNWCXX05 |
Mass ratio of carbon/nitrogen in biota {Benthosema (ITIS: 162679: WoRMS 125815)} by mass spectrometry | ||
P01:CNWCXX04 |
Mass ratio of carbon/nitrogen in biota {Benthosema glaciale (ITIS: 162680: WoRMS 126580)} by mass spectrometry | ||
P01:CNBIOENT |
Mass ratio of carbon/nitrogen in biota {biological entity specified elsewhere} | ||
P01:CNWCXX58 |
Mass ratio of carbon/nitrogen in biota {Calanus hyperboreus (ITIS: 85266: WoRMS 104467) [Sex: female]} by mass spectrometry | ||
P01:CNWCXX06 |
Mass ratio of carbon/nitrogen in biota {Calanus hyperboreus (ITIS: 85266: WoRMS 104467)} by mass spectrometry | ||
P01:CNWCXX07 |
Mass ratio of carbon/nitrogen in biota {Cephalopoda (ITIS: 82326: WoRMS 11707)} by mass spectrometry | ||
P01:CNWCXX08 |
Mass ratio of carbon/nitrogen in biota {Ceriantharia (ITIS: 51984: WoRMS 1361)} by mass spectrometry | ||
P01:CNWCXX10 |
Mass ratio of carbon/nitrogen in biota {Clio (ITIS: 76366: WoRMS 137751)} by mass spectrometry | ||
P01:CNWCXX09 |
Mass ratio of carbon/nitrogen in biota {Clio cuspidata (ITIS: 76367: WoRMS 139032)} by mass spectrometry | ||
P01:CNWCXX12 |
Mass ratio of carbon/nitrogen in biota {Clione (ITIS: 78088: WoRMS 137793)} by mass spectrometry | ||
P01:CNWCXX11 |
Mass ratio of carbon/nitrogen in biota {Clione limacina (ITIS: 78089: WoRMS 139178)} by mass spectrometry | ||
P01:CNWCXX13 |
Mass ratio of carbon/nitrogen in biota {Copepoda (ITIS: 85257: WoRMS 1080)} by mass spectrometry | ||
P01:CNWCXX14 |
Mass ratio of carbon/nitrogen in biota {Decapoda (ITIS: 95599: WoRMS 1130)} by mass spectrometry | ||
P01:CNWCXX59 |
Mass ratio of carbon/nitrogen in biota {Euchaeta (ITIS: 85525: WoRMS 104174) [Sex: female]} by mass spectrometry | ||
P01:CNWCXX15 |
Mass ratio of carbon/nitrogen in biota {Euchaeta (ITIS: 85525: WoRMS 104174) [Sex: male]} by mass spectrometry | ||
P01:CNWCXX16 |
Mass ratio of carbon/nitrogen in biota {Euchaeta (ITIS: 85525: WoRMS 104174)} by mass spectrometry | ||
P01:CNWCXX17 |
Mass ratio of carbon/nitrogen in biota {Eukrohnia hamata (ITIS: 158691: WoRMS 105416)} by mass spectrometry | ||
P01:CNWCXX60 |
Mass ratio of carbon/nitrogen in biota {Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Sex: female]} by mass spectrometry | ||
P01:CNWCXX61 |
Mass ratio of carbon/nitrogen in biota {Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Sex: male]} by mass spectrometry | ||
P01:CNWCXX18 |
Mass ratio of carbon/nitrogen in biota {Fish (WoRMS 11676) [Stage: larvae]} by mass spectrometry | ||
P01:CNWCXX19 |
Mass ratio of carbon/nitrogen in biota {Fish (WoRMS 11676)} by mass spectrometry | ||
P01:CNWCXX20 |
Mass ratio of carbon/nitrogen in biota {Hyperia (ITIS: 95109: WoRMS 101796)} by mass spectrometry | ||
P01:CNBIXX01 |
Mass ratio of carbon/nitrogen in biota {Hyperia galba (ITIS: 95110: WoRMS 103251)} by mass spectrometry | ||
P01:CNWCXX21 |
Mass ratio of carbon/nitrogen in biota {Laodicea undulata (ITIS: 50487: WoRMS 117725)} by mass spectrometry | ||
P01:CNWCXX22 |
Mass ratio of carbon/nitrogen in biota {Lensia conoidea (ITIS: 51280: WoRMS 135426)} by mass spectrometry | ||
P01:CNWCXX24 |
Mass ratio of carbon/nitrogen in biota {Limacina (ITIS: 76336: WoRMS 138122)} by mass spectrometry | ||
P01:CNWCXX23 |
Mass ratio of carbon/nitrogen in biota {Limacina retroversa (ITIS: 76351: WoRMS 140227)} by mass spectrometry | ||
P01:CNWCXX25 |
Mass ratio of carbon/nitrogen in biota {Maurolicus muelleri (ITIS: 162187: WoRMS 127312)} by mass spectrometry | ||
P01:CNWCXX27 |
Mass ratio of carbon/nitrogen in biota {Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Sex: female]} by mass spectrometry | ||
P01:CNWCXX29 |
Mass ratio of carbon/nitrogen in biota {Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Sex: male]} by mass spectrometry | ||
P01:CNWCXX26 |
Mass ratio of carbon/nitrogen in biota {Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: adult]} by mass spectrometry | ||
P01:CNWCXX28 |
Mass ratio of carbon/nitrogen in biota {Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: juvenile]} by mass spectrometry | ||
P01:CNWCXX63 |
Mass ratio of carbon/nitrogen in biota {Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: sub-adult]} by mass spectrometry | ||
P01:CNWCXX62 |
Mass ratio of carbon/nitrogen in biota {Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690)} by mass spectrometry | ||
P01:CNWCXX31 |
Mass ratio of carbon/nitrogen in biota {Mysidae (ITIS: 89856: WoRMS 119822) [Colour: red]} by mass spectrometry | ||
P01:CNWCXX30 |
Mass ratio of carbon/nitrogen in biota {Mysidae (ITIS: 89856: WoRMS 119822)} by mass spectrometry | ||
P01:CNWCXX64 |
Mass ratio of carbon/nitrogen in biota {Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Sex: female]} by mass spectrometry | ||
P01:CNWCXX65 |
Mass ratio of carbon/nitrogen in biota {Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Sex: male]} by mass spectrometry | ||
P01:CNWCXX32 |
Mass ratio of carbon/nitrogen in biota {Ostracoda (ITIS: 84195: WoRMS 1078)} by mass spectrometry | ||
P01:CNWCXX33 |
Mass ratio of carbon/nitrogen in biota {Paraeuchaeta norvegica (ITIS: 85544: WoRMS 104566) [Stage: adult Sex: female]} by mass spectrometry | ||
P01:CNWCXX66 |
Mass ratio of carbon/nitrogen in biota {Paraeuchaeta norvegica (ITIS: 85544: WoRMS 104566)} by mass spectrometry | ||
P01:CNWCXX36 |
Mass ratio of carbon/nitrogen in biota {Parathemisto (ITIS: 95148: WoRMS 147082) [Size: large]} by mass spectrometry | ||
P01:CNWCXX37 |
Mass ratio of carbon/nitrogen in biota {Parathemisto (ITIS: 95148: WoRMS 147082) [Size: medium]} by mass spectrometry | ||
P01:CNWCXX38 |
Mass ratio of carbon/nitrogen in biota {Parathemisto (ITIS: 95148: WoRMS 147082) [Size: small]} by mass spectrometry | ||
P01:CNWCXX35 |
Mass ratio of carbon/nitrogen in biota {Parathemisto (ITIS: 95148: WoRMS 147082) [Stage: adult]} by mass spectrometry | ||
P01:CNWCXX34 |
Mass ratio of carbon/nitrogen in biota {Parathemisto (ITIS: 95148: WoRMS 147082)} by mass spectrometry | ||
P01:CNWCXX39 |
Mass ratio of carbon/nitrogen in biota {Pasiphaea (ITIS: 96162: WoRMS 107052)} by mass spectrometry | ||
P01:CNWCXX40 |
Mass ratio of carbon/nitrogen in biota {Penaeidae (ITIS: 95602: WoRMS 106727)} by mass spectrometry | ||
P01:CNWCXX41 |
Mass ratio of carbon/nitrogen in biota {Periphylla (ITIS: 51611: WoRMS 135252)} by mass spectrometry | ||
P01:CNBIXX02 |
Mass ratio of carbon/nitrogen in biota {Polychaeta (ITIS: 914166: WoRMS 883)} by mass spectrometry | ||
P01:CNBIXX03 |
Mass ratio of carbon/nitrogen in biota {Salpa maxima (ITIS: 159654: WoRMS 137273)} by mass spectrometry | ||
P01:CNWCXX42 |
Mass ratio of carbon/nitrogen in biota {Salpida (ITIS: 159643: WoRMS 137214)} by mass spectrometry | ||
P01:CNWCXX43 |
Mass ratio of carbon/nitrogen in biota {Scyphozoa (ITIS: 51483: WoRMS 135220)} by mass spectrometry | ||
P01:CNWCXX44 |
Mass ratio of carbon/nitrogen in biota {Sergestidae (ITIS: 95887: WoRMS 106731)} by mass spectrometry | ||
P01:CNWCXX45 |
Mass ratio of carbon/nitrogen in biota {Siphonophorae (ITIS: 718928: WoRMS 1371)} by mass spectrometry | ||
P01:CNBIXX04 |
Mass ratio of carbon/nitrogen in biota {Sternoptychidae (ITIS: 162212: WoRMS 125603)} by mass spectrometry | ||
P01:CNWCXX47 |
Mass ratio of carbon/nitrogen in biota {Stylocheiron maximum (ITIS: 95558: WoRMS 110704) [Sex: male]} by mass spectrometry | ||
P01:CNWCXX46 |
Mass ratio of carbon/nitrogen in biota {Stylocheiron maximum (ITIS: 95558: WoRMS 110704)} by mass spectrometry | ||
P01:CNBIXX05 |
Mass ratio of carbon/nitrogen in biota {Themisto abyssorum (ITIS: 206587: WoRMS 103259)} by mass spectrometry | ||
P01:CNWCXX48 |
Mass ratio of carbon/nitrogen in biota {Themisto gaudichaudii (ITIS: 656448: WoRMS 325384)} by mass spectrometry | ||
P01:CNWCXX50 |
Mass ratio of carbon/nitrogen in biota {Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Sex: female]} by mass spectrometry | ||
P01:CNWCXX54 |
Mass ratio of carbon/nitrogen in biota {Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Sex: male]} by mass spectrometry | ||
P01:CNWCXX49 |
Mass ratio of carbon/nitrogen in biota {Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: adult]} by mass spectrometry | ||
P01:CNWCXX51 |
Mass ratio of carbon/nitrogen in biota {Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: juvenile Sex: female]} by mass spectrometry | ||
P01:CNWCXX52 |
Mass ratio of carbon/nitrogen in biota {Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: juvenile]} by mass spectrometry | ||
P01:CNWCXX67 |
Mass ratio of carbon/nitrogen in biota {Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709)} by mass spectrometry | ||
P01:CNWCXX56 |
Mass ratio of carbon/nitrogen in biota {Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712) [Stage: juvenile]} by mass spectrometry | ||
P01:CNWCXX55 |
Mass ratio of carbon/nitrogen in biota {Thysanopoda acutifrons (ITIS: 95583: WoRMS 110712)} by mass spectrometry | ||
P01:CNWCXX57 |
Mass ratio of carbon/nitrogen in biota {Tomopteris septentrionalis (ITIS: 65462: WoRMS 131568)} by mass spectrometry | ||
P01:CNSDXX01 |
Mass ratio standard deviation of carbon/nitrogen in biota {Aglantha digitale (ITIS: 719178: WoRMS 117849)} by mass spectrometry | ||
P01:CNSDXX02 |
Mass ratio standard deviation of carbon/nitrogen in biota {Benthosema glaciale (ITIS: 162680: WoRMS 126580)} by mass spectrometry | ||
P01:CNSDXX03 |
Mass ratio standard deviation of carbon/nitrogen in biota {Calanus hyperboreus (ITIS: 85266: WoRMS 104467) [Sex: female]} by mass spectrometry | ||
P01:CNSDXX04 |
Mass ratio standard deviation of carbon/nitrogen in biota {Calanus hyperboreus (ITIS: 85266: WoRMS 104467)} by mass spectrometry | ||
P01:CNSDXX05 |
Mass ratio standard deviation of carbon/nitrogen in biota {Copepoda (ITIS: 85257: WoRMS 1080)} by mass spectrometry | ||
P01:CNSDXX06 |
Mass ratio standard deviation of carbon/nitrogen in biota {Euchaeta (ITIS: 85525: WoRMS 104174) [Sex: female]} by mass spectrometry | ||
P01:CNSDXX29 |
Mass ratio standard deviation of carbon/nitrogen in biota {Euchaeta (ITIS: 85525: WoRMS 104174) [Sex: male]} by mass spectrometry | ||
P01:CNSDXX07 |
Mass ratio standard deviation of carbon/nitrogen in biota {Euchaeta (ITIS: 85525: WoRMS 104174)} by mass spectrometry | ||
P01:CNSDXX08 |
Mass ratio standard deviation of carbon/nitrogen in biota {Eukrohnia hamata (ITIS: 158691: WoRMS 105416)} by mass spectrometry | ||
P01:CNSDXX09 |
Mass ratio standard deviation of carbon/nitrogen in biota {Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Sex: female]} by mass spectrometry | ||
P01:CNSDXX10 |
Mass ratio standard deviation of carbon/nitrogen in biota {Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Sex: male]} by mass spectrometry | ||
P01:CNSDXX30 |
Mass ratio standard deviation of carbon/nitrogen in biota {Fish (WoRMS 11676)} by mass spectrometry | ||
P01:CNSDXX11 |
Mass ratio standard deviation of carbon/nitrogen in biota {Limacina retroversa (ITIS: 76351: WoRMS 140227)} by mass spectrometry | ||
P01:CNSDXX13 |
Mass ratio standard deviation of carbon/nitrogen in biota {Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Sex: female]} by mass spectrometry | ||
P01:CNSDXX15 |
Mass ratio standard deviation of carbon/nitrogen in biota {Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Sex: male]} by mass spectrometry | ||
P01:CNSDXX12 |
Mass ratio standard deviation of carbon/nitrogen in biota {Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: adult]} by mass spectrometry | ||
P01:CNSDXX14 |
Mass ratio standard deviation of carbon/nitrogen in biota {Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: juvenile]} by mass spectrometry | ||
P01:CNSDXX17 |
Mass ratio standard deviation of carbon/nitrogen in biota {Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: sub-adult]} by mass spectrometry | ||
P01:CNSDXX16 |
Mass ratio standard deviation of carbon/nitrogen in biota {Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690)} by mass spectrometry | ||
P01:CNSDXX18 |
Mass ratio standard deviation of carbon/nitrogen in biota {Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Sex: female]} by mass spectrometry | ||
P01:CNSDXX19 |
Mass ratio standard deviation of carbon/nitrogen in biota {Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Sex: male]} by mass spectrometry | ||
P01:CNSDXX31 |
Mass ratio standard deviation of carbon/nitrogen in biota {Paraeuchaeta norvegica (ITIS: 85544: WoRMS 104566) [Stage: adult Sex: female]} by mass spectrometry | ||
P01:CNSDXX20 |
Mass ratio standard deviation of carbon/nitrogen in biota {Paraeuchaeta norvegica (ITIS: 85544: WoRMS 104566)} by mass spectrometry | ||
P01:CNSDXX21 |
Mass ratio standard deviation of carbon/nitrogen in biota {Parathemisto (ITIS: 95148: WoRMS 147082)} by mass spectrometry | ||
P01:CNSDXX33 |
Mass ratio standard deviation of carbon/nitrogen in biota {Salpa maxima (ITIS: 159654: WoRMS 137273)} by mass spectrometry | ||
P01:CNSDXX22 |
Mass ratio standard deviation of carbon/nitrogen in biota {Sergestidae (ITIS: 95887: WoRMS 106731)} by mass spectrometry | ||
P01:CNSDXX23 |
Mass ratio standard deviation of carbon/nitrogen in biota {Stylocheiron maximum (ITIS: 95558: WoRMS 110704)} by mass spectrometry | ||
P01:CNSDXX32 |
Mass ratio standard deviation of carbon/nitrogen in biota {Themisto abyssorum (ITIS: 206587: WoRMS 103259)} by mass spectrometry | ||
P01:CNSDXX24 |
Mass ratio standard deviation of carbon/nitrogen in biota {Themisto gaudichaudii (ITIS: 656448: WoRMS 325384)} by mass spectrometry | ||
P01:CNSDXX26 |
Mass ratio standard deviation of carbon/nitrogen in biota {Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Sex: female]} by mass spectrometry | ||
P01:CNSDXX28 |
Mass ratio standard deviation of carbon/nitrogen in biota {Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Sex: male]} by mass spectrometry | ||
P01:CNSDXX34 |
Mass ratio standard deviation of carbon/nitrogen in biota {Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: juvenile Sex: female]} by mass spectrometry | ||
P01:CNSDXX27 |
Mass ratio standard deviation of carbon/nitrogen in biota {Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: juvenile]} by mass spectrometry | ||
P01:CNSDXX25 |
Mass ratio standard deviation of carbon/nitrogen in biota {Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709)} by mass spectrometry | ||
P01:SOVO0003 |
Maximum count (seasonal) of biological entity specified elsewhere | ||
P01:SOVO0002 |
Mean count (seasonal) of biological entity specified elsewhere | ||
P01:O643A757 |
Mean number of eggs per egg sac of Oithona similis (ITIS: 88805: WoRMS 106656) in the water body by optical microscopy | ||
P01:SOVO0006 |
Mean viable offspring (per breeding pair) {fledging success} of biological entity specified elsewhere | ||
P01:MODLVLID |
Model level number | ||
P01:MNTHXXXX |
Month within year | ||
P01:MUCHRSED |
Munsell chroma of sediment by visual estimation | ||
P01:MUCOLSED |
Munsell colour (BODC encoding) of sediment by visual estimation | ||
P01:MUHUESED |
Munsell hue of sediment by visual estimation | ||
P01:MUVALSED |
Munsell value of sediment by visual estimation | ||
P01:FEFICVDX |
Negative log of concentration of iron (free ion) {free Fe ion} per unit volume of the water body [dissolved plus reactive particulate phase] by cathodic stripping voltammetry | ||
P01:ZNFICVDX |
Negative log of concentration of zinc ion {Zn++ CAS 23713-49-7} per unit volume of the water body [dissolved plus reactive particulate phase] by cathodic stripping voltammetry | ||
P01:NDG10SP1 |
Neutral drag coefficient (port-mounted sensor) in the atmosphere by in-situ sonic anemometer and corrected to a height of 10m and calculated through the inertial dissipation method | ||
P01:NDG10SS1 |
Neutral drag coefficient (starboard-mounted sensor) in the atmosphere by in-situ sonic anemometer and corrected to a height of 10m and calculated through the inertial dissipation method | ||
P01:STCONHMP |
Nominal concentration of humic acid in peat by drying, grinding, NaOH extraction and filtration and colorimetric analysis | ||
P01:DEPNWT01 |
Normalised depth to water table by protocol of Charman and Warner (1992) and computation of Blundell and Barber (2005) | ||
P01:NHCLINDX |
Normalised hydroclimatic index by protocol of Barber et al. (1994) and Dupont Hydroclimatic Index Methodology and computation of Blundell and Barber (2005) | ||
P01:SNCONHMP |
Normalised nominal concentration of humic acid in peat by drying, grinding, NaOH extraction and filtration and colorimetric analysis and computation of Blundell and Barber (2005) | ||
P01:NUMFXGPS |
Number (during previous powered-up period) of fixes by Trimble GPS | ||
P01:PRTCLNJ1 |
Number (in analysis) of particles | ||
P01:I51ANL68 |
Number (in analysis) of specimens | ||
P01:NUMINAVG |
Number (in average) | ||
P01:Q4A05944 |
Number (in incubation experiment) of Calanus (ITIS: 85263: WoRMS 104152) [Stage: nauplii] | ||
P01:I51A0468 |
Number (in incubation experiment) of females | ||
P01:NPRTISXX |
Number (in sample) of particle counts by in-situ particle sizer | ||
P01:NPRTPSXX |
Number (in sample) of particle counts by particle sizer | ||
P01:ATOFDBIO |
Number (in sample) of particles (biogenic dust) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOFMSCU |
Number (in sample) of particles (copper-containing) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOFMSD1 |
Number (in sample) of particles (dust population 1) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOFMSD2 |
Number (in sample) of particles (dust population 2) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOFMSEC |
Number (in sample) of particles (elemental carbon containing) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOFECSO |
Number (in sample) of particles (elemental carbon- and sulphur oxide-containing) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATECOCSO |
Number (in sample) of particles (elemental carbon-, organic carbon- and sulphur oxide-containing) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOINCIN |
Number (in sample) of particles (incinerator-derived) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOFMECL |
Number (in sample) of particles (long molecule elemental carbon containing) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOFMGNO |
Number (in sample) of particles (magnesium- and nitrogen oxide-containing) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOFMXSS |
Number (in sample) of particles (mixed sea salt) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOFMNIC |
Number (in sample) of particles (nicotine-containing) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOFMORG |
Number (in sample) of particles (organic-rich) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOKECSO |
Number (in sample) of particles (potassium-, elemental carbon- and sulphur oxide-containing) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOFMSXK |
Number (in sample) of particles (potassium-containing) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOFMSSS |
Number (in sample) of particles (sea salt) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOFMNAK |
Number (in sample) of particles (sodium- and potassium-containing) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOFMTOB |
Number (in sample) of particles (tobacco-derived) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOFMSV1 |
Number (in sample) of particles (vanadium-containing population 1) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:ATOFMSV2 |
Number (in sample) of particles (vanadium-containing population 2) in the atmosphere [aerosol 0.1-3um phase] by mass spectrometry and cluster analysis | ||
P01:OPCA013U |
Number (in sample) of particles in the atmosphere [aerosol 0.1-3um phase] by particle sizer | ||
P01:NMCLGMDP |
Number (of clones) of Prochlorococcus (ITIS: 610076: WoRMS 345515) [Subgroup: deep-adapted] by dot blot hybridisation | ||
P01:NMCLGMSP |
Number (of clones) of Prochlorococcus (ITIS: 610076: WoRMS 345515) [Subgroup: shallow-adapted] by dot blot hybridisation | ||
P01:NB671948 |
Number (of specimen analyses) of Aglantha digitale (ITIS: 719178: WoRMS 117849) | ||
P01:D14356BA |
Number (of specimen analyses) of Benthosema glaciale (ITIS: 162680: WoRMS 126580) | ||
P01:E87303A2 |
Number (of specimen analyses) of Calanus hyperboreus (ITIS: 85266: WoRMS 104467) | ||
P01:K05A9017 |
Number (of specimen analyses) of Calanus hyperboreus (ITIS: 85266: WoRMS 104467) [Sex: female] | ||
P01:B67B9234 |
Number (of specimen analyses) of Copepoda (ITIS: 85257: WoRMS 1080) | ||
P01:Z5834257 |
Number (of specimen analyses) of Euchaeta (ITIS: 85525: WoRMS 104174) | ||
P01:P604698B |
Number (of specimen analyses) of Euchaeta (ITIS: 85525: WoRMS 104174) [Sex: female] | ||
P01:V55A968B |
Number (of specimen analyses) of Euchaeta (ITIS: 85525: WoRMS 104174) [Sex: male] | ||
P01:B5A19308 |
Number (of specimen analyses) of Eukrohnia hamata (ITIS: 158691: WoRMS 105416) | ||
P01:S4283B30 |
Number (of specimen analyses) of Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Sex: female] | ||
P01:L62377A9 |
Number (of specimen analyses) of Euphausia krohnii (ITIS: 660849: WoRMS 110687) [Sex: male] | ||
P01:B125A402 |
Number (of specimen analyses) of Fish (WoRMS 11676) | ||
P01:B1090A69 |
Number (of specimen analyses) of Limacina retroversa (ITIS: 76351: WoRMS 140227) | ||
P01:T5288517 |
Number (of specimen analyses) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) | ||
P01:E2415394 |
Number (of specimen analyses) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Sex: female] | ||
P01:JA44A652 |
Number (of specimen analyses) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Sex: male] | ||
P01:W4368862 |
Number (of specimen analyses) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: adult] | ||
P01:F88A85B4 |
Number (of specimen analyses) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: juvenile] | ||
P01:S3348238 |
Number (of specimen analyses) of Meganyctiphanes norvegica (ITIS: 95534: WoRMS 110690) [Stage: sub-adult] | ||
P01:G2A3BA04 |
Number (of specimen analyses) of Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Sex: female] | ||
P01:Q6034B01 |
Number (of specimen analyses) of Nematoscelis megalops (ITIS: 95542: WoRMS 110695) [Sex: male] | ||
P01:K0043002 |
Number (of specimen analyses) of Paraeuchaeta norvegica (ITIS: 85544: WoRMS 104566) | ||
P01:Q56264A5 |
Number (of specimen analyses) of Paraeuchaeta norvegica (ITIS: 85544: WoRMS 104566) [Stage: adult Sex: female] | ||
P01:Z7449250 |
Number (of specimen analyses) of Parathemisto (ITIS: 95148: WoRMS 147082) | ||
P01:C3893093 |
Number (of specimen analyses) of Sergestidae (ITIS: 95887: WoRMS 106731) | ||
P01:S7904692 |
Number (of specimen analyses) of Stylocheiron maximum (ITIS: 95558: WoRMS 110704) | ||
P01:C137741B |
Number (of specimen analyses) of Themisto abyssorum (ITIS: 206587: WoRMS 103259) | ||
P01:Y761A4BB |
Number (of specimen analyses) of Themisto gaudichaudii (ITIS: 656448: WoRMS 325384) | ||
P01:T7166920 |
Number (of specimen analyses) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) | ||
P01:Z857912A |
Number (of specimen analyses) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Sex: female] | ||
P01:T8945695 |
Number (of specimen analyses) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Sex: male] | ||
P01:M06A9875 |
Number (of specimen analyses) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: juvenile Sex: female] | ||
P01:X4069902 |
Number (of specimen analyses) of Thysanoessa longicaudata (ITIS: 95575: WoRMS 110709) [Stage: juvenile] | ||
P01:NS25A402 |
Number (of specimen analyses) {sample size} of Mytilus trossulus (ITIS: 567928: WoRMS 140482) | ||
P01:NLADCPBN |
Number (per bin) of measurements by lowered acoustic doppler current profiler (ADCP) | ||
P01:NDTCNK01 |
Number (per cycle) of measurements not detecting the surface of the water body by acoustic doppler wave array | ||
P01:BDTCNK01 |
Number (per cycle) of measurements returning false-positive surface detections of the water body by acoustic doppler wave array | ||
P01:POSTST3D |
Number of common mid or depth point trace ensemble (post-stack) by three-dimensional seismic survey array | ||
P01:POSTST2D |
Number of common mid or depth point trace ensemble (post-stack) by two-dimensional seismic survey array | ||
P01:PRESTC3D |
Number of common mid or depth point trace ensemble (pre-stack) by three-dimensional seismic survey array | ||
P01:PRESTC2D |
Number of common mid or depth point trace ensemble (pre-stack) by two-dimensional seismic survey array | ||
P01:NUMVALES |
Number of values | ||
P01:CLSLPCO2 |
Partial pressure calibration slope of pCO2 determination | ||
P01:SDSLPCO2 |
Partial pressure calibration slope standard deviation of pCO2 determination | ||
P01:GKPKFS01 |
Peak frequency check factor of waves on the water body by Interocean S4 wave gauge and computation from the ratio of horizontal translation to heave | ||
P01:WMOCWPXX |
Period of waves on the water body by visual estimation and conversion to WMO code using table 3155 | ||
P01:FVFESD01 |
Photochemical quantum efficiency standard deviation {Fv/Fm} in the experiment water sample by bench fast repetition rate fluorometer (FRRF) and calculation from Fm and Fo fluorescence yields from the dark chamber | ||
P01:NF01FR02 |
Photochemical quantum efficiency standard deviation {Fv/Fm} in the water body by single turnover fast repetition rate (FRR) fluorometry | ||
P01:FVFMFR01 |
Photochemical quantum efficiency {Fv/Fm or Phi} in the water body by in-situ fast repetition rate fluorometer (FRRF) and calculation from Fm and Fo fluorescence yields from the dark chamber | ||
P01:FVFMFR02 |
Photochemical quantum efficiency {Fv/Fm or Phi} in the water body by in-situ fast repetition rate fluorometer (FRRF) and calculation from Fm and Fo fluorescence yields from the light chamber | ||
P01:FVFEXI01 |
Photochemical quantum efficiency {Fv/Fm} in the experiment water sample by bench fast repetition rate fluorometer (FRRF) and calculation from Fm and Fo fluorescence yields from the dark chamber | ||
P01:FVFMMIBL |
Photochemical quantum efficiency {Fv/Fm} in the water body by bench fast repetition rate fluorometer (FRRF) and calculation from blank-corrected Fm and Fo fluorescence yields from the dark chamber | ||
P01:FVFMMI01 |
Photochemical quantum efficiency {Fv/Fm} in the water body by bench fast repetition rate fluorometer (FRRF) and calculation from Fm and Fo fluorescence yields from the dark chamber | ||
P01:FVFMFIRX |
Photochemical quantum efficiency {Fv/Fm} in the water body by fluorescence induction and relaxation (FIRe) fluorometer and calculation from blank-corrected Fm and Fo fluorescence yields from the dark chamber | ||
P01:FVFMFIR1 |
Photochemical quantum efficiency {Fv/Fm} in the water body by fluorescence induction and relaxation (FIRe) fluorometer and calculation from Fm and Fo fluorescence yields from the dark chamber | ||
P01:FVFMFR04 |
Photochemical quantum efficiency {Fv/Fm} in the water body by in-situ fast repetition rate fluorometer (FRRF) and calculation from blank-corrected Fm and Fo fluorescence yields from the dark chamber | ||
P01:FVFMFR03 |
Photochemical quantum efficiency {Fv/Fm} in the water body by in-situ fast repetition rate fluorometer (FRRF) and calculation from blank-corrected Fm and Fo fluorescence yields from the light chamber | ||
P01:NF01FR01 |
Photochemical quantum efficiency {Fv/Fm} in the water body by single turnover fast repetition rate (FRR) fluorometry | ||
P01:PSALEXTX |
Practical salinity of experiment water sample by bench salinometer and computation using UNESCO 1983 algorithm | ||
P01:PSLTMP02 |
Practical salinity of the sediment pore water by model prediction | ||
P01:PSLTZZ01 |
Practical salinity of the water body | ||
P01:PSALBSTX |
Practical salinity of the water body by bench salinometer and computation using UNESCO 1983 algorithm | ||
P01:PPSUZZ01 |
Practical salinity of the water body by computation using UNESCO 1983 algorithm | ||
P01:PSALZZXX |
Practical salinity of the water body by computation using UNESCO 1983 algorithm | ||
P01:PSALPR02 |
Practical salinity of the water body by conductivity cell (second sensor) and computation using UNESCO 1983 algorithm | ||
P01:PPSUCS01 |
Practical salinity of the water body by conductivity cell and computation using UNESCO 1983 algorithm | ||
P01:PSALPR01 |
Practical salinity of the water body by conductivity cell and computation using UNESCO 1983 algorithm | ||
P01:PSLTCS01 |
Practical salinity of the water body by conductivity cell and computation using UNESCO 1983 algorithm | ||
P01:PSALST02 |
Practical salinity of the water body by CTD (second sensor) and computation using UNESCO 1983 algorithm | ||
P01:PSALCC02 |
Practical salinity of the water body by CTD (second sensor) and computation using UNESCO 1983 algorithm and calibration against independent measurements | ||
P01:PSALCU02 |
Practical salinity of the water body by CTD (second sensor) and computation using UNESCO 1983 algorithm and no calibration against independent measurements | ||
P01:PSALST01 |
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm | ||
P01:PSALCC01 |
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and calibration against independent measurements | ||
P01:PSALCU01 |
Practical salinity of the water body by CTD and computation using UNESCO 1983 algorithm and no calibration against independent measurements | ||
P01:PSALTC05 |
Practical salinity of the water body by in-situ conductivity cell (fifth sensor) and computation using UNESCO 1983 algorithm | ||
P01:PSALTC04 |
Practical salinity of the water body by in-situ conductivity cell (fourth sensor) and computation using UNESCO 1983 algorithm | ||
P01:PSALTC02 |
Practical salinity of the water body by in-situ conductivity cell (second sensor) and computation using UNESCO 1983 algorithm | ||
P01:PSALTC06 |
Practical salinity of the water body by in-situ conductivity cell (sixth sensor) and computation using UNESCO 1983 algorithm | ||
P01:PSALTC03 |
Practical salinity of the water body by in-situ conductivity cell (third sensor) and computation using UNESCO 1983 algorithm | ||
P01:PSALTC01 |
Practical salinity of the water body by in-situ conductivity cell and computation using UNESCO 1983 algorithm | ||
P01:PSCLCCI1 |
Practical salinity of the water body by in-situ conductivity cell and computation using UNESCO 1983 algorithm and calibration against independent measurements | ||
P01:PSCLCCL1 |
Practical salinity of the water body by in-situ conductivity cell and computation using UNESCO 1983 algorithm and laboratory calibrations applied | ||
P01:PSLTMP01 |
Practical salinity of the water body by model prediction | ||
P01:PSALMV01 |
Practical salinity of the water body by moving vessel profiler (MVP) and computation using UNESCO 1983 algorithm | ||
P01:PSALMC01 |
Practical salinity of the water body by moving vessel profiler (MVP) and computation using UNESCO 1983 algorithm and calibration against independent measurements | ||
P01:PSALBRBR |
Practical salinity of the water body by RBR MS-310 micro-salinometer and computation using UNESCO 1983 algorithm | ||
P01:PSALSG02 |
Practical salinity of the water body by thermosalinograph (second sensor) and computation using UNESCO 1983 algorithm and calibration against independent measurements | ||
P01:PSALSZ01 |
Practical salinity of the water body by thermosalinograph and computation using UNESCO 1983 algorithm | ||
P01:PSALSG01 |
Practical salinity of the water body by thermosalinograph and computation using UNESCO 1983 algorithm and calibration against independent measurements | ||
P01:PSALSU01 |
Practical salinity of the water body by thermosalinograph and computation using UNESCO 1983 algorithm and no calibration against independent measurements | ||
P01:PSSDEXTX |
Practical salinity standard deviation of experiment water sample by bench salinometer | ||
P01:PSSDBSTX |
Practical salinity standard deviation of the water body by bench salinometer | ||
P01:SDALPR01 |
Practical salinity standard deviation of the water body by conductivity cell and computation using UNESCO 1983 algorithm | ||
P01:PSSDCU02 |
Practical salinity standard deviation of the water body by CTD (second sensor) and computation using UNESCO 1983 algorithm and no calibration against independent measurements | ||
P01:PSALSD01 |
Practical salinity standard deviation of the water body by CTD and computation using UNESCO 1983 algorithm and calibration against independent measurements | ||
P01:PSSDCU01 |
Practical salinity standard deviation of the water body by CTD and computation using UNESCO 1983 algorithm and no calibration against independent measurements | ||
P01:PRESABS1 |
Presence or absence of biological entity specified elsewhere by using 0 or 1 binary classification | ||
P01:WMOCPWXX |
Present weather in the atmosphere by visual estimation and conversion to WMO code using table 4677/4501 | ||
P01:CD110TMS |
Ratio of cadmium-110/cadmium-112 {110Cd/112Cd} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and thermal ionization mass spectrometry | ||
P01:CD110UMS |
Ratio uncertainty of cadmium-110/cadmium-112 {110Cd/112Cd} in the water body [dissolved plus reactive particulate <0.2um phase] by filtration and thermal ionization mass spectrometry | ||
P01:FVLTTDZX |
Raw signal (arbitrary scale) of instrument output by autoranging chlorophyll fluorometer | ||
P01:FVLTTDZC |
Raw signal (arbitrary scale) of instrument output by autoranging chlorophyll fluorometer and correction to a common scale | ||
P01:TCNTCPTT |
Raw signal (counts) mean of instrument output by in-situ thermistor | ||
P01:TCNTCPT2 |
Raw signal (counts) mean of instrument output by in-situ thermistor (second sensor) | ||
P01:TCNTICPU |
Raw signal (counts) of CPU temperature determination | ||
P01:RDWIR380 |
Raw signal (counts) of instrument output (380nm wavelength) by cosine-collector downwelling spectral radiometer | ||
P01:RDWIR412 |
Raw signal (counts) of instrument output (412nm wavelength) by cosine-collector downwelling spectral radiometer | ||
P01:ROPBS470 |
Raw signal (counts) of instrument output (470nm wavelength) by in-situ optical backscatter measurement | ||
P01:RDWIR490 |
Raw signal (counts) of instrument output (490nm wavelength) by cosine-collector downwelling spectral radiometer | ||
P01:ROPBS532 |
Raw signal (counts) of instrument output (532nm wavelength) by in-situ optical backscatter measurement | ||
P01:RDWIR555 |
Raw signal (counts) of instrument output (555nm wavelength) by cosine-collector downwelling spectral radiometer | ||
P01:ROPBS650 |
Raw signal (counts) of instrument output (650nm wavelength) by in-situ optical backscatter measurement | ||
P01:ROPBS700 |
Raw signal (counts) of instrument output (700nm wavelength) by in-situ optical backscatter measurement | ||
P01:ROPBS880 |
Raw signal (counts) of instrument output (880nm wavelength) by in-situ optical backscatter measurement | ||
P01:UVDAZZ01 |
Raw signal (counts) of instrument output (single unspecified wavelength in pure water and darkness) by spectrophotometry | ||
P01:UVIRZZ01 |
Raw signal (counts) of instrument output (single unspecified wavelength in pure water) by spectrophotometry | ||
P01:UVSDZZ01 |
Raw signal (counts) of instrument output (single unspecified wavelength in seawater and darkness) by spectrophotometry | ||
P01:UVINZZ01 |
Raw signal (counts) of instrument output (single unspecified wavelength in seawater) by spectrophotometry | ||
P01:DWIRXXZZ |
Raw signal (counts) of instrument output (single unspecified wavelength) by cosine-collector downwelling spectral radiometer | ||
P01:UPRAXXZZ |
Raw signal (counts) of instrument output (single unspecified wavelength) by upwelling radiance spectral radiometer | ||
P01:DWIRRXZZ |
Raw signal (counts) of instrument output by cosine-collector downwelling PAR radiometer | ||
P01:DWIRRXZ1 |
Raw signal (counts) of instrument output by cosine-collector upwelling PAR radiometer | ||
P01:TCNTHRES |
Raw signal (counts) of instrument output by current meter high-resolution thermistor | ||
P01:NCNTACS1 |
Raw signal (counts) of instrument output by in-situ acoustic backscatter measurement | ||
P01:FCNTRW01 |
Raw signal (counts) of instrument output by in-situ chlorophyll fluorometer | ||
P01:FCNTDC01 |
Raw signal (counts) of instrument output by in-situ chlorophyll fluorometer and dark current baseline correction | ||
P01:FVLTPELS |
Raw signal (counts) of instrument output by in-situ linear-response phycoerythrin fluorometer | ||
P01:NVLTOBS1 |
Raw signal (counts) of instrument output by in-situ optical backscatter measurement | ||
P01:NCNTTUR1 |
Raw signal (counts) of instrument output by in-situ optical turbidity measurement | ||
P01:FCRSPSZR |
Raw signal (counts) of instrument output by in-situ particle sizer | ||
P01:UCSANS01 |
Raw signal (counts) of instrument output by in-situ silicate analysis system | ||
P01:FCNTCDOM |
Raw signal (counts) of instrument output by linear-response CDOM fluorometer | ||
P01:OXYOOPCT |
Raw signal (counts) of instrument output by oxygen sensor | ||
P01:ENGPSG01 |
Raw signal (counts) of instrument output by strain gauge | ||
P01:TCNTTCHO |
Raw signal (counts) of instrument output by thermosalinograph conductivity cell temperature sensor | ||
P01:TCNTCCHO |
Raw signal (counts) of instrument output by thermosalinograph conductivity sensor | ||
P01:TCNTTCMF |
Raw signal (counts) of instrument output by thermosalinograph sea temperature sensor | ||
P01:NCNTATT1 |
Raw signal (counts) of instrument output by transmissometer | ||
P01:TCNTSDCP |
Raw signal (counts) standard deviation of instrument output by in-situ thermistor | ||
P01:TCNTSDC2 |
Raw signal (counts) standard deviation of instrument output by in-situ thermistor (second sensor) | ||
P01:EPSVTBPT |
Raw signal (counts) standard deviation of instrument output by turbulence profiler shear sensor | ||
P01:EPSVTBP2 |
Raw signal (counts) standard deviation of instrument output by turbulence profiler shear sensor (second sensor) | ||
P01:R410PP01 |
Reflectance (410nm wavelength) in the water body by 2-pi scalar radiometer and division of upwelling irradiance by downwelling irradiance | ||
P01:R450PP01 |
Reflectance (450nm wavelength) in the water body by 2-pi scalar radiometer and division of upwelling irradiance by downwelling irradiance | ||
P01:R490PP01 |
Reflectance (490nm wavelength) in the water body by 2-pi scalar radiometer and division of upwelling irradiance by downwelling irradiance | ||
P01:R520PP01 |
Reflectance (520nm wavelength) in the water body by 2-pi scalar radiometer and division of upwelling irradiance by downwelling irradiance | ||
P01:R550PP01 |
Reflectance (550nm wavelength) in the water body by 2-pi scalar radiometer and division of upwelling irradiance by downwelling irradiance | ||
P01:R632PP01 |
Reflectance (632nm wavelength) in the water body by 2-pi scalar radiometer and division of upwelling irradiance by downwelling irradiance | ||
P01:IDCLFL02 |
Registered name identifier of flow cytometry cluster by classification to a term from the NVS SeaDataCloud Flow Cytometry Standardised Cluster Names Vocabulary (SDN:F02::) | ||
P01:B75A49A5 |
Relative abundance of amplifiable DNA sequences (95 percent confidence interval) of Bacteria (ITIS: 202421: WoRMS 6) in the water body by polymerase chain reaction with universal primer; serial dilution and relative UV fluorescence product assay and most probable number analysis | ||
P01:Z69B8110 |
Relative abundance of amplifiable DNA sequences (95 percent confidence interval) of Bacteroidetes [Subgroup: p1-7] in the water body by polymerase chain reaction with p1-7 primer; serial dilution and relative UV fluorescence product assay and most probable number analysis | ||
P01:O5899697 |
Relative abundance of amplifiable DNA sequences (95 percent confidence interval) of Bacteroidetes [Subgroup: p3-42] in the water body by polymerase chain reaction with p3-42 primer; serial dilution and relative UV fluorescence product assay and most probable number analysis | ||
P01:N63B7962 |
Relative abundance of amplifiable DNA sequences (95 percent confidence interval) of Bacteroidetes [Subgroup: True Agg58] in the water body by polymerase chain reaction with True Agg58 primer; serial dilution and relative UV fluorescence product assay and most probable number analysis | ||
P01:O36B7282 |
Relative abundance of amplifiable DNA sequences of Bacteria (ITIS: 202421: WoRMS 6) in the water body by polymerase chain reaction with universal primer; serial dilution and relative UV fluorescence product assay and most probable number analysis | ||
P01:JB353114 |
Relative abundance of amplifiable DNA sequences of Bacteroidetes [Subgroup: p1-7] in the water body by polymerase chain reaction with p1-7 primer; serial dilution and relative UV fluorescence product assay and most probable number analysis | ||
P01:H764B7A0 |
Relative abundance of amplifiable DNA sequences of Bacteroidetes [Subgroup: p3-42] in the water body by polymerase chain reaction with p3-42 primer; serial dilution and relative UV fluorescence product assay and most probable number analysis | ||
P01:Y2227937 |
Relative abundance of amplifiable DNA sequences of Bacteroidetes [Subgroup: True Agg58] in the water body by polymerase chain reaction with True Agg58 primer; serial dilution and relative UV fluorescence product assay and most probable number analysis | ||
P01:PSTSXX01 |
Relative expression in Prochlorococcus + Synechococcus (ITIS 601) of PSTS {phosphate binding protein} in the water body by antibody doping and Western dot blot | ||
P01:REFFMEXX |
Resistivity formation factor of the sediment pore water by division of in-situ resistivity by resistivity of overlying water | ||
P01:IDNOAROR |
Sample identifier (ARIESNET) | ||
P01:SAMPRFNM |
Sample reference number | ||
P01:IDNOOPCS |
Sample reference number (optical plankton recorder count) | ||
P01:ARGTECAL |
Saturation state of aragonite {CAS 14791-73-2} in the experiment water sample by computation | ||
P01:ARGTMODS |
Saturation state of aragonite {CAS 14791-73-2} in the sediment pore water by model prediction | ||
P01:ARGTWCAL |
Saturation state of aragonite {CAS 14791-73-2} in the water body by computation | ||
P01:ARGTMOD1 |
Saturation state of aragonite {CAS 14791-73-2} in the water body by model prediction | ||
P01:CLCTECAL |
Saturation state of calcite {CCaO3 CAS 13397-26-7} in the experiment water sample by computation | ||
P01:CLCTWCAL |
Saturation state of calcite {CCaO3 CAS 13397-26-7} in the water body by computation | ||
P01:ARSDECAL |
Saturation state standard deviation of aragonite {CAS 14791-73-2} in the experiment water sample by computation | ||
P01:ARSDWCAL |
Saturation state standard deviation of aragonite {CAS 14791-73-2} in the water body by computation | ||
P01:CLSDECAL |
Saturation state standard deviation of calcite {CCaO3 CAS 13397-26-7} in the experiment water sample by computation | ||
P01:CLSDWCAL |
Saturation state standard deviation of calcite {CCaO3 CAS 13397-26-7} in the water body by computation | ||
P01:WMOCSSXX |
Sea state on the water body by visual estimation and conversion to WMO code using table 3700 | ||
P01:SHOTPTID |
Seismic shot point identifier | ||
P01:LEFTTRAC |
Seismic trace index corresponding to the left side of a printed seismic section | ||
P01:RGHTTRAC |
Seismic trace index corresponding to the right side of a printed seismic section | ||
P01:MAGSENID |
Sensor identifier (magnetics) | ||
P01:ACYCAA01 |
Sequence number | ||
P01:SQNOIRCN |
Sequence number (connection attempt) by Iridium telecommunications | ||
P01:SQINPR01 |
Sequence number of instrument's profile | ||
P01:PTCHCT01 |
Setting (counts) of glider pitch mass | ||
P01:ROLLCT01 |
Setting (counts) of glider roll mass | ||
P01:VBDRCT01 |
Setting (counts) of glider variable buoyancy device | ||
P01:SGGCPH01 |
Setting (Seaglider guidance and control phase) | ||
P01:KRTSFA01 |
Shape kurtosis of waves on the water body by waverider | ||
P01:ISCMBMA1 |
Signal return amplitude from the water body by in-situ current meter beam 1 | ||
P01:ISCMBMA2 |
Signal return amplitude from the water body by in-situ current meter beam 2 | ||
P01:ISCMBMA3 |
Signal return amplitude from the water body by in-situ current meter beam 3 | ||
P01:WVSTSGSP |
Significant steepness (S2) of waves on the water body by waverider | ||
P01:SKEWFA01 |
Skewness of waves in the water body by waverider | ||
P01:GEBCOSRC |
Source identifier of GEBCO grid cell data | ||
P01:GEBCOTID |
Source identifier of GEBCO grid cell data by classification using GEBCO Grid Source Data Type Identifier (SDN:GGT::) | ||
P01:SPRCHALL |
Species richness of macrofauna [Size: >500um] on the bed by sieving and picking under an optical microscope | ||
P01:SPRCHPLY |
Species richness of Polychaeta (ITIS: 914166: WoRMS 883) on the bed by sieving and picking under an optical microscope | ||
P01:GSPKFB01 |
Spectral peakedness factor of waves on the water body by shipborne wave recorder and Fourier analysis after Goda (1970) | ||
P01:GSPKFA01 |
Spectral peakedness factor of waves on the water body by waverider and Fourier analysis after Goda (1970) | ||
P01:GSHPFA01 |
Spectral shape factor of waves on the water body by waverider and Fourier analysis after Nolte and Hsu (1972) | ||
P01:GSNHFB01 |
Spectral signal to noise ratio (high frequency) of waves on the water body by shipborne wave recorder | ||
P01:GSNHFA01 |
Spectral signal to noise ratio (high frequency) of waves on the water body by waverider | ||
P01:GSNLFB01 |
Spectral signal to noise ratio (low frequency) of waves on the water body by shipborne wave recorder | ||
P01:GSNLFA01 |
Spectral signal to noise ratio (low frequency) of waves on the water body by waverider | ||
P01:GSAJFB01 |
Spectral taper adjustment factor of waves on the water body by shipborne wave recorder | ||
P01:GSAJFA01 |
Spectral taper adjustment factor of waves on the water body by waverider | ||
P01:GBRFCB01 |
Spectral width (EPS2) of waves on the water body by waverider and and computed from moments as defined by Longuet-Higgins (1983) | ||
P01:GBRFEM01 |
Spectral width (EPS4) of waves on the water body by Interocean S4 wave gauge | ||
P01:GBRFVARD |
Spectral width (EPS4) of waves on the water body by radar water level recorder | ||
P01:GBRFVA01 |
Spectral width (EPS4) of waves on the water body by waverider | ||
P01:GBRFCA01 |
Spectral width (EPS4) of waves on the water body by waverider and automated record analysis | ||
P01:GSWDFA01 |
Spectral width (EPS4) of waves on the water body by waverider and computation from moments as defined by Cartwright and Longuet-Higgins (1956) | ||
P01:GBRFMA01 |
Spectral width (EPS4) of waves on the water body by waverider and manual record analysis | ||
P01:GBRFCS01 |
Spectral width (EPS4) of waves on the water body by wavestaff and automated record analysis | ||
P01:GBRFWVNU |
Spectral width (Nu) of waves on the water body by waverider | ||
P01:WMOCWFBF |
Speed of wind {wind speed} in the atmosphere by visual estimation and conversion to Beaufort scale | ||
P01:GSPFVA01 |
Spreading factor of waves on the water body by waverider | ||
P01:WVRDBTST |
Status (battery output) by waverider | ||
P01:STATFLIR |
Status flag by Iridium telecommunications | ||
P01:SSAMPC01 |
Sub-sampling coefficient | ||
P01:TRKSEGID |
Track segment identifier | ||
P01:NEPHIF01 |
Turbidity of water in the water body by in-situ nephelometer | ||
P01:ICETYPEX |
Type (EUMETSAT OSI-SAF) of ice on the water body by classification of brightness temperature and ASCAT backscatter | ||
P01:UWDRAD01 |
Unidirectivity index of waves on the water body by acoustic doppler wave array and computation using protocol of Barstow et al. (1991) | ||
P01:UWDRWVR1 |
Unidirectivity index of waves on the water body by waverider and computation using protocol of Barstow et al. (1991) | ||
P01:VDSIXX01 |
Vas Deferens Sequence Index of biological entity specified elsewhere | ||
P01:VDSINL01 |
Vas Deferens Sequence Index of Nucella lapillus (ITIS: 73297: WoRMS 140403) | ||
P01:WMOCWHXX |
Wave height of waves on the water body by visual estimation and conversion to WMO code using table 1555 | ||
P01:GKWRFS01 |
Wave spectrum check factor on the water body by Interocean S4 wave gauge and computation from the ratio of horizontal translation to heave | ||
P01:GKWRFA01 |
Wave spectrum check factor on the water body by waverider and computation from the ratio of horizontal translation to heave | ||
P01:WVSTZZ01 |
Wave steepness maximum of waves on the water body | ||
P01:WVSTPWVR |
Wave steepness mean of waves (having average crest period) on the water body by waverider | ||
P01:WWDWRA01 |
Wet weight to dry weight ratio of Posidonia oceanica (ITIS: 897411: WoRMS 145794) [Subcomponent: leaves] within a given area of the bed | ||
P01:YEARXXXX |
Year since birth of Christ |
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