netcdf VNPAERDB_M3.A2018001.001.2018172161507 {
dimensions:
        Latitude_1D = 180 ;
        Longitude_1D = 360 ;
        Aerosol_Types = 8 ;
        Land_Bands = 3 ;
        Ocean_Bands = 7 ;
variables:
        int Aerosol_Optical_Thickness_550_Land_Count(Latitude_1D, Longitude_1D) ;
                Aerosol_Optical_Thickness_550_Land_Count:long_name = "number of days used for
aerosol optical thickness at 550 nm over land" ;
                Aerosol_Optical_Thickness_550_Land_Count:units = "count" ;
                Aerosol_Optical_Thickness_550_Land_Count:_FillValue = -999 ;
                Aerosol_Optical_Thickness_550_Land_Count:valid_range = 0, 31 ;
                Aerosol_Optical_Thickness_550_Land_Count:coordinates = "Longitude Latitude" ;
        float Aerosol_Optical_Thickness_550_Land_Maximum(Latitude_1D, Longitude_1D) ;
                Aerosol_Optical_Thickness_550_Land_Maximum:long_name = "maximum aerosol
optical thickness estimated at 550 nm over land" ;
                Aerosol_Optical_Thickness_550_Land_Maximum:units = "1" ;
;
        Aerosol_Optical_Thickness_550_Land_Maximum:_FillValue = -999.f ;
        Aerosol_Optical_Thickness_550_Land_Maximum:valid_range = 0.f, 5.f ;
        Aerosol_Optical_Thickness_550_Land_Maximum:coordinates = "Longitude Latitude"
float Aerosol_Optical_Thickness_550_Land_Mean(Latitude_1D, Longitude_1D) ;
        Aerosol_Optical_Thickness_550_Land_Mean:coordinates = "Longitude Latitude" ;
        Aerosol_Optical_Thickness_550_Land_Mean:long_name = "aerosol optical
thickness estimated at 550 nm over land" ;
                Aerosol_Optical_Thickness_550_Land_Mean:units = "1" ;
                Aerosol_Optical_Thickness_550_Land_Mean:_FillValue = -999.f ;
                Aerosol_Optical_Thickness_550_Land_Mean:valid_range = 0.f, 10.f ;
        float Aerosol_Optical_Thickness_550_Land_Minimum(Latitude_1D, Longitude_1D) ;
                Aerosol_Optical_Thickness_550_Land_Minimum:long_name = "minimum aerosol
optical thickness estimated at 550 nm over land" ;
;
        Aerosol_Optical_Thickness_550_Land_Minimum:units = "1" ;
        Aerosol_Optical_Thickness_550_Land_Minimum:_FillValue = -999.f ;
        Aerosol_Optical_Thickness_550_Land_Minimum:coordinates = "Longitude Latitude"
        Aerosol_Optical_Thickness_550_Land_Minimum:valid_range = 0.f, 5.f ;
int Aerosol_Optical_Thickness_550_Land_Ocean_Count(Latitude_1D, Longitude_1D) ;
        Aerosol_Optical_Thickness_550_Land_Ocean_Count:units = "count" ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Count:long_name = "number of days
used for aerosol optical thickness at 550 nm over land and ocean" ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Count:_FillValue = -999 ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Count:valid_range = 0, 31 ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Count:coordinates = "Longitude
Latitude" ;
        float Aerosol_Optical_Thickness_550_Land_Ocean_Maximum(Latitude_1D, Longitude_1D) ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Maximum:long_name = "maximum aerosol
optical thickness estimated at 550 nm over land and ocean" ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Maximum:units = "1" ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Maximum:_FillValue = -999.f ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Maximum:valid_range = 0.f, 5.f ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Maximum:coordinates = "Longitude
Latitude" ;
        float Aerosol_Optical_Thickness_550_Land_Ocean_Mean(Latitude_1D, Longitude_1D) ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Mean:units = "1" ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Mean:coordinates = "Longitude
Latitude" ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Mean:long_name = "aerosol optical
thickness estimated at 550 nm over land and ocean" ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Mean:_FillValue = -999.f ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Mean:valid_range = 0.f, 10.f ;
        float Aerosol_Optical_Thickness_550_Land_Ocean_Minimum(Latitude_1D, Longitude_1D) ;
Aerosol_Optical_Thickness_550_Land_Ocean_Minimum:long_name = "minimum aerosol

 optical thickness estimated at 550 nm over land and ocean" ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Minimum:units = "1" ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Minimum:_FillValue = -999.f ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Minimum:valid_range = 0.f, 5.f ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Minimum:coordinates = "Longitude
Latitude" ;
        float Aerosol_Optical_Thickness_550_Land_Ocean_Standard_Deviation(Latitude_1D,
Longitude_1D) ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Standard_Deviation:units = "1" ;
                Aerosol_Optical_Thickness_550_Land_Ocean_Standard_Deviation:long_name =
"standard deviation of aerosol optical thickness estimated at 550 nm over land and ocean" ;
-999.f ;
0.f, 10.f ;
Aerosol_Optical_Thickness_550_Land_Ocean_Standard_Deviation:_FillValue =
Aerosol_Optical_Thickness_550_Land_Ocean_Standard_Deviation:valid_range =
                Aerosol_Optical_Thickness_550_Land_Ocean_Standard_Deviation:coordinates =
"Longitude Latitude" ;
        float Aerosol_Optical_Thickness_550_Land_Standard_Deviation(Latitude_1D,
Longitude_1D) ;
                Aerosol_Optical_Thickness_550_Land_Standard_Deviation:long_name = "standard
deviation of aerosol optical thickness estimated at 550 nm over land" ;
                Aerosol_Optical_Thickness_550_Land_Standard_Deviation:units = "1" ;
                Aerosol_Optical_Thickness_550_Land_Standard_Deviation:_FillValue = -999.f ;
                Aerosol_Optical_Thickness_550_Land_Standard_Deviation:valid_range = 0.f, 10.f
;
                Aerosol_Optical_Thickness_550_Land_Standard_Deviation:coordinates =
"Longitude Latitude" ;
        int Aerosol_Optical_Thickness_550_Ocean_Count(Latitude_1D, Longitude_1D) ;
                Aerosol_Optical_Thickness_550_Ocean_Count:units = "count" ;
                Aerosol_Optical_Thickness_550_Ocean_Count:long_name = "number of days used
for aerosol optical thickness at 550 nm over ocean" ;
                Aerosol_Optical_Thickness_550_Ocean_Count:_FillValue = -999 ;
;
        Aerosol_Optical_Thickness_550_Ocean_Count:valid_range = 0, 31 ;
        Aerosol_Optical_Thickness_550_Ocean_Count:coordinates = "Longitude Latitude"
float Aerosol_Optical_Thickness_550_Ocean_Maximum(Latitude_1D, Longitude_1D) ;
        Aerosol_Optical_Thickness_550_Ocean_Maximum:long_name = "maximum aerosol
optical thickness estimated at 550 nm over ocean" ;
                Aerosol_Optical_Thickness_550_Ocean_Maximum:units = "1" ;
                Aerosol_Optical_Thickness_550_Ocean_Maximum:_FillValue = -999.f ;
                Aerosol_Optical_Thickness_550_Ocean_Maximum:valid_range = 0.f, 5.f ;
                Aerosol_Optical_Thickness_550_Ocean_Maximum:coordinates = "Longitude
Latitude" ;
        float Aerosol_Optical_Thickness_550_Ocean_Mean(Latitude_1D, Longitude_1D) ;
                Aerosol_Optical_Thickness_550_Ocean_Mean:coordinates = "Longitude Latitude" ;
                Aerosol_Optical_Thickness_550_Ocean_Mean:long_name = "aerosol optical
thickness estimated at 550 nm over ocean" ;
                Aerosol_Optical_Thickness_550_Ocean_Mean:units = "1" ;
                Aerosol_Optical_Thickness_550_Ocean_Mean:_FillValue = -999.f ;
                Aerosol_Optical_Thickness_550_Ocean_Mean:valid_range = 0.f, 5.f ;
        float Aerosol_Optical_Thickness_550_Ocean_Minimum(Latitude_1D, Longitude_1D) ;
                Aerosol_Optical_Thickness_550_Ocean_Minimum:long_name = "minimum aerosol
optical thickness estimated at 550 nm over ocean" ;
                Aerosol_Optical_Thickness_550_Ocean_Minimum:units = "1" ;
                Aerosol_Optical_Thickness_550_Ocean_Minimum:_FillValue = -999.f ;
                Aerosol_Optical_Thickness_550_Ocean_Minimum:valid_range = 0.f, 5.f ;
                Aerosol_Optical_Thickness_550_Ocean_Minimum:coordinates = "Longitude
Latitude" ;
        float Aerosol_Optical_Thickness_550_Ocean_Standard_Deviation(Latitude_1D,
Longitude_1D) ;
                Aerosol_Optical_Thickness_550_Ocean_Standard_Deviation:long_name = "standard
deviation of aerosol optical thickness estimated at 550 nm over ocean" ;
                Aerosol_Optical_Thickness_550_Ocean_Standard_Deviation:units = "1" ;
                Aerosol_Optical_Thickness_550_Ocean_Standard_Deviation:_FillValue = -999.f ;
                Aerosol_Optical_Thickness_550_Ocean_Standard_Deviation:valid_range = 0.f,

 10.f ;
                Aerosol_Optical_Thickness_550_Ocean_Standard_Deviation:coordinates =
"Longitude Latitude" ;
        int Aerosol_Type_Land_Ocean_Histogram(Aerosol_Types, Latitude_1D, Longitude_1D) ;
                Aerosol_Type_Land_Ocean_Histogram:long_name = "histograms of daily modal
aerosol type over land and ocean. Indices (counting from 0) 0=dust(land+ocean), 1=smoke,
2=high altitude smoke, 3=pyrocumulonimbus clouds, 4=non-smoke fine mode, 5=mixed(land+ocean),
6=background(land+ocean maritime), 7=fine dominated" ;
                Aerosol_Type_Land_Ocean_Histogram:units = "count" ;
                Aerosol_Type_Land_Ocean_Histogram:_FillValue = -999 ;
                Aerosol_Type_Land_Ocean_Histogram:coordinates = "Longitude Latitude" ;
                Aerosol_Type_Land_Ocean_Histogram:valid_range = 0, 31 ;
        int Aerosol_Type_Land_Ocean_Mode(Latitude_1D, Longitude_1D) ;
                Aerosol_Type_Land_Ocean_Mode:units = "1" ;
                Aerosol_Type_Land_Ocean_Mode:_FillValue = -999 ;
                Aerosol_Type_Land_Ocean_Mode:valid_range = 0, 7 ;
                Aerosol_Type_Land_Ocean_Mode:long_name = "modal value of daily modal aerosol
type over land and ocean. 0=dust(land+ocean), 1=smoke, 2=high altitude smoke,
3=pyrocumulonimbus clouds, 4=non-smoke fine mode, 5=mixed(land+ocean),
6=background(land+ocean maritime), 7=fine dominated" ;
                Aerosol_Type_Land_Ocean_Mode:coordinates = "Longitude Latitude" ;
        int Aerosol_Types(Aerosol_Types) ;
                Aerosol_Types:units = "1" ;
                Aerosol_Types:long_name = "aerosol types for land and ocean combined data
set. 0=dust(land+ocean), 1=smoke, 2=high altitude smoke, 3=pyrocumulonimbus clouds, 4=non-
smoke fine mode, 5=mixed(land+ocean), 6=background(land+ocean maritime), 7=fine dominated" ;
                Aerosol_Types:valid_range = 0, 7 ;
        float Angstrom_Exponent_Land_Maximum(Latitude_1D, Longitude_1D) ;
Angstrom_Exponent_Land_Maximum:long_name = "maximum angstrom exponent over
Angstrom_Exponent_Land_Maximum:units = "1" ;
Angstrom_Exponent_Land_Maximum:_FillValue = -999.f ;
Angstrom_Exponent_Land_Maximum:valid_range = -0.5f, 2.5f ;
Angstrom_Exponent_Land_Maximum:coordinates = "Longitude Latitude" ;
land" ;
412 and 490 nm (arid) or 490 and 670 nm (vegetated)" ;
                Angstrom_Exponent_Land_Mean:units = "1" ;
                Angstrom_Exponent_Land_Mean:_FillValue = -999.f ;
                Angstrom_Exponent_Land_Mean:valid_range = -0.5f, 2.5f ;
                Angstrom_Exponent_Land_Mean:coordinates = "Longitude Latitude" ;
        float Angstrom_Exponent_Land_Minimum(Latitude_1D, Longitude_1D) ;
                Angstrom_Exponent_Land_Minimum:long_name = "minimum angstrom exponent over
float Angstrom_Exponent_Land_Mean(Latitude_1D, Longitude_1D) ;
        Angstrom_Exponent_Land_Mean:long_name = "angstrom exponent over land, from
land" ;
over land and ocean" ;
                Angstrom_Exponent_Land_Ocean_Maximum:units = "1" ;
                Angstrom_Exponent_Land_Ocean_Maximum:_FillValue = -999.f ;
                Angstrom_Exponent_Land_Ocean_Maximum:valid_range = -0.5f, 2.5f ;
                Angstrom_Exponent_Land_Ocean_Maximum:coordinates = "Longitude Latitude" ;
        float Angstrom_Exponent_Land_Ocean_Mean(Latitude_1D, Longitude_1D) ;
                Angstrom_Exponent_Land_Ocean_Mean:long_name = "angstrom exponent over land
and ocean" ;
                Angstrom_Exponent_Land_Ocean_Mean:units = "1" ;
                Angstrom_Exponent_Land_Ocean_Mean:_FillValue = -999.f ;
                Angstrom_Exponent_Land_Ocean_Mean:valid_range = -0.5f, 2.5f ;
                Angstrom_Exponent_Land_Ocean_Mean:coordinates = "Longitude Latitude" ;
        float Angstrom_Exponent_Land_Ocean_Minimum(Latitude_1D, Longitude_1D) ;
                Angstrom_Exponent_Land_Ocean_Minimum:long_name = "minimum angstrom exponent
Angstrom_Exponent_Land_Minimum:units = "1" ;
Angstrom_Exponent_Land_Minimum:coordinates = "Longitude Latitude" ;
Angstrom_Exponent_Land_Minimum:_FillValue = -999.f ;
Angstrom_Exponent_Land_Minimum:valid_range = -0.5f, 2.5f ;
float Angstrom_Exponent_Land_Ocean_Maximum(Latitude_1D, Longitude_1D) ;
        Angstrom_Exponent_Land_Ocean_Maximum:long_name = "maximum angstrom exponent
over land and ocean" ;

                 Angstrom_Exponent_Land_Ocean_Minimum:units = "1" ;
                Angstrom_Exponent_Land_Ocean_Minimum:_FillValue = -999.f ;
                Angstrom_Exponent_Land_Ocean_Minimum:valid_range = -0.5f, 2.5f ;
                Angstrom_Exponent_Land_Ocean_Minimum:coordinates = "Longitude Latitude" ;
        float Angstrom_Exponent_Land_Ocean_Standard_Deviation(Latitude_1D, Longitude_1D) ;
                Angstrom_Exponent_Land_Ocean_Standard_Deviation:long_name = "standard
deviation of angstrom exponent over land and ocean" ;
                Angstrom_Exponent_Land_Ocean_Standard_Deviation:units = "1" ;
                Angstrom_Exponent_Land_Ocean_Standard_Deviation:_FillValue = -999.f ;
                Angstrom_Exponent_Land_Ocean_Standard_Deviation:valid_range = 0.f, 10.f ;
                Angstrom_Exponent_Land_Ocean_Standard_Deviation:coordinates = "Longitude
Latitude" ;
        float Angstrom_Exponent_Land_Standard_Deviation(Latitude_1D, Longitude_1D) ;
                Angstrom_Exponent_Land_Standard_Deviation:long_name = "standard deviation of
angstrom exponent over land" ;
        Angstrom_Exponent_Land_Standard_Deviation:units = "1" ;
        Angstrom_Exponent_Land_Standard_Deviation:_FillValue = -999.f ;
        Angstrom_Exponent_Land_Standard_Deviation:valid_range = 0.f, 10.f ;
        Angstrom_Exponent_Land_Standard_Deviation:coordinates = "Longitude Latitude"
float Angstrom_Exponent_Ocean_Maximum(Latitude_1D, Longitude_1D) ;
        Angstrom_Exponent_Ocean_Maximum:_FillValue = -999.f ;
        Angstrom_Exponent_Ocean_Maximum:long_name = "maximum angstrom exponent over
;
ocean" ;
derived from aerosol optical thickness at 550 nm and 870 nm" ;
                Angstrom_Exponent_Ocean_Mean:units = "1" ;
                Angstrom_Exponent_Ocean_Mean:coordinates = "Longitude Latitude" ;
                Angstrom_Exponent_Ocean_Mean:_FillValue = -999.f ;
                Angstrom_Exponent_Ocean_Mean:valid_range = -0.5f, 2.5f ;
        float Angstrom_Exponent_Ocean_Minimum(Latitude_1D, Longitude_1D) ;
                Angstrom_Exponent_Ocean_Minimum:long_name = "minimum angstrom exponent over
Angstrom_Exponent_Ocean_Maximum:units = "1" ;
Angstrom_Exponent_Ocean_Maximum:valid_range = -0.5f, 2.5f ;
Angstrom_Exponent_Ocean_Maximum:coordinates = "Longitude Latitude" ;
float Angstrom_Exponent_Ocean_Mean(Latitude_1D, Longitude_1D) ;
        Angstrom_Exponent_Ocean_Mean:long_name = "angstrom exponent over ocean as
ocean" ;
angstrom exponent over ocean" ;
                Angstrom_Exponent_Ocean_Standard_Deviation:units = "1" ;
                Angstrom_Exponent_Ocean_Standard_Deviation:_FillValue = -999.f ;
                Angstrom_Exponent_Ocean_Standard_Deviation:valid_range = 0.f, 10.f ;
                Angstrom_Exponent_Ocean_Standard_Deviation:coordinates = "Longitude Latitude"
                Fine_Mode_Fraction_550_Ocean_Mean:_FillValue = -999.f ;
                Fine_Mode_Fraction_550_Ocean_Mean:units = "1" ;
                Fine_Mode_Fraction_550_Ocean_Mean:valid_range = 0.f, 1.f ;
                Fine_Mode_Fraction_550_Ocean_Mean:coordinates = "Longitude Latitude" ;
        float Fine_Mode_Fraction_550_Ocean_Standard_Deviation(Latitude_1D, Longitude_1D) ;
                Fine_Mode_Fraction_550_Ocean_Standard_Deviation:long_name = "standard
deviation of fine mode AOD fraction over ocean" ;
                Fine_Mode_Fraction_550_Ocean_Standard_Deviation:_FillValue = -999.f ;
                Fine_Mode_Fraction_550_Ocean_Standard_Deviation:units = "1" ;
                Fine_Mode_Fraction_550_Ocean_Standard_Deviation:coordinates = "Longitude
;
nm over ocean" ;
Angstrom_Exponent_Ocean_Minimum:units = "1" ;
Angstrom_Exponent_Ocean_Minimum:_FillValue = -999.f ;
Angstrom_Exponent_Ocean_Minimum:valid_range = -0.5f, 2.5f ;
Angstrom_Exponent_Ocean_Minimum:coordinates = "Longitude Latitude" ;
float Angstrom_Exponent_Ocean_Standard_Deviation(Latitude_1D, Longitude_1D) ;
        Angstrom_Exponent_Ocean_Standard_Deviation:long_name = "standard deviation of
float Fine_Mode_Fraction_550_Ocean_Mean(Latitude_1D, Longitude_1D) ;
        Fine_Mode_Fraction_550_Ocean_Mean:long_name = "fine mode AOD fraction at 550
Latitude" ;
        float Land_Bands(Land_Bands) ;
Fine_Mode_Fraction_550_Ocean_Standard_Deviation:valid_range = 0.f, 1.f ;

 Longitude_1D) ;
Latitude" ;
Spectral_Aerosol_Optical_Thickness_Land_Count:_FillValue = -999 ;
Spectral_Aerosol_Optical_Thickness_Land_Count:coordinates = "Longitude
Longitude_1D) ;
Latitude" ;
Spectral_Aerosol_Optical_Thickness_Land_Mean:_FillValue = -999.f ;
Spectral_Aerosol_Optical_Thickness_Land_Mean:valid_range = 0.f, 10.f ;
Spectral_Aerosol_Optical_Thickness_Land_Mean:coordinates = "Longitude
        Land_Bands:units = "nm" ;
        Land_Bands:long_name = "wavelength bands over land" ;
        Land_Bands:valid_range = 0.f, 16000.f ;
float Latitude(Latitude_1D, Longitude_1D) ;
        Latitude:units = "degrees_north" ;
        Latitude:standard_name = "latitude" ;
        Latitude:long_name = "latitude of center of grid element" ;
        Latitude:valid_range = -90.f, 90.f ;
float Latitude_1D(Latitude_1D) ;
        Latitude_1D:units = "degrees_north" ;
        Latitude_1D:standard_name = "latitude" ;
        Latitude_1D:long_name = "latitude of center of grid element" ;
        Latitude_1D:valid_range = -90.f, 90.f ;
float Longitude(Latitude_1D, Longitude_1D) ;
        Longitude:units = "degrees_east" ;
        Longitude:standard_name = "longitude" ;
        Longitude:long_name = "longitude of center of grid element" ;
        Longitude:valid_range = -180.f, 180.f ;
float Longitude_1D(Longitude_1D) ;
        Longitude_1D:units = "degrees_east" ;
        Longitude_1D:standard_name = "longitude" ;
        Longitude_1D:long_name = "longitude of center of grid element" ;
        Longitude_1D:valid_range = -180.f, 180.f ;
float Ocean_Bands(Ocean_Bands) ;
        Ocean_Bands:units = "nm" ;
        Ocean_Bands:long_name = "wavelength bands over ocean" ;
        Ocean_Bands:valid_range = 0.f, 16000.f ;
int Spectral_Aerosol_Optical_Thickness_Land_Count(Land_Bands, Latitude_1D,
                Spectral_Aerosol_Optical_Thickness_Land_Count:long_name = "number of days
used for aerosol optical thickness at 412 nm, 490 nm, and 670 nm over land" ;
                Spectral_Aerosol_Optical_Thickness_Land_Count:units = "count" ;
                Spectral_Aerosol_Optical_Thickness_Land_Count:valid_range = 0, 31 ;
        float Spectral_Aerosol_Optical_Thickness_Land_Mean(Land_Bands, Latitude_1D,
                Spectral_Aerosol_Optical_Thickness_Land_Mean:long_name = "aerosol optical
thickness estimated at 412 nm, 490 nm, and 670 nm over land" ;
                Spectral_Aerosol_Optical_Thickness_Land_Mean:units = "1" ;
        float Spectral_Aerosol_Optical_Thickness_Land_Standard_Deviation(Land_Bands,
Latitude_1D, Longitude_1D) ;
                Spectral_Aerosol_Optical_Thickness_Land_Standard_Deviation:units = "1" ;
                Spectral_Aerosol_Optical_Thickness_Land_Standard_Deviation:coordinates =
"Longitude Latitude" ;
                Spectral_Aerosol_Optical_Thickness_Land_Standard_Deviation:long_name =
"standard deviation of aerosol optical thickness at 412 nm, 490 nm, and 670 nm over land" ;
                Spectral_Aerosol_Optical_Thickness_Land_Standard_Deviation:_FillValue =
-999.f ;
10.f ;
Longitude_1D) ;
        Spectral_Aerosol_Optical_Thickness_Land_Standard_Deviation:valid_range = 0.f,
int Spectral_Aerosol_Optical_Thickness_Ocean_Count(Ocean_Bands, Latitude_1D,
                Spectral_Aerosol_Optical_Thickness_Ocean_Count:long_name = "number of days
used for aerosol optical thickness at 490, 550 670, 865, 1240, 1610, and 2250 nm over ocean"
;
                Spectral_Aerosol_Optical_Thickness_Ocean_Count:units = "count" ;
                Spectral_Aerosol_Optical_Thickness_Ocean_Count:_FillValue = -999 ;
                Spectral_Aerosol_Optical_Thickness_Ocean_Count:valid_range = 0, 31 ;
                Spectral_Aerosol_Optical_Thickness_Ocean_Count:coordinates = "Longitude

 Latitude" ;
        float Spectral_Aerosol_Optical_Thickness_Ocean_Mean(Ocean_Bands, Latitude_1D,
Longitude_1D) ;
                Spectral_Aerosol_Optical_Thickness_Ocean_Mean:_FillValue = -999.f ;
                Spectral_Aerosol_Optical_Thickness_Ocean_Mean:valid_range = 0.f, 10.f ;
                Spectral_Aerosol_Optical_Thickness_Ocean_Mean:long_name = "aerosol optical
thickness at 490, 550 670, 865, 1240, 1610, and 2250 nm over ocean" ;
                Spectral_Aerosol_Optical_Thickness_Ocean_Mean:units = "1" ;
                Spectral_Aerosol_Optical_Thickness_Ocean_Mean:coordinates = "Longitude
Latitude" ;
        float Spectral_Aerosol_Optical_Thickness_Ocean_Standard_Deviation(Ocean_Bands,
Latitude_1D, Longitude_1D) ;
                Spectral_Aerosol_Optical_Thickness_Ocean_Standard_Deviation:units = "1" ;
                Spectral_Aerosol_Optical_Thickness_Ocean_Standard_Deviation:_FillValue =
-999.f ;
0.f, 10.f ;
"Longitude Latitude" ;
;
:references = "https://deepblue.gsfc.nasa.gov" ;
:institution = "NASA Goddard Space Flight Center" ;
:long_name = "VIIRS Deep Blue Level 3 monthly aerosol data, 1x1 degree grid"
:title = "VIIRS Deep Blue Level 3 monthly aerosol data, 1x1 degree grid" ;
:short_name = "VNPDBAER_M3" ;
:version_id = "001" ;
:pge_version = "001" ;
:local_granule_id = "VNPAERDB_M3.A2018001.001.2018172161507.nc" ;
:production_datetime = "2018-06-21T16:15:07Z" ;
:instrument_long_name = "Visible Infrared Imaging Radiometer Suite" ;
:instrument_short_name = "VIIRS" ;
:platform_long_name = "Suomi-National Polar-Orbiting Partnership" ;
:platform_short_name = "S-NPP" ;
:geospatial_lat_max = 90.f ;
:geospatial_lat_min = -90.f ;
:geospatial_lon_min = 180.f ;
:geospatial_lon_max = -180.f ;
:NorthBoundingCoordinate = 90.f ;
:SouthBoundingCoordinate = -90.f ;
:EastBoundingCoordinate = 180.f ;
:WestBoundingCoordinate = -180.f ;
:latitude_resolution = 1.f ;
:longitude_resolution = 1.f ;
:contact_person_name = "Andrew Sayer or Jaehwa Lee" ;
:contact_person_role = "technical contact" ;
:contact_person_address = "NASA/GSFC, 8800 Greenbelt Road, Mail Code 613,
Spectral_Aerosol_Optical_Thickness_Ocean_Standard_Deviation:valid_range =
Spectral_Aerosol_Optical_Thickness_Ocean_Standard_Deviation:coordinates =
                Spectral_Aerosol_Optical_Thickness_Ocean_Standard_Deviation:long_name =
"standard deviation of aerosol optical thickness at 490, 550 670, 865, 1240, 1610, and 2250
nm over ocean" ;
// global attributes:
                :_NCProperties = "version=1|netcdflibversion=4.4.1|hdf5libversion=1.8.17" ;
                :description = "VIIRS Deep Blue Level 3 monthly aerosol data, 1x1 degree
grid" ;
                :comment = "Data are the arithmetic mean of all VIIRS Deep Blue/SOAR L2 data
located in each grid element after filtering by confidence flag. Source are the best_estimate
SDS in L2 files." ;
Greenbelt, MD 20771" ;
                :related_url = "https://deepblue.gsfc.nasa.gov" ;
                :keywords = "aerosol optical depth thickness angstrom exponent land ocean
deep blue viirs" ;
                :data_set_language = "en" ;
                :format = "NetCDF4" ;
                :processing_level = "L3" ;

 :keywords_vocabulary = "NASA Global Change Master Directory (GCMD) Science
Keywords" ;
                :license = "http://science.nasa.gov/earth-science/earth-science-data/data-
information-policy/" ;
;
:stdname_vocabulary = "NetCDF Climate and Forecast (CF) Metadata Convention"
:naming_authority = "gov.nasa.gsfc.sci.atmos" ;
:NCO = "\"4.5.5\"" ;
:Conventions = "CF-1.6, ACDD-1.3" ;
:history = "" ;
:time_coverage_start = "2018-01-01T00:00:00.000000" ;
:time_coverage_end = "2018-01-31T23:59:59.000000" ;
:source = "VAERDB_L2 1.1dev10, deepBlue_L3 20180404-2" ;
:date_created = "2018-06-21T16:14:59Z" ;
:product_name = "VNPAERDB_M3.A2018001.001.2018172161507.nc" ;
:LocalGranuleID = "VNPAERDB_M3.A2018001.001.2018172161507.nc" ;
:ShortName = "VNPAERDB_M3" ;
:product_version = "1.1dev2" ;
:AlgorithmType = "SCI" ;
:identifier_product_doi = "10.5067/VIIRS/VNPAERDB_M3.000" ;
:identifier_product_doi_authority = "http://dx.doi.org" ;
:input_files =
"VNPAERDB_D3.A2018020.001.2018172154603.nc,VNPAERDB_D3.A2018027.001.2018172154748.nc,VNPAERDB
_D3.A2018003.001.2018172154555.nc,VNPAERDB_D3.A2018032.001.2018172154908.nc,VNPAERDB_D3.A2018
002.001.2018172155019.nc,VNPAERDB_D3.A2018029.001.2018172154717.nc,VNPAERDB_D3.A2018028.001.2
018172154753.nc,VNPAERDB_D3.A2018009.001.2018172154604.nc,VNPAERDB_D3.A2018008.001.2018172154
634.nc,VNPAERDB_D3.A2018005.001.2018172154851.nc,VNPAERDB_D3.A2018004.001.2018172154735.nc,VN
PAERDB_D3.A2018007.001.2018172154725.nc,VNPAERDB_D3.A2018006.001.2018172154543.nc,VNPAERDB_D3
.A2018001.001.2018172154721.nc,VNPAERDB_D3.A2018026.001.2018172154803.nc,VNPAERDB_D3.A2018025
.001.2018172154808.nc,VNPAERDB_D3.A2018024.001.2018172154610.nc,VNPAERDB_D3.A2018030.001.2018
172154833.nc,VNPAERDB_D3.A2018031.001.2018172154658.nc,VNPAERDB_D3.A2018018.001.2018172155019
.nc,VNPAERDB_D3.A2018019.001.2018172154919.nc,VNPAERDB_D3.A2018016.001.2018172154546.nc,VNPAE
RDB_D3.A2018017.001.2018172155020.nc,VNPAERDB_D3.A2018014.001.2018172154613.nc,VNPAERDB_D3.A2
018015.001.2018172154828.nc,VNPAERDB_D3.A2018012.001.2018172154530.nc,VNPAERDB_D3.A2018013.00
1.2018172154629.nc,VNPAERDB_D3.A2018010.001.2018172154749.nc,VNPAERDB_D3.A2018011.001.2018172
154809.nc,VNPAERDB_D3.A2018023.001.2018172154800.nc,VNPAERDB_D3.A2018022.001.2018172154649.nc
,VNPAERDB_D3.A2018021.001.2018172154725.nc" ;
                :ancillary_files = "" ;
                :DataCenterId = "UWI-MAD/SSEC/ASIPS" ;
                :project = "NASA VIIRS Atmosphere SIPS" ;
                :creator_name = "NASA VIIRS Atmosphere SIPS" ;
                :creator_url = "https://sips.ssec.wisc.edu" ;
                :creator_institution = "Space Science & Engineering Center, University of
Wisconsin - Madison" ;
                :publisher_name = "LAADS" ;
                :publisher_url = "https://ladsweb.modaps.eosdis.nasa.gov/" ;
                :publisher_institution = "NASA Level-1 and Atmosphere Archive & Distribution
System" ;
                :xmlmetadata = "\n
\n\n  1.0\n  UWI-
MAD/SSEC/ASIPS\n  \n    \n
VNPAERDB_M3\n      0\n
\n    \n      no further
reprocessing anticipated\n
VNPAERDB_M3.A2018001.001.2018172161507.nc\n
2018-06-21 16:15:07.000000\n
0\n    \n    \n
20180404-2\n    \n    \n
23:59:59.000000\n      2018-01-
31\n      00:00:00.000000\n
2018-01-01\n    \n
\n      \n

 \n          180\n
90\n
-180\n
-90\n        \n
\n    \n
\n
None\n
\n
NPP\n      \n
VIIRS\n
VIIRS\n
\n    \n
VNPAERDB_D3.A2018020.001.2018172154603.nc\n
VNPAERDB_D3.A2018027.001.2018172154748.nc\n
VNPAERDB_D3.A2018003.001.2018172154555.nc\n
VNPAERDB_D3.A2018032.001.2018172154908.nc\n
VNPAERDB_D3.A2018002.001.2018172155019.nc\n
VNPAERDB_D3.A2018029.001.2018172154717.nc\n
VNPAERDB_D3.A2018028.001.2018172154753.nc\n
VNPAERDB_D3.A2018009.001.2018172154604.nc\n
VNPAERDB_D3.A2018008.001.2018172154634.nc\n
VNPAERDB_D3.A2018005.001.2018172154851.nc\n
VNPAERDB_D3.A2018004.001.2018172154735.nc\n
VNPAERDB_D3.A2018007.001.2018172154725.nc\n
VNPAERDB_D3.A2018006.001.2018172154543.nc\n
VNPAERDB_D3.A2018001.001.2018172154721.nc\n
VNPAERDB_D3.A2018026.001.2018172154803.nc\n
VNPAERDB_D3.A2018025.001.2018172154808.nc\n
VNPAERDB_D3.A2018024.001.2018172154610.nc\n
VNPAERDB_D3.A2018030.001.2018172154833.nc\n
VNPAERDB_D3.A2018031.001.2018172154658.nc\n
VNPAERDB_D3.A2018018.001.2018172155019.nc\n
VNPAERDB_D3.A2018019.001.2018172154919.nc\n
VNPAERDB_D3.A2018016.001.2018172154546.nc\n
VNPAERDB_D3.A2018017.001.2018172155020.nc\n
VNPAERDB_D3.A2018014.001.2018172154613.nc\n
VNPAERDB_D3.A2018015.001.2018172154828.nc\n
VNPAERDB_D3.A2018012.001.2018172154530.nc\n
VNPAERDB_D3.A2018013.001.2018172154629.nc\n
VNPAERDB_D3.A2018010.001.2018172154749.nc\n
VNPAERDB_D3.A2018011.001.2018172154809.nc\n
VNPAERDB_D3.A2018023.001.2018172154800.nc\n
VNPAERDB_D3.A2018022.001.2018172154649.nc\n
VNPAERDB_D3.A2018021.001.2018172154725.nc\n    \n
\n    \n
\n" ;
}
\n
 \n
\n
     Suomi
        \n
\n      \n