NetCDF Subset Service for Grids
(
Switch to Grids As Points
)
THREDDS Data Server
NetCDF Subset Service
Dataset:
/thredds/ncss/grid/ns_bfm_3d
(
Dataset Description
)
Variables:
With coordinate axes:
latc lonc
▲
latc
:
start=48.500000 end=60.400002 degrees_north regularPoint resolution=0.100000 (npts=120)
lonc
:
start=-5.655200 end=16.195599 degrees_east regularPoint resolution=0.166800 (npts=132)
res. v
res. u
bathymetry
With coordinate axes:
level latc lonc
▲
level
:
start=0.000000 end=25.000000 level regularPoint resolution=1.000000 (npts=26)
latc
:
start=48.500000 end=60.400002 degrees_north regularPoint resolution=0.100000 (npts=120)
lonc
:
start=-5.655200 end=16.195599 degrees_east regularPoint resolution=0.166800 (npts=132)
hcc
With coordinate axes:
seddepth time latc lonc
▲
time
:
start=1382400.000000 end=661348800.000000 seconds since 1991-01-01 00:00:00 irregularPoint resolution=1020040.803709 (npts=648)
latc
:
start=48.500000 end=60.400002 degrees_north regularPoint resolution=0.100000 (npts=120)
lonc
:
start=-5.655200 end=16.195599 degrees_east regularPoint resolution=0.166800 (npts=132)
DIC in sediment
Ph in sediment
PO4--- in sediment
H+ in sediment
S-- in sediment
NO3- in sediment
NH4+ in sediment
Dissolved Org.Carbon
SiO3-- in sediment
With coordinate axes:
time latc lonc
▲
time
:
start=1382400.000000 end=661348800.000000 seconds since 1991-01-01 00:00:00 irregularPoint resolution=1020040.803709 (npts=648)
latc
:
start=48.500000 end=60.400002 degrees_north regularPoint resolution=0.100000 (npts=120)
lonc
:
start=-5.655200 end=16.195599 degrees_east regularPoint resolution=0.166800 (npts=132)
Penetration Depth organic C
flux of Omnivorous mesozooplankton at BOTTOM
P4(PhytoPlankton) filtered by filter feeders
V10
Epibenthos
Ammonium in oxic layer
input to lowest level of phytoplankton
P1(PhytoPlankton) Forcing for Benthic System
total cloud cover
flux of Dinoflagellates at BOTTOM
flux of red.equivalent at lower benthic boundary
flux of Reduction Equivalents at BOTTOM
nitrification flux
P3(PhytoPlankton) Forcing for Benthic System
Silicate in denitrification layer
total mass present in pelagic
P5(PhytoPlankton) filtered by filter feeders
Deposit feeders
Silicate in oxic layer
total mass present in pelagic
total mass present in pelagic
flux of Small Diatoms at BOTTOM
flux of Phaeocystis colonies at BOTTOM
total flux from bento pel
Ammonium in denitrification layer
P4(PhytoPlankton) Forcing for Benthic System
total mass present in benthos
Labile organic carbon
surface heat fluxes
flux of Flagellates at BOTTOM
flux of Microzooplankton at BOTTOM
flux of Heterotrophic nanoflagellates (HNAN) at BOTTOM
total flux from bento pel
total flux from bento pel
total mass present in benthos
total mass present in benthos
temperature (2m)
PotentialFoodAvailability for Benthic Fish
P6(PhytoPlankton) filtered by filter feeders
microzooplankton filtered by filter feeders
flux of Particulate Organic Carbon (POC) at BOTTOM
total mass present in benthos
Aerobic benthic bacteria
Benthic predators
net bact. produc.
Penetration Depth organic P
P5(PhytoPlankton) Forcing for Benthic System
net filterfeeder produc.
flux of Carnivorous mesozooplankton at BOTTOM
P3(PhytoPlankton) filtered by filter feeders
Ammonium in anoxic layer
Enhancement factor due to bioturbation
flux of Silicate at BOTTOM
divergence
Penetration Depth organic N
Total Benthic oxic respiratio
Reduction equivalents in denitrification layer
pH in anaerobic layer
input to lowest level of detritus
flux of silicate at lower benthic boundary
flux of Nitrate at BOTTOM
P6(PhytoPlankton) Forcing for Benthic System
Labile organic carbon
Phosphate in anoxic layer
inorganic C in anaerobic sediment
Denitrification layer depth
gross primary production
CO2 in denitrification layer
flux of Diatoms at BOTTOM
pH in anaerobic layer
flux of Pelagic Bacteria at BOTTOM
flux of ammonium at lower benthic boundary
flux of Particulate Organic Carbon (POC) at BOTTOM
Meiobenthos
air pressure
Suspension feeders
Phosphate in denitrification layer
U10
short wave radiation
Phosphate in oxic layer
flux of Phosphate at BOTTOM
flux of Ammonium at BOTTOM
flux of dissolved inorganic carbon at SURFACE
total flux from bento pel
Alkalinity in aerobic sediment
Enhancement factor due to bioirrigation
Oxygen penetration depth
Reduction equivalents in anoxic layer
Anaerobic benthic bacteria
flux of Oxygen at BOTTOM
R6->pseudofaeces->Q6 by filter feeders
Total Benthic oxic respiratio
Penetration Depth organic Si
Reduction equivalents in oxic layer
flux of alkalinity at BOTTOM
meridional velocity
flux of dissolved inorganic carbon at BOTTOM
P1(PhytoPlankton) filtered by filter feeders
net second. mesoz. prod.
PotentialFoodAvailability for Pelagic Fish
CO2 in aerobic layer
Total Benthic anoxic respiration
total inputted P by rivers
alkalinity in aerobic layer
inorganic C in aerobic sediment
denitrification flux
Total Benthic anoxic respiration
flux of PicoPhytoPlankton at BOTTOM
Particulate organic carbon
alkalinity in denitrification layer
humidity
P2(PhytoPlankton) filtered by filter feeders
flux of phosphate at lower benthic boundary
detritus filtered by filter feeders
Total Benthic anoxic respiration
ReOxidation of Red.Equiv. in oxic layer
pH in aerobic layer
first order nitrification rate
pH in aerobic layer
Nitrate in sediments
total inputted N by rivers
aerobic benthic nirifying bacteria
surface stress - y
Alkalinity in anaerobic sediment
P2(PhytoPlankton) Forcing for Benthic System
total mass present in pelagic
zonal velocity
net second. microz prod.
net primary production
Total Benthic oxic respiratio
input to lowest level of detritus
surface stress - x
elevation
With coordinate axes:
time level latc lonc
▲
time
:
start=1382400.000000 end=661348800.000000 seconds since 1991-01-01 00:00:00 irregularPoint resolution=1020040.803709 (npts=648)
level
:
start=0.000000 end=25.000000 level regularPoint resolution=1.000000 (npts=26)
latc
:
start=48.500000 end=60.400002 degrees_north regularPoint resolution=0.100000 (npts=120)
lonc
:
start=-5.655200 end=16.195599 degrees_east regularPoint resolution=0.166800 (npts=132)
nitrate uptake for primary production
Nitrate
HCO3- concentration
total N uptake for primary production
Heterotrophic nanoflagellates (HNAN)
Gross Primary Production
dissolved inorganic carbon
layer thickness
TEP in Phaeocystis
Oxygen
Microzooplankton
partial CO2 pressure
Particulate Organic Carbon (POC)
Phosphate
Flagellates
gross secondary production
Omnivorous mesozooplankton
Net O2 conc. = O2 - H2S
Diatoms
Labile Organic Carbon (LOC)
Labile Organic Carbon (LOC)
vertical vel.
Temperature
Carnivorous mesozooplankton
pH
net primary production
Dinoflagellates
Relative Oxygen saturation
Detritus sedimentation rate
Pelagic Bacteria
P1(PhytoPlankton) sedimentation rate
Filterfeederlarvae
CO3-- concentration
CO2 concentration
Reduction Equivalents
temperature
zonal vel.
PicoPhytoPlankton
Irradiance
Chlorophylla
Dissolved inorganic carbon
meridional vel.
TEP (long sugars)
Silicate
Phaeocystis colonies
Suspended sediment
Total extinction coefficient
Carbonate alkalinity
FaecelPellet Particulate Carbon (POC)
Small Diatoms
Ammonium
salinity
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
CF compliance:
Add 2D Lat/Lon to file
NCSS request URL:
THIS WILL BE REPLACED BY buildAccessUrl().
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