NetCDF Subset Service for Grids
(
Switch to Grids As Points
)
THREDDS Data Server
NetCDF Subset Service
Dataset:
/thredds/ncss/grid/aggregations/g/d626000/9/TP
(
Dataset Description
)
Variables:
With coordinate axes:
reftime time latitude longitude
▲
reftime
:
start=1900-01-01T00:00:00Z, end=2010-12-31T21:00:00Z (npts=324336 spacing=regularPoint)
time
:
start=0.000000 end=973005.000000 Hour since 1900-01-01T00:00:00Z regularPoint resolution=3.000000 (npts=324336)
latitude
:
start=89.141518 end=-89.141518 degrees_north irregularPoint resolution=-1.121283 (npts=160)
longitude
:
start=0.000000 end=358.875000 degrees_east regularPoint resolution=1.125000 (npts=320)
Vertical integral of eastward heat flux @ Entire atmosphere (considered as a single layer)
Vertical integral of potentialandinternal energy @ Entire atmosphere (considered as a single layer)
Vertical integral of temperature @ Entire atmosphere (considered as a single layer)
Vertical integral of mass of atmosphere @ Entire atmosphere (considered as a single layer)
Vertical integral of energy conversion @ Entire atmosphere (considered as a single layer)
Vertical integral of eastward mass flux @ Entire atmosphere (considered as a single layer)
Vertical integral of potentialandinternalandlatent energy @ Entire atmosphere (considered as a single layer)
Vertical integral of total energy @ Entire atmosphere (considered as a single layer)
Vertical integral of water vapour @ Entire atmosphere (considered as a single layer)
Vertical integral of cloud liquid water @ Entire atmosphere (considered as a single layer)
Vertical integral of cloud frozen water @ Entire atmosphere (considered as a single layer)
Vertical integral of ozone @ Entire atmosphere (considered as a single layer)
Vertical integral of northward water vapour flux @ Entire atmosphere (considered as a single layer)
Vertical integral of eastward geopotential flux @ Entire atmosphere (considered as a single layer)
Vertical integral of northward heat flux @ Entire atmosphere (considered as a single layer)
Vertical integral of eastward water vapour flux @ Entire atmosphere (considered as a single layer)
Vertical integral of northward kinetic energy flux @ Entire atmosphere (considered as a single layer)
Vertical integral of northward mass flux @ Entire atmosphere (considered as a single layer)
Vertical integral of divergence of cloud frozen water flux @ Entire atmosphere (considered as a single layer)
Vertical integral of divergence of mass flux @ Entire atmosphere (considered as a single layer)
Vertical integral of northward ozone flux @ Entire atmosphere (considered as a single layer)
Vertical integral of divergence of cloud liquid water flux @ Entire atmosphere (considered as a single layer)
Vertical integral of northward total energy flux @ Entire atmosphere (considered as a single layer)
Vertical integral of eastward ozone flux @ Entire atmosphere (considered as a single layer)
Vertical integral of northward geopotential flux @ Entire atmosphere (considered as a single layer)
Vertical integral of eastward cloud liquid water flux @ Entire atmosphere (considered as a single layer)
Vertical integral of northward cloud liquid water flux @ Entire atmosphere (considered as a single layer)
Vertical integral of divergence of total energy flux @ Entire atmosphere (considered as a single layer)
Vertical integral of divergence of ozone flux @ Entire atmosphere (considered as a single layer)
Vertical integral of divergence of moisture flux @ Entire atmosphere (considered as a single layer)
Vertical integral of divergence of geopotential flux @ Entire atmosphere (considered as a single layer)
Vertical integral of divergence of kinetic energy flux @ Entire atmosphere (considered as a single layer)
Vertical integral of divergence of thermal energy flux @ Entire atmosphere (considered as a single layer)
Vertical integral of eastward total energy flux @ Entire atmosphere (considered as a single layer)
Vertical integral of eastward kinetic energy flux @ Entire atmosphere (considered as a single layer)
Vertical integral of kinetic energy @ Entire atmosphere (considered as a single layer)
Vertical integral of thermal energy @ Entire atmosphere (considered as a single layer)
Vertical integral of eastward cloud frozen water flux @ Entire atmosphere (considered as a single layer)
Vertical integral of northward cloud frozen water flux @ Entire atmosphere (considered as a single layer)
Vertical integral of mass tendency @ Entire atmosphere (considered as a single layer)
Snow albedo @ Ground or water surface
Convective available potential energy @ Ground or water surface
Leaf area index low vegetation @ Ground or water surface
Leaf area index high vegetation @ Ground or water surface
Total column liquid water @ Ground or water surface
Total column ice water @ Ground or water surface
Total column rain water @ Ground or water surface
UV visible albedo for direct radiation @ Ground or water surface
UV visible albedo for diffuse radiation @ Ground or water surface
Near IR albedo for direct radiation @ Ground or water surface
Near IR albedo for diffuse radiation @ Ground or water surface
Albedo @ Ground or water surface
Boundary layer height @ Ground or water surface
Total cloud cover @ Ground or water surface
10 metre U wind component @ Ground or water surface
10 metre V wind component @ Ground or water surface
Low cloud cover @ Ground or water surface
Medium cloud cover @ Ground or water surface
High cloud cover @ Ground or water surface
Skin reservoir content @ Ground or water surface
Total column ozone @ Ground or water surface
Surface pressure @ Ground or water surface
Total column water @ Ground or water surface
Total column water vapour @ Ground or water surface
Charnock @ Ground or water surface
Mean sea level pressure @ Ground or water surface
Neutral wind at 10 m u-component @ Ground or water surface
Neutral wind at 10 m v-component @ Ground or water surface
Total column snow water @ Ground or water surface
Skin temperature @ Ground or water surface
Instantaneous eastward turbulent surface stress @ Ground or water surface
Instantaneous northward turbulent surface stress @ Ground or water surface
Instantaneous surface sensible heat flux @ Ground or water surface
Instantaneous moisture flux @ Ground or water surface
Forecast albedo @ Ground or water surface
Forecast surface roughness @ Ground or water surface
Forecast logarithm of surface roughness for heat @ Ground or water surface
100 metre U wind component @ Ground or water surface
100 metre V wind component @ Ground or water surface
With coordinate axes:
reftime time layer_between_two_depths_below_surface_layer latitude longitude
▲
reftime
:
start=1900-01-01T00:00:00Z, end=2010-12-31T21:00:00Z (npts=324336 spacing=regularPoint)
time
:
start=0.000000 end=973005.000000 Hour since 1900-01-01T00:00:00Z regularPoint resolution=3.000000 (npts=324336)
layer_between_two_depths_below_surface_layer
:
start=0.000000 end=7.000000 cm contiguousInterval resolution=7.000000 (npts=1)
latitude
:
start=89.141518 end=-89.141518 degrees_north irregularPoint resolution=-1.121283 (npts=160)
longitude
:
start=0.000000 end=358.875000 degrees_east regularPoint resolution=1.125000 (npts=320)
Ice temperature layer 1 @ Layer between 2 depths below land surface layer
With coordinate axes:
reftime time layer_between_two_depths_below_surface_layer1 latitude longitude
▲
reftime
:
start=1900-01-01T00:00:00Z, end=2010-12-31T21:00:00Z (npts=324336 spacing=regularPoint)
time
:
start=0.000000 end=973005.000000 Hour since 1900-01-01T00:00:00Z regularPoint resolution=3.000000 (npts=324336)
layer_between_two_depths_below_surface_layer1
:
start=7.000000 end=28.000000 cm contiguousInterval resolution=21.000000 (npts=1)
latitude
:
start=89.141518 end=-89.141518 degrees_north irregularPoint resolution=-1.121283 (npts=160)
longitude
:
start=0.000000 end=358.875000 degrees_east regularPoint resolution=1.125000 (npts=320)
Ice temperature layer 2 @ Layer between 2 depths below land surface layer
With coordinate axes:
reftime time layer_between_two_depths_below_surface_layer2 latitude longitude
▲
reftime
:
start=1900-01-01T00:00:00Z, end=2010-12-31T21:00:00Z (npts=324336 spacing=regularPoint)
time
:
start=0.000000 end=973005.000000 Hour since 1900-01-01T00:00:00Z regularPoint resolution=3.000000 (npts=324336)
layer_between_two_depths_below_surface_layer2
:
start=28.000000 end=100.000000 cm contiguousInterval resolution=72.000000 (npts=1)
latitude
:
start=89.141518 end=-89.141518 degrees_north irregularPoint resolution=-1.121283 (npts=160)
longitude
:
start=0.000000 end=358.875000 degrees_east regularPoint resolution=1.125000 (npts=320)
Ice temperature layer 3 @ Layer between 2 depths below land surface layer
With coordinate axes:
reftime time layer_between_two_depths_below_surface_layer3 latitude longitude
▲
reftime
:
start=1900-01-01T00:00:00Z, end=2010-12-31T21:00:00Z (npts=324336 spacing=regularPoint)
time
:
start=0.000000 end=973005.000000 Hour since 1900-01-01T00:00:00Z regularPoint resolution=3.000000 (npts=324336)
layer_between_two_depths_below_surface_layer3
:
start=100.000000 end=255.000000 cm contiguousInterval resolution=155.000000 (npts=1)
latitude
:
start=89.141518 end=-89.141518 degrees_north irregularPoint resolution=-1.121283 (npts=160)
longitude
:
start=0.000000 end=358.875000 degrees_east regularPoint resolution=1.125000 (npts=320)
Ice temperature layer 4 @ Layer between 2 depths below land surface layer
Soil temperature level 4 @ Layer between 2 depths below land surface layer
Horizontal extent:
Horizontal subset:
Lat/lon box
Bounding box (in decimal degrees)
North
West
East
South
Reset to full extension
Horizontal stride:
Time subset:
Time range
Single time
Start:
End:
Stride:
Reset to full extension
Time:
Vertical subset:
Single level
Vertical stride
Level:
Stride:
Output format:
Format:
netcdf3
netcdf4-classic
netcdf4ext
CF compliance:
Add 2D Lat/Lon to file
NCSS request URL:
THIS WILL BE REPLACED BY buildAccessUrl().
Submit
Reset