Parameters are integral part of an item’s description. New parameters can be added by clicking the litlle ‘+Add’ in the upper left corner of the tab. Now either all mandatory entries can be filled in manually or by autocomplete.
Manually a (long) name and a short name need be assigned. As for the whole item the shortname should be as unique as possible. This can be achieved by attaching an index to the parameter, a serial number or something else which appears feasible. Keep in mind that the short names cannot be modified, because once created they are in use within ingest and storage (for setting the path to data files for a particular item). Be also aware that you cannot create items with the same short name under one parent (e.g. you cannot have two temperature parameters at the same item, rather choose temperature01 and temperature02) and avoid capital letters.
The field ‘Type’ refers to the parameter type (e.g. conductivity or cm/s). The unit of measurement must be set as well. Summaries of available types and units (as of 2021-06-16) are listed below.
When using autocomplete by punching in the first letters of the ‘Name’ field parameters from the stock of pangaea.de are offered to you by registry.awi.de. Especially the comment appears useful if data from O2A is propagated to pangaea.de for publishing. When using the autocomplete form only the parameter short name is left blank, because the user might want to choose a different one.
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|---|---|---|
| form to set up new parameters | suggestion of parameter entries from pangaea.de | filled form |
Please consider adding properties (spaces.awi.de/x/2Ia0FQ) to a parameter (by clicking the 
button) if applicable.
When in doubt or something is missing to your opinion, please send a support request to o2a-support@awi.de or ask the chief editors of your project.
Available parameter types
| systemName | id | description | uuid |
|---|---|---|---|
| absorption | 309 | 91becf79-26dd-4b22-a008-a04409645bd5 | |
| acceleration | 303 | 87670ea4-f792-43cd-a39d-4a62dc17cc02 | |
| activity | 429 | 76b4c379-c254-4f0d-b646-12eab4c23995 | |
| aerosol_mass_concentration | 436 | 98341363-3ea3-414f-9c6e-97b89d6b315e | |
| aerosol_optical_thickness | 516 | 3705c3fe-6223-4ad6-8db6-9dbd1bcf5197 | |
| air_temperature | 68 | Parameters quantifying the degree of hotness of the atmosphere. Specifically excludes indirect measurements of other parameters such as wet bulb temperatures. | fc5cc4ed-34f1-4442-bf62-03064ac8b3a2 |
| altitude | 458 | cd377775-29ed-4fc9-a40a-2897e223060b | |
| amount | 287 | 0efb68bc-ff69-4bd7-bbd5-d3c10a165ac0 | |
| amplitude | 275 | 4271a82d-837b-4810-aaf0-0322f3b0c773 | |
| angle | 534 | 6b64f4d3-fdc2-4ffe-be8a-b995b10ccccd | |
| angular_rates | 461 | be715c33-1bf0-4700-8083-68c98aced542 | |
| attitude | 264 | 10a9cc16-bd0b-4c41-816b-4536f48f61f1 | |
| backscatter_strength | 87 | 37b9ab0c-2848-4545-96f2-5ad7f1847cbf | |
| barometric_pressure | 89 | barometric pressure | c746b75f-9c8c-4a05-af0c-26438b89607a |
| Battery_terminal_voltage | 421 | 44502796-11b8-4ea5-b817-9730aaf08a19 | |
| benthic_flux | 60 | 77c357ed-6d1c-49ae-8c8e-49cb3bec8b05 | |
| black_carbon | 439 | cce7a2a2-a0ba-4bad-8546-161b301cd452 | |
| brightness_temperature | 387 | 2ec8f70f-d863-40c1-94db-eadd5b9b1e14 | |
| broadband_irradiance | 395 | 88a80c9d-dc33-4456-acec-541e6dadded4 | |
| capacitance | 542 | 57205b7f-ed6b-429d-9e9e-2b39cd7ee757 | |
| carbon_dioxide | 530 | 471b0684-ddf5-43fa-bb19-56a0de55afa9 | |
| carbon_monoxide | 432 | a9e87cce-1dec-47f9-ad9b-f46c05f915dc | |
| chlorophyll_a | 61 | 0b11db4a-2b7d-4e21-80b2-e50798256cd0 | |
| chromophoric_sensor | 181 | Colored dissolved organic matter (CDOM) is the optically measurable component of the dissolved organic matter in water. | 12bada79-eac9-4ee1-9c8c-5087f8fdd441 |
| cloud_ceiling | 98 | 6629860c-96a4-4af3-baf3-3b18c1f0662d | |
| cloud_condensation_nuclei | 438 | 44c92e8f-efa2-4d03-b792-5759d274db48 | |
| CO2 | 99 | a21726d3-ff08-443d-8aa8-040fbcaeadc2 | |
| colorimetric | 228 | colorimetric | 80bb2f08-7491-4193-844f-91aeacdf8059 |
| concentration | 192 | concentration | 4afcaa7a-83fb-4cb5-b728-121672931f83 |
| conductivity | 66 | c1eed3fa-acb9-4c91-b9d1-38cbe884e00b | |
| cosmic_particles | 297 | 01cc6aff-bfe3-4e3e-90d5-43816c22f6c0 | |
| course_over_ground | 397 | course over ground | 4c3ed12f-9fb8-487c-9441-8ab6cc0d24b0 |
| current | 280 | e7e2efa4-8f58-4602-bafe-fd7727c065dc | |
| current_direction | 77 | 7aef0165-663f-4d88-9fd7-9b6d85ffc5a7 | |
| current_speed | 76 | dbf564ab-4847-42a1-81c9-3e9e66371e8a | |
| date | 454 | 2e3ed696-87f3-4e66-b686-6852c8068b4e | |
| date_and_time | 103 | 03eca2de-557a-4a5b-bdfb-674a83155be6 | |
| delta_T | 202 | Temperature Difference | d27c5b9a-985a-41a9-ae07-089ef8ec4f69 |
| density | 313 | ccdf06cc-f857-4567-9ce2-1e37d8c9244e | |
| depth | 54 | 6cd37bff-4385-41c4-ac6f-3facebf5827b | |
| dielectric_permittivity | 539 | c778f89b-45ff-4c7e-b87f-2d9694935022 | |
| diffuse_radiation | 95 | a3f4d16d-8f52-4681-95fa-5dd4c296d08e | |
| direct_radiation | 96 | 4ef54061-1f22-4f08-9beb-ae49f0660799 | |
| direction | 460 | 2bd9c71f-c09f-4177-a663-10a4cb82da2c | |
| distance | 195 | distance | 86359168-9698-47bb-a929-58b1eec7c875 |
| duration | 175 | e596e004-46cc-40e5-b67b-29c39d7e4215 | |
| electrical_resistence | 6 | The electrical resistence | 306d0e38-85a7-4120-bacc-306c3900caa6 |
| factor | 391 | 317fb838-05e3-44a0-bdde-7453b3f60817 | |
| flow | 69 | 04ab2d1e-4085-47a6-b228-4cf5526b0bcf | |
| fluorescence | 55 | d1c6ec43-1a54-41dc-b07f-4b36fcb0be25 | |
| fluorescent_particles | 437 | 7f276689-c86a-49ba-a4e1-96212724c87e | |
| force | 386 | Force | 8bfb459f-8df3-4856-8b40-77fa50d70acf |
| frequency | 308 | eaa40e53-1736-4994-a031-4264fe590a0e | |
| global_radiation | 93 | b52b26c1-1492-4f18-a9c5-e8db610a22f1 | |
| gravity | 302 | d1501fda-6e40-4e25-aa1e-ce67a614c2e0 | |
| Heat_Capacity | 502 | MJ/m³K | 83412a1d-cda9-48f2-8d3c-28714498d7bb |
| heatflux | 324 | 7aae8fc9-e48d-4057-87e5-e9cde9c31ec2 | |
| height | 455 | df7756c1-8d7b-4c0b-bcf7-23c4ab5d06a8 | |
| ice_nucleating_particles | 450 | 2c4ec7ac-c8e1-4007-9584-9076985edea3 | |
| index | 307 | A key in an associative array | 3e3c52ca-f111-424b-ade2-b4b4fed10bce |
| inorganic_carbon | 65 | 076f5dbd-433d-48be-9819-d174b6ea4de6 | |
| intensity | 446 | 7e509b3a-69df-41fc-a23d-f3a500299b3a | |
| internal_temperature | 419 | ac47d32a-21cc-496d-83ba-1286405252e1 | |
| irradiance | 423 | d170de9c-2594-4fc5-87b3-936935ec51ad | |
| isotope_ratio | 304 | a428fb8f-7299-42ab-8dfb-9779c3c9e66f | |
| latitude | 101 | 05e7d1fa-5412-48f0-b7e5-c089feb46e2f | |
| length | 284 | 7716d4c6-aab8-499a-8878-213f2ee22da8 | |
| longitude | 102 | 4f36f324-04d2-4d8c-a75d-8b559e3cd8bb | |
| longwave_radiation | 326 | e0e7afce-0d5e-4871-bf53-be19d3daeec6 | |
| luminance | 478 | 45682dc6-8dd3-4374-b908-54cfb8351557 | |
| magnetic_field | 301 | c5df678b-74b7-4833-bef7-75b66f9e04fb | |
| methane | 431 | 65d17437-2c33-4072-8a82-fe5f4d21fd95 | |
| microbe_samples | 295 | afc279ba-2303-4071-b8bd-048e2c512568 | |
| net_radiation | 327 | 1f65154a-a146-4d0e-9d5d-4faa043a36e7 | |
| nitrate | 82 | 07c2d113-47e5-4195-8de7-70f99f0aa24e | |
| nitrite | 83 | 14e73044-501f-48cc-a47b-66fd280cd3f5 | |
| nitrogen | 241 | nitrogen | e504aa5c-fb1c-4434-9361-c1ed455b3d4d |
| nitrogen_dioxide | 180 | 34f883f0-392e-4cb4-8d33-c4698f3682ad | |
| organic_carbon | 64 | 082d9f63-f9cf-4203-ba5f-445b6884ab3e | |
| organic_matter | 81 | 30f7e62d-b66f-4b24-94c5-e9ada5e453cc | |
| orientation | 312 | Orientation (horizontal relative to true north) | 67ec3c22-98d7-4bb4-819a-91cf810cde52 |
| oxidation_reduction_potential | 512 | Oxidation reduction potential is a measurement that indicates the degree to which a substance is capable of oxidizing or reducing another substance. | 7fd20aea-a8dc-496e-b400-fdb3a1de7855 |
| oxygen | 56 | c32366c1-87c1-4fee-8bd1-42420a01c6aa | |
| ozone | 430 | 6056709d-4b8f-429f-8315-fc761e72381f | |
| ozone_partial_pressure | 418 | 0fde0e34-2b4b-4043-a0ae-c46cf6fcc99c | |
| ozone_raw_current | 420 | 037930d6-4271-49b8-abaa-9a46b30ed4a8 | |
| particle_number_concentration | 434 | fecd55ae-7fce-440a-b027-4b79966cec7c | |
| particle_size_distribution | 435 | 18e96f62-e8d0-4e23-b8ef-67b2464b5882 | |
| pCO2 | 100 | 8b35a42c-a3c0-408f-a2a6-1f96b9a93868 | |
| pH | 57 | 266e749f-24f8-4344-a8c6-fce634af7662 | |
| phaeopigment | 62 | 66533d5d-709c-4b12-9fba-73e4dedc02f3 | |
| phase | 543 | e7506388-5d01-4991-a315-75f4674935d8 | |
| phosphate | 85 | 03743511-ffba-480a-a3b7-f980159e3884 | |
| phospholipid | 63 | 5a2e8672-91b8-450b-aae1-06f628486538 | |
| photosynthetically_active_radiation | 88 | a5dbb915-4d41-49bf-833b-3f06ce47b837 | |
| phycocyanin | 70 | 88b662f5-6618-46de-af08-7a63ccd49e7d | |
| picture | 296 | aea50acf-eb8c-4e91-856e-7763c8e9dea4 | |
| porosity | 59 | 49923753-6751-408c-9991-fd732d23ae24 | |
| power | 314 | Power is the rate of doing work, the amount of energy transferred per unit time. | b3642575-a235-40f5-8f4c-2582f99fbdf3 |
| precipitation | 173 | 153f0055-5487-415b-a754-e07da08f9507 | |
| pressure | 179 | 63ad69f5-86c3-473c-986e-538e78d0603d | |
| pump_current | 422 | 70b1cbbd-e60a-4039-ba90-ba530e87a74b | |
| quality_flag | 270 | quality-flag describe a dataset quality | 49672910-d92b-4b01-8eeb-b04463aaf368 |
| radar_images | 299 | 7ce8289b-79ca-4baf-b25c-b53c8c2e9f8e | |
| radiation | 477 | 6085b453-cd96-4357-b6ce-c9cc0f43fbdf | |
| ratio | 528 | 70cc51a7-bdb3-4aac-9286-a3751dfedd27 | |
| reflex_radiation | 97 | 77d6bb71-df11-4c24-a7b3-c948f93d7e3e | |
| relative_humidity | 92 | 183ce65c-ba87-456a-82a1-fff65807213e | |
| relative_permittivity | 316 | 293425d1-3078-43b2-abff-fe48c1fe95bf | |
| resistivity | 58 | 79cc982c-ca86-4c87-9e18-3a1eb5bce09c | |
| RGB_image | 456 | 5314bcd1-c901-4826-9450-ec2f59c123d3 | |
| salinity | 30 | 9c3bb97a-b67c-4cc3-a557-4595c22f6eea | |
| satellite_images | 305 | dda6ffc8-3c65-43dc-9eed-73b4bcad7106 | |
| saturation | 221 | 4ab3712b-c371-4f8d-97c7-5abda4014920 | |
| sea_ice_concentration | 78 | f5765b15-47f7-46fd-8284-9c5a9e164bf3 | |
| sea_ice_drift_velocity | 80 | 1e7deb88-7b4e-4ec7-8ca7-4cc5d356e323 | |
| sea_ice_stress | 447 | e4664bef-f926-4472-a185-309209c44064 | |
| sea_ice_thickness | 79 | 587e924e-375e-42b1-92f2-39fb348bf822 | |
| sea_surface_height | 75 | fed6b4bb-f930-4f6c-bc25-5e71d35584cb | |
| Seawater_Specific_Gravity | 500 | Seawater specific gravity (SSG) is an indirect measure of seawater density. | 5c6b7da9-073b-4c2a-9c43-a1bfda9ea261 |
| shortwave_radiation | 325 | 397ae1c2-3f80-4130-8731-3360edbd1435 | |
| silicate | 84 | 58533685-5d3e-414c-a7b0-047dec7e8dc5 | |
| snow_height | 524 | Height or thickness of accumulated snow. The surface called 'surface' means the lower boundary of the atmosphere. | 0d14bc43-36cd-40a1-9370-7c310770f3d6 |
| snowfall_particle_shape | 445 | 8fbc3b01-efb7-4724-9d51-19e0cbebaa95 | |
| soil_temperature | 522 | Soil temperature is the bulk temperature of the soil, not the surface (skin) temperature. Soil means the near-surface layer where plants sink their roots. For subsurface temperatures that extend beneath the soil layer or in areas where there is no surface soil layer, the standard name solid_earth_subsurface_temperature should be used. | 04c49cfb-2932-4006-9743-170607f98b47 |
| solar_heat | 73 | 36d4e3f1-c696-4065-bddf-b6d23c13bb8a | |
| solid_earth_subsurface_temperature | 523 | The quantity with standard name solid_earth_subsurface_temperature is the temperature at any depth (or in a layer) of the solid earth, excluding surficial snow and ice (but not permafrost or soil). For temperatures in surface lying snow and ice, the more specific standard names temperature_in_surface_snow and land_ice_temperature should be used. For temperatures measured or modelled specifically in the soil layer (the near-surface layer where plants sink their roots) the standard name soil_temperature should be used. | d1a3136b-83bd-414a-9d50-9cc5d029196c |
| sonic_temperature | 385 | sonic temperature | 838e7947-6fd9-437d-bc16-d8603aaac487 |
| sound_pressure_in_water | 276 | Sound pressure is the difference from the local ambient pressure caused by a sound wave at a particular location and time. | 200813cc-d9b9-45f9-99ff-ca418c8abb30 |
| sound_pressure_level_in_water | 277 | Sound pressure is the difference from the local ambient pressure caused by a sound wave at a particular location and time. Sound pressure level in water is expressed on a logarithmic scale with reference to a sound pressure of 1e-6 Pa. Lp = 20 log10(p/p0) where Lp is the sound pressure level, p is the rms sound pressure and p0 is the reference sound pressure. | f2afe2e5-eb3a-41cc-886a-eaee929dc9ce |
| sound_velocity | 71 | c3b360d3-ed2a-4432-bc7f-44b930c3e319 | |
| spectral_density | 535 | c8c06f02-2f04-4e74-a4fe-ec95b62f87fe | |
| spectral_radiance | 394 | 8e38c13a-a4c6-48fb-9a0f-3482f50a89a4 | |
| speed | 298 | 5b307626-b985-4ae2-a29c-d6fd8daac1ed | |
| standard_deviation | 531 | The square root of the average of the squares of deviations about the mean of a set of data. | 7f41d7aa-6255-47ce-94c6-11eda56fd625 |
| sulfurdioxide | 433 | ba510264-d73c-4da8-98e5-b0fbdea2b617 | |
| surface_temperature | 190 | The surface temperature is the temperature at the interface, not the bulk temperature of the medium above or below. | deb531a6-ce1e-4ae2-876c-912d7b2d5aa9 |
| surface_albedo | 388 | The surface called surface means the lower boundary of the atmosphere. Albedo is the ratio of outgoing to incoming shortwave irradiance, where shortwave irradiance means that both the incoming and outgoing radiation are integrated across the solar spectrum. To specify the nature of the surface a cell_methods attribute should be supplied as described in Chapter 7.3.3 of the CF Conventions. | 73bfd63a-2f45-4127-986c-9491dad67b4a |
| temperature | 7 | temperature | 3a8408c7-58c5-4fdf-b8f0-48a71ad7d692 |
| text | 515 | string / text value | 596a32d9-5b52-4205-b07c-09d9e53e1228 |
| Thermal_Diffusivity | 503 | In heat transfer analysis, thermal diffusivity is the thermal conductivity divided by density and specific heat capacity at constant pressure. It measures the rate of transfer of heat of a material from the hot end to the cold end. | d051f66f-73f9-4b5d-aff9-e6db21884999 |
| thickness | 509 | 10162444-5b54-44ae-a5b0-8d6c05ed3517 | |
| time | 453 | a410c9e2-7196-4195-8598-aa2a4dddb06f | |
| total_alkalinity | 252 | 9bc599c1-0015-4aa2-b50a-a9a92fb390bf | |
| Total_Dissolved_Solids | 501 | Total dissolved solids (TDS) is a measure of the dissolved combined content of all inorganic and organic substances present in a liquid in molecular, ionized, or micro-granular (colloidal sol) suspended form. | 10ad7409-6928-4043-8ac0-a4ecca3e340f |
| transmission | 322 | transmission | ed3fc581-b4dc-4149-89bf-3a7e7aa294ed |
| turbidity | 72 | http://vocab.nerc.ac.uk/collection/P01/current/TURBXXXX/ | a4039e77-ecea-4a97-800c-9d7d4e400525 |
| uncertainty | 479 | 1afe9bde-6c5e-4ab1-9fb2-d842bf1a81b1 | |
| UV_radiation | 94 | e50c15a5-684e-441b-9767-efec324579f5 | |
| visibility | 174 | 7fcd8351-de06-4d45-97af-9d8fc6b0acf7 | |
| voltage | 281 | 0f301272-4269-46d6-aa26-58cacb054a56 | |
| volumetric_water_content_ | 315 | f9426bd3-7362-4412-8966-8ced128c5d66 | |
| water_content | 508 | cc8817ce-e1a2-47b7-8e3d-54571887b67f | |
| water_temperature | 67 | 653c9333-ab0e-41fb-8ff4-94b80c411ca0 | |
| water_vapour_content | 507 | cd700c7c-e010-48b8-8d92-0a440f017640 | |
| wave_height | 331 | Wave height of waves on the water body | 5019ced0-bf2d-4262-90a3-3e9fcbc9d897 |
| wave_period | 332 | Wave Period | 1f0e16bd-a1f6-4571-b45c-3e08a5ccac2e |
| wet_bulk_density | 86 | 1c920599-8466-431c-837e-49478ff83410 | |
| wind_direction | 91 | Direction (from) of wind relative to True North {wind direction} in the atmosphere. | 2de73374-361e-4b64-b7ff-00495ffdc394 |
| wind_speed | 90 | e3e222e1-7833-467c-96d7-5c23d92b787e |
| id | code | longName | uuid |
|---|---|---|---|
| 153 | #/min | counts per minute | f8750b55-912b-4d1c-9f41-4fc4a5ac4657 |
| 12 | % | b8e0d45f-4490-497d-bbca-17831378ffe6 | |
| 7 | % vol | 286a11a9-8f0e-4539-a135-5d906f026bbf | |
| 160 | 1/hour | 1ab264d1-e920-4aec-9fe1-0d7dcf3ab1e8 | |
| 149 | 1/m4 | number of particles per volume (m3) per size bin (m) | 434b30d3-d633-442f-aec8-c44f7c0527e6 |
| 158 | 1/min | eba76cdf-bb5b-44a6-af47-3faeaef1f74c | |
| 186 | 1/s | 8241f6f7-5490-4a48-b23f-5a3ecd6e1beb | |
| 159 | 1/week | 963dabfe-dc67-41f3-a4cb-ef785aa2495d | |
| 55 | 10e-4/m s/r | NA | 10d83f59-51a9-47ad-8478-195b2af13e0a |
| 105 | A | ampere | e53e29b4-2cdf-4dfc-b205-2e3732bca34b |
| 80 | bar | NA | a5941310-3806-486b-ac45-2dab28b15859 |
| 113 | bft | Beaufort | 83642928-402e-4e10-b737-b8b0199cb28f |
| 171 | C cm/W | degree C x cm per W | 15b963c6-8820-4649-bfb5-3b575d5ebfd9 |
| 16 | cells/ml | d8c58194-dc37-4f22-ad61-6bb965d56840 | |
| 1 | cm | centimeter | 17c35419-5be0-4c0e-beaa-ce6e51e11cd1 |
| 168 | cm W | cm x Watt | 4728c024-b2a8-4aa5-8943-f275a06de2c6 |
| 117 | cm/s | centimeter per second | 94969b67-64cd-45f2-a23a-754544924dae |
| 143 | cm3 | cubic centimeters | b6e624ab-b36c-45fe-a05a-a24f5a2c4cf1 |
| 97 | count | NA | 93fcf4ce-46ab-4cbf-b3af-b836f248e2cb |
| 142 | cpm | counts per minute | b326866f-c10b-4cae-b5c6-219e09b12d74 |
| 33 | day | NA | 2974f19e-592a-4e3f-8d75-e230e60ce7e8 |
| 101 | dB | decibel | 067973f3-7fe7-44e2-a185-3d66453a3664 |
| 50 | dbar | dbar | dbd8b293-7ef2-443a-be50-32d27ba3dcfa |
| 135 | decimal degrees | 33ac1b05-9b2f-4cb3-b79b-10b91f559aa1 | |
| 24 | degree | d2c1fe3d-af27-4f95-b8d2-3193bfbce9a6 | |
| 180 | degree/min | rate of turn | b5cfe25d-19f3-491a-b2cd-c73fdcf0f35c |
| 156 | degree/s | degree per second | dca882b3-b38b-471b-88f3-f0eaf0a4bc8e |
| 144 | dN/dlog dp cm-3 | particle number size distribution as normalized particle number concentration per measured bin width in cubic centimeters | b1ff160b-6e14-4404-bdd4-b58f6d438fc0 |
| 141 | dpm | disintegrations per minute | afda1f80-c6ad-473f-bb7f-97a32d47126f |
| 176 | Eh | redox potential | 65090950-9898-4807-9fea-73c7aa3456cd |
| 129 | FNU | formazine nephelometric units | aaf7fd57-4b68-4ed8-9e91-d648c86653bf |
| 49 | ft | feet | 67cfcea7-369d-4fc9-ae97-92656b33d069 |
| 54 | FTU | FTU | 9486cac3-acd4-4e43-8caf-3a8d5a6a232f |
| 157 | g | a0a678ac-9af0-4d33-965e-a3622b19810d | |
| 21 | g/cm3 | 8179542c-fd75-482c-8b12-f199fa9dd0e7 | |
| 177 | g/m3 | gram per cubic meter | 303879f0-012f-4dd8-8e2a-af2babb4c4d7 |
| 29 | gmt | NA | 4070b58a-3e69-4224-9869-4258de84a029 |
| 34 | hour | NA | 43e4ed1f-f1ef-47e7-a119-f334a13e8545 |
| 22 | hPa | 2b78d6a0-985d-4d60-816f-c93ab552a12f | |
| 99 | Hz | NA | 6972bd9a-4bed-4d57-a1da-187b3efdd324 |
| 191 | J⋅K−1⋅m−3 | c6772dc2-d21e-4c3f-bc95-ba64701767a0 | |
| 126 | K | Kelvin | 789a84ca-5837-4c26-b50d-4b496cb94176 |
| 107 | kg/m3 | kilogram per cubic meter | 7522d338-ec4b-48f1-891e-ebdb4b78fe7e |
| 184 | km | kilometers | 95d2a6c7-656a-49f5-952b-7d6f404fb1f7 |
| 133 | km/h | kilometers per hour | f9ef971d-802f-4cde-8648-56ebade2a203 |
| 130 | kN | kilonewton | c37b1fa1-d002-4231-b8f7-e957c43ea13d |
| 60 | knots | knots | 17579c31-1f1a-482a-846b-c93159529e56 |
| 108 | kPa | Kilopascal | e5ba9c1b-0ff4-4bcf-9795-e11cc4cd51b9 |
| 110 | l | Liter | f02e507f-d1d6-4234-8ccc-a17e5a5b2014 |
| 15 | l/min | ac74ac8e-2419-4023-a827-23d0b9033f17 | |
| 161 | lux | e0abc159-95d8-472a-bb3c-67c794bc7331 | |
| 2 | m | meter | 3dab7a68-b13e-47de-95f5-4d3658df659e |
| 17 | m/s | 66e0cedd-01d7-4c74-8ab6-ca8e15b8f082 | |
| 114 | m/s^2 | meter per squaresecond | 3724df58-64b1-41b9-be17-333656f83275 |
| 103 | mA | milli ampere | e2a3c08d-5fd1-4df9-8a05-61a753b900e8 |
| 35 | mbar | NA | 1d7d6b41-10d7-4124-a570-1235f4d24646 |
| 189 | Mbit/s | Megabits per second | 7c1313b5-1d0f-469b-8366-12899903b3db |
| 38 | mg/l | miligram per liter | acbd5aa2-df76-4194-843c-e05018798220 |
| 112 | mGal | MilliGal | aee7f38c-a71b-4165-82fc-59f83b1b7461 |
| 46 | microg/l | NA | 39286a39-98de-42c8-9ae2-c80838fb3a7f |
| 47 | micromol/l | NA | 228bc095-3dab-44d0-9c6f-fe01e2c659ba |
| 163 | micromol/sm-2 | 152aa122-e227-4553-b80e-5228f92018a0 | |
| 181 | micros | microsecond | 345dd9be-952e-4ddb-88a0-247b1f75c316 |
| 182 | microS/cm | microsiemens per centimeters | a8705560-9cea-4e6b-a75e-e613a577cb97 |
| 162 | microSiemens | 9939c0f5-618c-47bc-a6cc-fc3ac547ff34 | |
| 58 | miles | d5d837a6-8362-4e08-b892-1a53214729c9 | |
| 30 | min | NA | f448437a-8352-4b81-8265-ab5367f7a007 |
| 19 | MJ/m2 | 280ae174-2634-44f1-a5f9-e450415af5a2 | |
| 167 | MJ/m3 K | MJ per cubic meter per Kelvin | e98257c0-43b5-442f-8438-accbd4acbc5a |
| 51 | ml/l | ml/l | 84b68c6e-af54-4149-9176-cba0dc413f63 |
| 137 | ml/min | milliliter per minute | 3595ad88-97d0-42b5-a1cf-97c707b7a154 |
| 122 | mm | millimeter | 144ce116-50c6-4c40-ba26-804238f0c17f |
| 151 | Mm-1 | Mega meter | ba84b222-7931-4253-993a-618165e27b71 |
| 25 | mm/min | NA | d0e14758-5ce4-4225-b010-786e4cc5765b |
| 109 | mm/s | millimeter per second | edba7767-b90f-4a37-964e-9ef679a1f045 |
| 170 | mm2/s | square mm per second | 0a067afd-699d-4144-abba-d6314dfe4429 |
| 8 | mmol/m2/day | 05d9f519-b7c8-4edc-a5c2-423dbad2973e | |
| 134 | mmol/mol | d92e05b3-010f-4b18-889d-991f400e49dc | |
| 44 | mmol/m^3 | milli mol per cubic meter | 40e8069b-bec5-48c6-a981-045b81669d82 |
| 185 | mol m-2 s-1 | Particle flux, the rate of transfer of particles through a unit area | 41d9ddc9-4d39-4bd6-8515-99afff6ab413 |
| 100 | mol/l | mol per liter | 64c731cc-28f4-42cd-a5e7-f019f8ba4c8a |
| 145 | molecules/cm3 | molecules per cubic centimetre | e0ecd197-cb56-480a-a04e-e9716f396b33 |
| 32 | month | NA | 092c4d91-ff89-4146-9b35-56e4286568d7 |
| 138 | mPa | milliPascal | 5fc823ca-33aa-4a63-bedf-deae826896cb |
| 118 | ms | millisecond | 74fe80e3-2849-4e05-be14-ac6fcce91a6f |
| 13 | mS/cm | d62ff245-4a45-4540-b432-cc524837e0ee | |
| 124 | mS/cm | conductivity (micro Siemens per cm) | 88daad3e-a872-475b-8808-1defa7d33d6e |
| 178 | mS/m | microSiemens per metre | e03b8713-e718-4cb9-bb09-d863c29174bb |
| 98 | mV | NA | 1b409783-96f2-4bd1-a7b0-bb714b9b5221 |
| 104 | mV | milli voltage | 5f9e7b2a-7aa8-4a45-8316-712d65389b2a |
| 120 | mW | milliwatt | 3d7fcacb-d066-4ee3-81ec-af3675621ea9 |
| 131 | mW m-2 nm-1 sr-1 | 63a3f909-79d5-4dc0-9d82-170f5ed2f44f | |
| 85 | m^-1 | 7ef4804b-2d2d-4605-a255-910d2ba7ed82 | |
| 96 | m^-1 sr^-1 | NA | 23a562e0-c435-4bde-aa82-3eba5535e874 |
| 190 | m^2/s | df0741cd-305a-4d33-916d-1f4d10ad02da | |
| 125 | N | Newton | 6dbc8902-ae3f-42bb-9ccc-866691e840df |
| 59 | nautical miles | NA | 3b8a3224-9d48-47f8-8ad4-d81ba1c98327 |
| 146 | ng/m3 | nanogram per cubic meter | a36c75e0-a040-47f0-bec0-8b77e2da934d |
| 148 | nm | nanometers | 8bddafcb-8b24-43e7-a83f-c58805498347 |
| 136 | nmol/l | nanomol per liter | f054ba80-55d6-4236-aa0d-5aea79f44157 |
| 11 | nmol/ml | nanomol per milliliter | bf321974-e8e4-4eeb-a9aa-0c6d54ee782f |
| 41 | nmol/m^2 | NA | 046feea9-c30a-44a9-82dc-64d4ea0ed8ca |
| 127 | none | none | 0b62f090-22c1-4854-8340-6aaaaa9aff7a |
| 179 | ns | nanoseconds | d96ef461-1744-4bca-8913-26ebd613d683 |
| 111 | nT | NanoTesla | 6fb808cb-211b-4f03-b9c8-bdb53d7fd593 |
| 18 | NTU | nephelometric turbidity unit | f9ed2caa-b16a-4b98-b789-778e3059275c |
| 28 | number | b90e2679-b922-4e16-89c9-b5a82593fe79 | |
| 173 | Ohm | Ohm | f0ffd886-57bd-446a-9917-99d53f565e41 |
| 166 | Ohm cm | Ohm x cm | bcfa9f59-5717-419a-87b7-01e088c289fb |
| 147 | Pa | Pascal | a97d70d8-6241-4312-866b-e2a9861e88e1 |
| 150 | particles/cm3 | particles per cubic centimetre | 743a6fb1-1cbb-46f9-b067-cc10e141219d |
| 188 | per meg | per meg | 8462250f-7908-4462-8ddd-f081a00b3107 |
| 3 | percent | percentage | ec5e63f5-24a1-4ea1-a8e6-626304dbc5a5 |
| 192 | pF | picofarad | a4cfbb3b-8e15-4bbb-ac36-085b5da9feab |
| 53 | pH | pH | 61b7e8d2-c295-4c72-a3bb-b15cacde4e3d |
| 4 | ppb | parts per billion | b55011d1-473d-4059-af5d-db0dfce78387 |
| 42 | ppm | parts per million | a73df252-f152-4ba7-b102-def983647b6c |
| 164 | ppmV | parts per million by volume | 6e6ea8a4-713c-4d11-9667-223ad63d8e5f |
| 43 | ppt | parts per trillion | 4dc29269-764b-49cb-84f0-c4432667d2c5 |
| 39 | PSU | PSU | cc7e51d0-21fb-4762-a9ba-9d8657e2e2f0 |
| 26 | raw | d3ddc96a-803e-43d8-bb11-04c8d4996150 | |
| 52 | RH | Relative humidity | b9a4bfd4-16dc-4b39-8c26-5aef61effcc2 |
| 128 | RSU | relative fluorescence unit | 5d912511-0f14-4270-a215-a1742ee90c69 |
| 36 | s | NA | f17c0ba8-298d-43bc-8e7e-c0af16af418f |
| 187 | s*m**2 | f4f68f61-50cf-478f-ac3f-eb34f8f40cef | |
| 79 | S/m | siemens per meter | b36d26c9-0221-451d-bce8-f455f5a51987 |
| 169 | st | seawater specific gravity (sigma t) | c04582ef-efb4-4ee5-a8a5-578da5c57aed |
| 37 | text | text | 4f48d367-83a9-44a1-861f-dbebfb6e7c9e |
| 27 | time | NA | 4f59e6d3-3bd1-4918-90af-91cf1d031914 |
| 57 | ton | 9c9380d0-00c2-4dc5-8995-4677e19d7514 | |
| 121 | Torr | Millimeter Quecksilbersäule | ce858c1d-d32d-491e-ad51-5da8e669849b |
| 48 | unknown | unknown unit | e8c60b63-2c32-46fd-88da-6cad9c55caae |
| 5 | V | 310b4c69-72da-4ca2-ab25-5ea3a6cfebde | |
| 102 | V | voltage | 4004e739-02cc-4f69-9724-aa80f1b31fd2 |
| 119 | W | watt | e949de38-c19d-4cdd-abba-503b696b42ec |
| 123 | W / mK | thermal conductivity | ea91891c-d8de-4637-96cd-7a376a8967d9 |
| 132 | W m-2 | 71a9af4d-4223-4538-be75-2618fb7b74d3 | |
| 172 | W/m | W per meter | d32dc3f7-fc8d-4469-9c15-6b751d37264e |
| 23 | W/m^2 | db8cb8dd-ed5f-4b32-80c6-de9affb15b8f | |
| 155 | Wm-2 sr-1 um-1 | Watt per m2 per steradian per micrometer | 8dccf045-c510-4479-81b1-b3e949abb0c0 |
| 31 | year | NA | f126887d-c7a7-4162-9dfe-b98e474b5d02 |
| 20 | ° | 5964e8c0-07f6-4d49-9fb2-b643e00f0c64 | |
| 115 | °/s | degree per second | b852c245-5ab5-472f-abb8-cfcc45aaa2f1 |
| 14 | °C | ecbb48c4-577e-4c2b-851a-b967133dd5e5 | |
| 140 | µA | microAmpere | a328bc3b-54d3-4953-80d9-55d9f5afb067 |
| 81 | µatm | NA | 55bccdf6-0efd-464f-b3c9-5e24809da3db |
| 10 | µg/cm3 | ff158834-fbf0-4d20-b5f0-565ed655a8e5 | |
| 9 | µg/l | 5c59fe26-c88d-4acc-aec3-307ae770083a | |
| 84 | µM | NA | 52999796-4a89-4048-a11d-8334232c4ddb |
| 154 | μm | micrometers | 7d79ae1e-ba06-4eb1-a0f9-f75368dcc8b3 |
| 40 | µmol | micro mol | 7e86f232-eefc-4dba-8d90-df5586b515a0 |
| 83 | µmol m-2 s-1 | Particle flux, the rate of transfer of particles through a unit area | 237b03b0-70a0-4070-83d6-6df2316c4612 |
| 56 | µmol photon/m^2/s | NA | 744bf30e-6d5c-4be7-8389-e53e205272c8 |
| 93 | µmol/kg | micro mol per kilogram | 1d44d773-85c5-403a-9b55-48148fce4efe |
| 6 | µmol/l | micromol per liter | 86b0bd67-790f-4fd3-afb6-31274ba8caea |
| 45 | µmol/mol | micro mol per mol | 2df4f059-c124-42cc-8c47-ba55222a6f46 |
| 106 | µPa | micropascal | 3d6b8856-3c5e-47bc-8588-084a07760b73 |
| 183 | µS/cm | bac09e3b-393d-484e-b0af-3920db892835 | |
| 152 | μV/Wm¯² | microvolts per watt per sqmeter | 70abb260-fc5c-4458-b94e-8a5e4eab20ed |
| 116 | ‰ | permil | b029eefe-936d-4d8e-864d-7ba8fb36349a |
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