Closed amilan17 closed 9 months ago
https://github.com/wmo-im/tt-wigosmd/wiki/2023.04.06-TT-WIGOSMD notes: (Joerg) the paths are a legacy approach and are implemented in OSCAR/Surface; Tags provide a way to multiple applications for users to filter in a more meaning way. Moving from one-to-one relationship to one-to-many; e.g.. /oceans//temperature /atmosphere//temperature. OSCAR NextGen will be deployed in 2025 (probably) and will be (hopefully) able to accommodate the tag filtering.
@fstuerzl @luciacap
Does the path need to include the parameter name? For example, can it just be
\Atmosphere\Temperature |
instead of
\Atmosphere\Temperature\Air temperature (at specified distance from reference surface) |
I added columns to 1-01 and 5-02 tables and rebased other active branches. Content still needs to be adjudicated.
@fstuerzl Are the paths used in OSCAR for ObservingMethods?
@amilan17 yes, the paths are also used for methods in the same way as for the variables (and programs). In the internal reference table for methods, all entries have a parent method, so that a hierarchical structure can be build up:
questions/notes for discussion at meeting: General
1-01-03
notation | 2021-path | 2023-tags | name |
---|---|---|---|
13 | \Ocean\Topography\Bathymetry | topography | Bathymetry |
18 | \Ocean\Basic Physical Properties\Pressure | physical properties | Pressure |
62 | \Ocean\Currents\Ocean Current - Direction | currents | Ocean current direction |
63 | \Ocean\Currents\Ocean Current - Speed | currents | Ocean current speed |
64 | \Ocean\Topography\Ocean dynamic topography (ODT) | physical properties | Ocean dynamic topography (ODT) |
65 | \Ocean\Currents\Ocean surface currents (vector) | physical properties | Surface currents |
67 | \Ocean\Miscellaneous\Carbon species\Dissolved inorganic carbon (DIC) | biogeochemistry, inorganic carbon | Dissolved inorganic carbon (DIC) |
68 | \Ocean\Miscellaneous\Carbon species\Dissolved organic carbon | biogeochemistry, dissolved organic carbon | Dissolved organic carbon |
69 | \Ocean\Miscellaneous\Nitrogen species\Dissolved organic nitrogen | biogeochemistry, nitrogen species | Dissolved organic nitrogen |
70 | \Ocean\Miscellaneous\Diffuse attenuation coefficient (DAC), turbidity | physical properties | Diffuse attenuation coefficient (DAC), turbidity |
71 | \Ocean\Biology\Chlorophyll concentration | biogeochemistry, inorganic carbon | Chlorophyll a concentration |
72 | \Ocean\Miscellaneous\Ocean suspended sediments concentration | biogeochemistry, particulate matter | Ocean suspended sediments concentration |
73 | \Ocean\Miscellaneous\Oil spill cover | biogeochemistry | Oil spill cover |
74 | \Ocean\Biology\Primary production | biology | Primary production |
75 | \Ocean\Miscellaneous\Sea surface Mass Flux | physical properties | Sea surface mass flux |
76 | \Ocean\Miscellaneous\Sea surface heat flux | physical properties, ocean surface heat flux | Ocean Surface heat flux |
77 | \Ocean\Topography\Sea surface height anomaly (SSHA) | physical properties, sea surface height | Sea surface height anomaly (SSHA) |
78 | \Ocean\Miscellaneous\Total alkalinity (TA) | biogeochemistry, inorganic carbon | Total alkalinity (TA) |
79 | \Ocean\Miscellaneous\pH | biogeochemistry, inorganic carbon | pH |
82 | \Ocean\Biology\SiO3= (metasilicate) | biogeochemistry | SiO3= (metasilicate) |
85 | \Ocean\Other Gas\O2-Ar ratio | biogeochemistry | O2-Ar ratio |
86 | \Ocean\Other Gas\Ocean subsurface dissolved oxygen concentration | biogeochemistry, oxygen | Ocean subsurface dissolved oxygen concentration |
87 | \Ocean\Other Gas\Oxygen, dissolved | biogeochemistry, oxygen | Dissolved oxygen |
89 | \Ocean\Radiation\Water-leaving spectral radiance | physical properties, radiation | Water-leaving spectral radiance |
90 | \Ocean\Reactive Gas\C2H6S (dimethylsulfide, DMS) | biogeochemistry, volatile organic compound | C2H6S (dimethylsulfide, DMS) |
91 | \Ocean\Basic Physical Properties\Ocean salinity | physical properties | Subsurface salinity |
92 | \Ocean\Basic Physical Properties\Sea surface salinity | physical properties | Sea surface salinity |
94 | \Ocean\Basic Physical Properties\Ocean temperature | physical properties, subsurface temperature | Subsurface temperature |
95 | \Ocean\Basic Physical Properties\Sea surface temperature | physical properties | Sea surface temperature |
96 | \Ocean\Topography\Coastal sea level (tide) | physical properties, sea surface height | Coastal sea level (tide) |
98 | \Ocean\Waves\Dominant wave direction | physical properties, sea state | Dominant wave direction |
99 | \Ocean\Waves\Dominant wave period | physical properties, sea state | Dominant wave period |
100 | \Ocean\Waves\Significant wave height | physical properties, sea state | Significant wave height |
101 | \Ocean\Waves\Wave 1D energy frequency spectrum | physical properties, sea state | Wave 1D energy frequency spectrum |
102 | \Ocean\Waves\Wave directional energy frequency spectrum | physical properties, sea state | Wave directional energy frequency spectrum |
103 | \Ocean\Wind\Wind stress | physical properties, ocean surface stress | Wind stress |
311 | \Ocean\Biology\Nitrogen species\NO2- (nitrite) | biogeochemistry, nutrients | NO2- (nitrite) |
312 | \Ocean\Biology\Nitrogen species\NO3- (nitrate) | biogeochemistry, nutrients | NO3- (nitrate) |
399 | \Ocean\Biology\Phosporus species\PO4= (phosphate) | biogeochemistry, nutrients | PO4= (phosphate) |
400 | \Ocean\Biology\Phosporus species\Total organic phosphorus | biogeochemistry, phosporus species | Total organic phosphorus |
401 | \Ocean\Cryosphere\Sea ice\Sea-ice cover | cryosphere, sea ice | Sea-ice cover |
402 | \Ocean\Cryosphere\Sea ice\Sea-ice elevation | cryosphere, sea ice | Sea-ice elevation |
403 | \Ocean\Cryosphere\Sea ice\Sea-ice motion | cryosphere, sea ice | Sea-ice motion |
404 | \Ocean\Cryosphere\Sea ice\Sea-ice surface characteristics | cryosphere, sea ice | Sea-ice surface characteristics |
405 | \Ocean\Cryosphere\Sea ice\Sea-ice surface temperature | cryosphere, sea ice | Sea-ice surface temperature |
406 | \Ocean\Cryosphere\Sea ice\Sea-ice thickness | cryosphere, sea ice | Sea-ice thickness |
407 | \Ocean\Cryosphere\Sea ice\Sea-ice type | cryosphere, sea ice | Sea-ice type |
408 | \Ocean\Transmissivity\CTD\Transmissivity | physical properties, CTD | Transmissivity |
549 | \Ocean\Other Gas\CTD\pO2 | biogeochemistry, CTD | pO2 |
731 | \Ocean\Basic Physical Properties\Conductivity | physical properties, CTD | Conductivity |
732 | \Ocean\Basic Physical Properties\Density | physical properties, CTD | Density |
733 | \Ocean\Biology\Zooplankton (size and-or development stage) | biology | Zooplankton (size and/or development stage) |
735 | \Ocean\Greenhouse Gas\pCO2 | biogeochemistry, inorganic carbon | pCO2 |
736 | \Ocean\Greenhouse Gas\pCO2 air-sea flux | biogeochemistry, inorganic carbon | pCO2 air-sea flux |
739 | \Ocean\Miscellaneous\Fluorescence (DOM) | physical properties | Fluorescence (DOM) |
740 | \Ocean\Topography\Mean dynamic topography (MDT) | physical properties, sea surface height | Mean dynamic topography (MDT) |
741 | \Ocean\Topography\Mean sea surface (MSS) | physical properties, sea surface height | Mean sea surface (MSS) |
742 | \Ocean\Topography\Sea surface height (SSH, OST) | physical properties, sea surface height | Sea surface height (SSH, OST) |
743 | \Ocean\Waves\Wave height | physical properties, sea state | Wave height |
744 | \Ocean\Waves\Wave period | physical properties, sea state | Wave period |
745 | \Ocean\Waves\Directional waves | physical properties, sea state | Directional waves |
10080 | \Ocean\Tides | physical properties, sea surface height | Tides |
12244 | biogeochemistry, other gas | N2, Ar | |
12245 | biology, plankton | Zooplankton biomass and diversity | |
12246 | biogeochemistry | Ocean subsurface tracers |
1-01-05
Need to determine how to organize paths with new labels associated with hydrological variables.
Terrestrial | |
Cryosphere | |
Groundwater | |
Lake | |
Land surface | |
River | |
Soil | |
Well | |
new | Hydrological |
new | Aquifer |
new | liquidPhase |
new | surface water |
new | watershed |
new | reservoir |
new | stream |
The paths could be:
and the following can remain as tags: watershed, reservoir, aquifer, stream, liquidPhase
1-01-01
Hi Anna Apologies for the late reply. I checked also with Franziska and we both don’t see the need for the parameter name in the path.
From: Anna Milan @.> Sent: Thursday, April 13, 2023 4:00 PM To: wmo-im/wmds @.> Cc: Cappelletti Lucia @.>; Mention @.> Subject: Re: [wmo-im/wmds] Reintroduce paths (Issue #472)
@fstuerzlhttps://github.com/fstuerzl @luciacaphttps://github.com/luciacap
Does the path need to include the parameter name? For example, can it just be \Atmosphere\Temperature
instead of \Atmosphere\Temperature\Air temperature (at specified distance from reference surface)
— Reply to this email directly, view it on GitHubhttps://github.com/wmo-im/wmds/issues/472#issuecomment-1507020824, or unsubscribehttps://github.com/notifications/unsubscribe-auth/AIPTXM225QGX2QTXYY75E6LXBABHPANCNFSM6AAAAAAWNB6ETQ. You are receiving this because you were mentioned.Message ID: @.**@.>>
+1 for listing everything except the variable name itself in the path. If handled in this way, we must assure that it is handled the same way throughout the repo. As paths are not included in the codes registry, I consider this a purely technical change that doesn't need to be listed in the FT amendment. Agreed?
https://github.com/wmo-im/tt-wigosmd/wiki/2023.04.21-TT-WIGOSMD note: removal of the variable name from the path will not have an impact on the FT
1-01-01
- "Gas" vs "Gas Phase"
- Need to determine paths for 12252-12262. Change "remote sensing" to something that is more independant of method?
If I recall correctly, the previous ad-hoc team on ACV has concluded that 'aerosol' should be turned into 'particlce phase'; and to be consistent, 'gas' should turn into 'gas phase'.
https://github.com/wmo-im/tt-wigosmd/wiki/2023.05.04-TT-WIGOSMD notes: @nuneslf recommends re-introducing paths without going to FT procedure.
Yes, that is correct.
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From: Anna Milan @.> Sent: Wednesday, 24 May, 2023 10:54 To: wmo-im/wmds @.> Cc: Klausen Jörg @.>; Comment @.> Subject: Re: [wmo-im/wmds] Reintroduce paths (Issue #472)
— Reply to this email directly, view it on GitHubhttps://github.com/wmo-im/wmds/issues/472#issuecomment-1560713672, or unsubscribehttps://github.com/notifications/unsubscribe-auth/AIFWXY4BMMUN6NAU2CKEFYLXHXEEDANCNFSM6AAAAAAWNB6ETQ. You are receiving this because you commented.Message ID: @.***>
@joergklausen @fstuerzl Can you please review the path changes in this diff? https://github.com/wmo-im/wmds/compare/master...8f72c05e746cda25015b2c6862bbe08857ec7e8d
Table 1-01-01 paths | Count of path |
---|---|
\Atmosphere | 8 |
\Atmosphere\Bioaerosol\Fungi\Capnodiales | 1 |
\Atmosphere\Bioaerosol\Fungi\Pleosporales | 1 |
\Atmosphere\Bioaerosol\Pollen | 1 |
\Atmosphere\Bioaerosol\Pollen\Adoxaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Altingiaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Amaranthaceae | 2 |
\Atmosphere\Bioaerosol\Pollen\Aquifoliaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Arecaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Asteraceae | 4 |
\Atmosphere\Bioaerosol\Pollen\Betulaceae | 6 |
\Atmosphere\Bioaerosol\Pollen\Brassicaceae | 2 |
\Atmosphere\Bioaerosol\Pollen\Buxaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Cannabaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Caryophyllaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Cupressaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Cyperaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Elaeagnaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Ericaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Euphorbiaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Fagaceae | 3 |
\Atmosphere\Bioaerosol\Pollen\Ginkgoaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Juglandaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Juncaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Malvaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Moraceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Oleaceae | 4 |
\Atmosphere\Bioaerosol\Pollen\Pinaceae | 6 |
\Atmosphere\Bioaerosol\Pollen\Plantaginaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Platanaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Poaceae | 3 |
\Atmosphere\Bioaerosol\Pollen\Polygonaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Ranunculaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Rosaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Salicaceae | 2 |
\Atmosphere\Bioaerosol\Pollen\Sapindaceae | 2 |
\Atmosphere\Bioaerosol\Pollen\Taxaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Ulmaceae | 1 |
\Atmosphere\Bioaerosol\Pollen\Umbelliferae | 1 |
\Atmosphere\Bioaerosol\Pollen\Urticaceae | 2 |
\Atmosphere\Clouds | 8 |
\Atmosphere\Clouds\Ice | 4 |
\Atmosphere\Clouds\Liquid water | 1 |
\Atmosphere\Clouds\Optical properties | 4 |
\Atmosphere\Clouds\Position | 3 |
\Atmosphere\Clouds\Type | 4 |
\Atmosphere\Dynamics | 3 |
\Atmosphere\Gas phase | 5 |
\Atmosphere\Gas phase\Alcohol | 2 |
\Atmosphere\Gas phase\Alkane | 2 |
\Atmosphere\Gas phase\Greenhouse gas | 8 |
\Atmosphere\Gas phase\Greenhouse gas | 1 |
\Atmosphere\Gas phase\Greenhouse gas\CFCs | 5 |
\Atmosphere\Gas phase\Greenhouse gas\Halocarbons | 6 |
\Atmosphere\Gas phase\Greenhouse gas\Halocarbons\CI Species | 10 |
\Atmosphere\Gas phase\Greenhouse gas\Halon | 2 |
\Atmosphere\Gas phase\Greenhouse gas\HCFCs | 5 |
\Atmosphere\Gas phase\Greenhouse gas\HFCs | 11 |
\Atmosphere\Gas phase\Greenhouse gas\Inorganic nitrogen species | 1 |
\Atmosphere\Gas phase\Greenhouse gas\Organic nitrogen species\Nitrile | 10 |
\Atmosphere\Gas phase\Greenhouse gas\PFCs | 3 |
\Atmosphere\Gas phase\Other gas | 3 |
\Atmosphere\Gas phase\Reactive gas | 17 |
\Atmosphere\Gas phase\Reactive gas\Nitrogen containing compounds | 9 |
\Atmosphere\Gas phase\Reactive gas\Sulfur containing compounds | 3 |
\Atmosphere\Gas phase\Reactive gas\VOC | 72 |
\Atmosphere\Gas phase\Terpene | 7 |
\Atmosphere\Humidity | 7 |
\Atmosphere\Lightning | 6 |
\Atmosphere\Lightning\Position | 3 |
\Atmosphere\Particle phase | 2 |
\Atmosphere\Particle phase\Composition | 1 |
\Atmosphere\Particle phase\Composition\Inorganic anions | 9 |
\Atmosphere\Particle phase\Composition\Inorganic carbonaceous | 4 |
\Atmosphere\Particle phase\Composition\Inorganic cations | 12 |
\Atmosphere\Particle phase\Composition\Inorganic nitrogen species | 12 |
\Atmosphere\Particle phase\Composition\Major inorganic components | 6 |
\Atmosphere\Particle phase\Composition\Organic anions | 8 |
\Atmosphere\Particle phase\Composition\Organic carbonaceous | 2 |
\Atmosphere\Particle phase\Composition\Trace elements | 53 |
\Atmosphere\Particle phase\Optical properties | 21 |
\Atmosphere\Particle phase\Physical properties | 27 |
\Atmosphere\Particle phase\Physical properties - primary | 1 |
\Atmosphere\POPs\PAH | 18 |
\Atmosphere\POPs\POP | 11 |
\Atmosphere\Precipitation | 6 |
\Atmosphere\Pressure | 3 |
\Atmosphere\Radiation | 3 |
\Atmosphere\Radiation\IR | 3 |
\Atmosphere\Radiation\Solar | 4 |
\Atmosphere\Radiation\UV | 5 |
\Atmosphere\Radionuclide | 80 |
\Atmosphere\Remote sensing | 4 |
\Atmosphere\Remote sensing\Optical properties | 7 |
\Atmosphere\Temperature | 4 |
\Atmosphere\Total Atmospheric Deposition | 4 |
\Atmosphere\Total Atmospheric Deposition\Inorganic acid | 1 |
\Atmosphere\Total Atmospheric Deposition\Inorganic anions | 7 |
\Atmosphere\Total Atmospheric Deposition\Inorganic cations | 4 |
\Atmosphere\Total Atmospheric Deposition\Inorganic nitrogen species | 3 |
\Atmosphere\Total Atmospheric Deposition\Organic acid | 3 |
\Atmosphere\Total Atmospheric Deposition\Trace elements | 13 |
\Atmosphere\Visibility | 2 |
\Atmosphere\Visibility\Obscurations | 6 |
\Atmosphere\Wind | 6 |
Atmosphere\Dynamics | 1 |
Atmosphere\Gas phase\Greenhouse gas\CFCs | 1 |
Atmosphere\Gas phase\Greenhouse gas\Halon | 2 |
Atmosphere\Gas phase\Greenhouse gas\HCFCs | 1 |
Atmosphere\Gas phase\Greenhouse gas\OVOC | 18 |
Grand Total | 675 |
Diff: https://github.com/wmo-im/wmds/compare/master...629708978417b26453894cba71cd6eaf1bd94e1c
Table 1-01-03 paths | Count of path with names |
---|---|
\Ocean\Biogeochemistry | 14 |
C2H6S (dimethylsulfide, DMS) | |
Chlorophyll a concentration | |
Dissolved organic nitrogen | |
Dissolved oxygen | |
Fluorescence (DOM) | |
N2, Ar | |
O2-Ar ratio | |
Ocean subsurface dissolved oxygen concentration | |
Ocean subsurface tracers | |
Ocean suspended sediments concentration | |
Oil spill cover | |
pH | |
SiO3= (metasilicate) | |
Total alkalinity (TA) | |
\Ocean\Biogeochemistry\Nitrogen species | 2 |
NO2- (nitrite) | |
NO3- (nitrate) | |
\Ocean\Biogeochemistry\Phosporus species | 2 |
PO4= (phosphate) | |
Total organic phosphorus | |
\Ocean\Biology | 3 |
Primary production | |
Zooplankton (size and/or development stage) | |
Zooplankton biomass and diversity | |
\Ocean\Cryosphere\Sea ice | 7 |
Sea-ice cover | |
Sea-ice elevation | |
Sea-ice motion | |
Sea-ice surface characteristics | |
Sea-ice surface temperature | |
Sea-ice thickness | |
Sea-ice type | |
\Ocean\Physical properties | 9 |
Diffuse attenuation coefficient (DAC), turbidity | |
Ocean Surface heat flux | |
Pressure | |
Sea surface mass flux | |
Sea surface salinity | |
Sea surface temperature | |
Subsurface salinity | |
Subsurface temperature | |
Tides | |
\Ocean\Physical properties\CTD | 2 |
Conductivity | |
Density | |
\Ocean\Physical properties\Currents | 3 |
Ocean current direction | |
Ocean current speed | |
Surface currents | |
\Ocean\Physical properties\Radiation | 1 |
Water-leaving spectral radiance | |
\Ocean\Topography | 8 |
Bathymetry | |
Coastal sea level (tide) | |
Mean dynamic topography (MDT) | |
Mean sea surface (MSS) | |
Ocean dynamic topography (ODT) | |
Sea surface height (SSH, OST) | |
Sea surface height anomaly (SSHA) | |
Transmissivity | |
\Ocean\Waves | 8 |
Directional waves | |
Dominant wave direction | |
Dominant wave period | |
Significant wave height | |
Wave 1D energy frequency spectrum | |
Wave directional energy frequency spectrum | |
Wave height | |
Wave period | |
\Ocean\Wind | 1 |
Wind stress |
These paths still need work. See https://github.com/wmo-im/wmds/issues/472#issuecomment-1513517012 for more details. @jbianchi81 can you take a look at the hydro parameters?
Table 1-01-05 paths | Count of path |
---|---|
\Terrestrial\Cryosphere\Glacier | 7 |
\Terrestrial\Cryosphere\Ice sheet | 1 |
\Terrestrial\Cryosphere\Lake ice | 1 |
\Terrestrial\Cryosphere\Permafrost | 3 |
\Terrestrial\Cryosphere\River ice | 1 |
\Terrestrial\Cryosphere\Snow | 7 |
\Terrestrial\Groundwater | 1 |
\Terrestrial\Hydrological\Aquifer\Groundwater | 9 |
\Terrestrial\Hydrological\Aquifer\Groundwater\Well | 1 |
\Terrestrial\Hydrological\Groundwater | 3 |
\Terrestrial\Hydrological\Groundwater\Soil | 1 |
\Terrestrial\Hydrological\Liquid phase\Groundwater | 1 |
\Terrestrial\Hydrological\Liquid phase\Soil | 1 |
\Terrestrial\Hydrological\Liquid phase\Surface water | 10 |
\Terrestrial\Hydrological\Liquid phase\Surface water\Lake | 1 |
\Terrestrial\Hydrological\Liquid phase\Surface water\Reservoir | 2 |
\Terrestrial\Hydrological\Liquid phase\Surface water\Stream | 5 |
\Terrestrial\Hydrological\Liquid phase\Surface water\Watershed | 1 |
\Terrestrial\Lake | 3 |
\Terrestrial\Land surface | 6 |
\Terrestrial\Land surface\Fire | 3 |
\Terrestrial\Land surface\Greenhouse gas | 1 |
\Terrestrial\Land surface\Humidity | 1 |
\Terrestrial\Land surface\Radiation | 2 |
\Terrestrial\Land surface\Temperature | 1 |
\Terrestrial\Land surface\Vegetation | 5 |
\Terrestrial\River | 2 |
\Terrestrial\Soil | 2 |
\Terrestrial\Soil\Humidity | 2 |
\Terrestrial\Soil\Temperature | 1 |
\Terrestrial\Well | 1 |
Grand Total | 86 |
DIFF of changes: https://github.com/wmo-im/wmds/compare/8d0cfc75d49153d2f29a6f9933b5a0158c34c179...142bd83037d1d572257f398cef634e35b99f3af1
Table 5-02-01 paths | Count of path |
\Atmosphere\Aerosol\In situ\Composition | 8 |
\Atmosphere\Aerosol\In situ\Optical properties | 6 |
\Atmosphere\Aerosol\In situ\Physical properties | 12 |
\Atmosphere\Aerosol\Remote-sensing, active | 2 |
\Atmosphere\Aerosol\Remote-sensing, active | 2 |
\Atmosphere\Aerosol\Remote-sensing, passive\Optical properties | 1 |
\Atmosphere\Clouds | 1 |
\Atmosphere\Clouds\Remote-sensing, active\Laser-based methods | 1 |
\Atmosphere\Dynamics\Numerical model | 1 |
\Atmosphere\Dynamics\Numerical model\Dispersion | 1 |
\Atmosphere\Dynamics\Numerical model\Trajectories | 3 |
\Atmosphere\Evaporation\In situ | 3 |
\Atmosphere\Greenhouse gas\Remote-sensing, active | 1 |
\Atmosphere\Humidity\In situ\Capacitive method | 1 |
\Atmosphere\Humidity\In situ\Dewpoint determination | 2 |
\Atmosphere\Humidity\In situ\Hygrometer | 5 |
\Atmosphere\Humidity\In situ\Laser-based | 1 |
\Atmosphere\Humidity\In situ\Psychrometer | 3 |
\Atmosphere\Humidity\Remote-sensing, active | 1 |
\Atmosphere\Humidity\Remote-sensing, passive | 3 |
\Atmosphere\Micrometeorology\In situ | 11 |
\Atmosphere\Ozone\In situ | 8 |
\Atmosphere\Ozone\Remote-sensing, active | 1 |
\Atmosphere\Ozone\Remote-sensing, passive | 8 |
\Atmosphere\Precipitation\In situ | 9 |
\Atmosphere\Precipitation\Remote-sensing, active | 1 |
\Atmosphere\Pressure\In situ | 7 |
\Atmosphere\Radiation\In situ | 4 |
\Atmosphere\Radiation\In situ\Direct solar | 2 |
\Atmosphere\Radiation\In situ\Longwave | 1 |
\Atmosphere\Radiation\In situ\Shortwave | 3 |
\Atmosphere\Radiation\Remote-sensing, passive | 1 |
\Atmosphere\Radioactivity\In situ | 6 |
\Atmosphere\Radiosonde | 4 |
\Atmosphere\Temperature\In situ | 7 |
\Atmosphere\Temperature\Remote-sensing, active | 1 |
\Atmosphere\Temperature\Remote-sensing, passive | 1 |
\Atmosphere\Total atmospheric deposition\In situ | 39 |
\Atmosphere\Trace gas\In situ | 11 |
\Atmosphere\Trace gas\In situ\Chemiluminescence | 5 |
\Atmosphere\Trace gas\In situ\Fluorescence | 3 |
\Atmosphere\Trace gas\In situ\Gas chromatography | 9 |
\Atmosphere\Trace gas\In situ\Ion Chromatography (IC) | 2 |
\Atmosphere\Trace gas\In situ\Laser-based methods | 8 |
\Atmosphere\Trace gas\In situ\Mass spectrometry | 8 |
\Atmosphere\Trace gas\In situ\Optical spectrometry | 1 |
\Atmosphere\Trace gas\Remote-sensing, active | 1 |
\Atmosphere\Trace gas\Remote-sensing, passive | 3 |
\Atmosphere\Visual range\Remote-sensing, active | 2 |
\Atmosphere\Wind | 2 |
\Atmosphere\Wind\In situ | 12 |
\Atmosphere\Wind\Remote-sensing, active | 3 |
Grand Total | 242 |
https://github.com/wmo-im/tt-wigosmd/wiki/2023.06.01-TT-WIGOSMD/ notes: Please review PR: https://github.com/wmo-im/wmds/pull/483 @joergklausen to review PR when ready;
Apologies for joining the discussion late.
Overall the paths look OK but I've found one possible inconsistency:
165,\Terrestrial\Groundwater 12261,\Terrestrial\Hydrological\Groundwater\Soil
I suggest adding Hydrological after Terrestrial for all hydrological variables. Also, in the following the order should be coherent:
12261,\Terrestrial\Hydrological\Groundwater\Soil 12262,\Terrestrial\Hydrological\Aquifer\Groundwater
I suggest maybe moving Groundwater before Aquifer or removing Groundwater And in
12271,\Terrestrial\Hydrological\Liquid phase\Surface water
Hydrological\Liquid phase could be redundant, maybe we should eliminate Liquid phase
https://github.com/wmo-im/tt-wigosmd/wiki/2023.06.15-TT-WIGOSMD notes: team discussed options for removing 'domain' from the paths; @joergklausen will review table 1-01-01 in PR
https://github.com/wmo-im/tt-wigosmd/wiki/2023.06.30-TT-WIGOSMD notes:
Anna mentioned that this does not need to be ready for FT2023-2 amendment document and will ask Joerg to review when ready for feedback;
Paths are complete and integrated into the master branch.
Details
The problem is that OSCAR/Surface is still using the paths to organize the filtering of codes and in some cases they are unable to map the tags to the paths and cannot introduce the new codes to the application. I think we can address this by adding a column for tags specifically and continue encoding of paths in the CSV tables. This will allow us to continue developing the tag approach, but it also continues the paradigm of having the same code twice for different paths.
Requestor
Anna Milan (WMO), @amilan17 @fstuerzl @luciacap