pmlEsaCCI42OceanColorDaily
eng
UTF8
dataset
service
Roy Mendelssohn
NOAA NMFS SWFSC Environmental Research Division
+1 831-420-3666
110 McAllister Road
Santa Cruz
CA
95060
USA
erd.data@noaa.gov
pointOfContact
2024-03-28
ISO 19115-2 Geographic Information - Metadata Part 2 Extensions for Imagery and Gridded Data
ISO 19115-2:2009(E)
3
column
8640
0.041666674383609215
row
4320
0.0416666635795323
temporal
8128
86676.41196013289
area
ESA CCI Ocean Colour Product (CCI ALL-v4.2-DAILY), 0.04166666°, 1997-2019
2020-01-21
creation
coastwatch.pfeg.noaa.gov
pmlEsaCCI42OceanColorDaily
Plymouth Marine Laboratory
Plymouth Marine Laboratory
help@esa-oceancolour-cci.org
https://esa-oceancolour-cci.org
information
web browser
Background Information
Background information from the source
information
originator
Data products generated by the Ocean Colour component of the European Space Agency Climate Change Initiative project. These files are daily composites of merged sensor (MERIS, MODIS Aqua, SeaWiFS LAC & GAC, VIIRS) products. MODIS Aqua and MERIS were band-shifted and bias-corrected to SeaWiFS bands and values using a temporally and spatially varying scheme based on the overlap years of 2003-2007. VIIRS was band-shifted and bias-corrected in a second stage against the MODIS Rrs that had already been corrected to SeaWiFS levels, for the overlap period 2012-2013. VIIRS, MODIS and SeaWiFS Rrs were derived from standard NASA L2 products; MERIS - from a combination of NASA's l2gen (for basic sensor geometry corrections, etc) and HYGEOS Polymer v4.8 (for atmospheric correction). The Rrs were binned to a sinusoidal 4km level-3 grid, and later to 4km geographic projection, by Brockmann Consult's BEAM. Derived products were generally computed with the standard SeaDAS algorithms. QAA IOPs were derived using the standard SeaDAS algorithm but with a modified backscattering table to match that used in the bandshifting. The final chlorophyll is a combination of OC4, Hu's CI and OC5, depending on the water class memberships. Uncertainty estimates were added using the fuzzy water classifier and uncertainty estimation algorithm of Tim Moore as documented in Jackson et al (2017).
Plymouth Marine Laboratory
Plymouth Marine Laboratory
help@esa-oceancolour-cci.org
https://esa-oceancolour-cci.org
information
web browser
Background Information
Background information from the source
information
pointOfContact
490nm
absorption
air
algorithm
all
all-v4.0-daily
aqua
area
array
array-data
atmosphere
atmospheric
attenuation
backscattering
backwards
bbw
best
bias
bin
blended
cci
cell
chemistry
chlorophyll
chlorophyll-a
class
classes
classification
coefficient
color
colour
combination
comprehensive
concentration
contributing
count
coverage
custom
custom-developed
daily
data
day
defined
depending
derived
determined
detrital
developed
difference
dissolved
downwelling
earth
emerging
equation
esa
field
field-of-view
flux
following
fuzzy
gac
generated
global
heat
heat flux
imager
imager/radiometer
imaging
infrared
irradiance
laboratory
lac
large
leaving
lee
local
log
log-transformed
log10
log10-transformed
marine
mass
material
mean
membership
memberships
merged
meris
model
moderate
modis
moore
normalised
not
number
observation
observations
oc3
oc4v6
oc5
ocean
ocean color
ocean colour
oceans
oci
optical
optical properties
optics
particulate
phytoplankton
phytoplankton species
plymouth
product
properties
qaa
quality
radiance
radiation
radiative
radiometer
ratio
reflectance
represent
resolution
root
root-mean-square-difference
satellite
scattering
science
sea
sea-wide
seadas
seawater
seawifs
sensor
species
spectroradiometer
square
statistics
stewardship
suite
surface
system
tim
total
transformed
transmission
upwelling
using
v4.0
view
viirs
visible
volume
water
water-leaving
wide
zhang
theme
Earth Science > Oceans > Ocean Optics > Radiance
Earth Science > Oceans > Ocean Optics > Attenuation/Transmission
Earth Science > Oceans > Ocean Optics > Absorption
Earth Science > Oceans > Ocean Chemistry > Chlorophyll
Earth Science > Atmosphere > Atmospheric Radiation > Radiative Flux
theme
GCMD Science Keywords
Climate Change Initiative - European Space Agency
project
time
latitude
longitude
surface_ratio_of_upwelling_radiance_emerging_from_sea_water_to_downwelling_radiative_flux_in_air
surface_ratio_of_upwelling_radiance_emerging_from_sea_water_to_downwelling_radiative_flux_in_air
surface_ratio_of_upwelling_radiance_emerging_from_sea_water_to_downwelling_radiative_flux_in_air
surface_ratio_of_upwelling_radiance_emerging_from_sea_water_to_downwelling_radiative_flux_in_air
surface_ratio_of_upwelling_radiance_emerging_from_sea_water_to_downwelling_radiative_flux_in_air
surface_ratio_of_upwelling_radiance_emerging_from_sea_water_to_downwelling_radiative_flux_in_air
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_absorption_coefficient_of_radiative_flux_in_sea_water
volume_backwards_scattering_coefficient_of_radiative_flux_in_sea_water
volume_backwards_scattering_coefficient_of_radiative_flux_in_sea_water
volume_backwards_scattering_coefficient_of_radiative_flux_in_sea_water
volume_backwards_scattering_coefficient_of_radiative_flux_in_sea_water
volume_backwards_scattering_coefficient_of_radiative_flux_in_sea_water
volume_backwards_scattering_coefficient_of_radiative_flux_in_sea_water
mass_concentration_of_chlorophyll_a_in_sea_water
volume_attenuation_coefficient_of_downwelling_radiative_flux_in_sea_water
theme
CF Standard Name Table v70
ESA CCI Data Policy: free and open access. When referencing, please use: Ocean Colour Climate Change Initiative dataset, Version <Version Number>, European Space Agency, available online at https://esa-oceancolour-cci.org. We would also appreciate being notified of publications so that we can list them on the project website at https://esa-oceancolour-cci.org/documents/publications
The data may be used and redistributed for free but is not intended
for legal use, since it may contain inaccuracies. Neither the data
Contributor, ERD, NOAA, nor the United States Government, nor any
of their employees or contractors, makes any warranty, express or
implied, including warranties of merchantability and fitness for a
particular purpose, or assumes any legal liability for the accuracy,
completeness, or usefulness, of this information.
Climate Change Initiative - European Space Agency
largerWorkCitation
project
Unidata Common Data Model
Grid
largerWorkCitation
project
eng
geoscientificInformation
1
-179.9792
179.9792
-89.97916
89.97916
seconds
1997-09-04T00:00:00Z
2019-12-31T00:00:00Z
ESA CCI Ocean Colour Product (CCI ALL-v4.2-DAILY), 0.04166666°, 1997-2019
2020-01-21
creation
Plymouth Marine Laboratory
Plymouth Marine Laboratory
help@esa-oceancolour-cci.org
https://esa-oceancolour-cci.org
information
web browser
Background Information
Background information from the source
information
originator
Data products generated by the Ocean Colour component of the European Space Agency Climate Change Initiative project. These files are daily composites of merged sensor (MERIS, MODIS Aqua, SeaWiFS LAC & GAC, VIIRS) products. MODIS Aqua and MERIS were band-shifted and bias-corrected to SeaWiFS bands and values using a temporally and spatially varying scheme based on the overlap years of 2003-2007. VIIRS was band-shifted and bias-corrected in a second stage against the MODIS Rrs that had already been corrected to SeaWiFS levels, for the overlap period 2012-2013. VIIRS, MODIS and SeaWiFS Rrs were derived from standard NASA L2 products; MERIS - from a combination of NASA's l2gen (for basic sensor geometry corrections, etc) and HYGEOS Polymer v4.8 (for atmospheric correction). The Rrs were binned to a sinusoidal 4km level-3 grid, and later to 4km geographic projection, by Brockmann Consult's BEAM. Derived products were generally computed with the standard SeaDAS algorithms. QAA IOPs were derived using the standard SeaDAS algorithm but with a modified backscattering table to match that used in the bandshifting. The final chlorophyll is a combination of OC4, Hu's CI and OC5, depending on the water class memberships. Uncertainty estimates were added using the fuzzy water classifier and uncertainty estimation algorithm of Tim Moore as documented in Jackson et al (2017).
ERDDAP griddap
1
-179.9792
179.9792
-89.97916
89.97916
seconds
1997-09-04T00:00:00Z
2019-12-31T00:00:00Z
tight
ERDDAPgriddapDatasetQueryAndAccess
https://coastwatch.pfeg.noaa.gov/erddap/griddap/pmlEsaCCI42OceanColorDaily
ERDDAP:griddap
ERDDAP-griddap
ERDDAP's griddap service (a flavor of OPeNDAP) for gridded data. Add different extensions (e.g., .html, .graph, .das, .dds) to the base URL for different purposes.
download
ESA CCI Ocean Colour Product (CCI ALL-v4.2-DAILY), 0.04166666°, 1997-2019
2020-01-21
creation
Plymouth Marine Laboratory
Plymouth Marine Laboratory
help@esa-oceancolour-cci.org
https://esa-oceancolour-cci.org
information
web browser
Background Information
Background information from the source
information
originator
Data products generated by the Ocean Colour component of the European Space Agency Climate Change Initiative project. These files are daily composites of merged sensor (MERIS, MODIS Aqua, SeaWiFS LAC & GAC, VIIRS) products. MODIS Aqua and MERIS were band-shifted and bias-corrected to SeaWiFS bands and values using a temporally and spatially varying scheme based on the overlap years of 2003-2007. VIIRS was band-shifted and bias-corrected in a second stage against the MODIS Rrs that had already been corrected to SeaWiFS levels, for the overlap period 2012-2013. VIIRS, MODIS and SeaWiFS Rrs were derived from standard NASA L2 products; MERIS - from a combination of NASA's l2gen (for basic sensor geometry corrections, etc) and HYGEOS Polymer v4.8 (for atmospheric correction). The Rrs were binned to a sinusoidal 4km level-3 grid, and later to 4km geographic projection, by Brockmann Consult's BEAM. Derived products were generally computed with the standard SeaDAS algorithms. QAA IOPs were derived using the standard SeaDAS algorithm but with a modified backscattering table to match that used in the bandshifting. The final chlorophyll is a combination of OC4, Hu's CI and OC5, depending on the water class memberships. Uncertainty estimates were added using the fuzzy water classifier and uncertainty estimation algorithm of Tim Moore as documented in Jackson et al (2017).
OPeNDAP
1
-179.9792
179.9792
-89.97916
89.97916
seconds
1997-09-04T00:00:00Z
2019-12-31T00:00:00Z
tight
OPeNDAPDatasetQueryAndAccess
https://coastwatch.pfeg.noaa.gov/erddap/griddap/pmlEsaCCI42OceanColorDaily
OPeNDAP:OPeNDAP
OPeNDAP
An OPeNDAP service for gridded data. Add different extensions (e.g., .html, .das, .dds) to the base URL for different purposes.
download
ESA CCI Ocean Colour Product (CCI ALL-v4.2-DAILY), 0.04166666°, 1997-2019
2020-01-21
creation
Plymouth Marine Laboratory
Plymouth Marine Laboratory
help@esa-oceancolour-cci.org
https://esa-oceancolour-cci.org
information
web browser
Background Information
Background information from the source
information
originator
Data products generated by the Ocean Colour component of the European Space Agency Climate Change Initiative project. These files are daily composites of merged sensor (MERIS, MODIS Aqua, SeaWiFS LAC & GAC, VIIRS) products. MODIS Aqua and MERIS were band-shifted and bias-corrected to SeaWiFS bands and values using a temporally and spatially varying scheme based on the overlap years of 2003-2007. VIIRS was band-shifted and bias-corrected in a second stage against the MODIS Rrs that had already been corrected to SeaWiFS levels, for the overlap period 2012-2013. VIIRS, MODIS and SeaWiFS Rrs were derived from standard NASA L2 products; MERIS - from a combination of NASA's l2gen (for basic sensor geometry corrections, etc) and HYGEOS Polymer v4.8 (for atmospheric correction). The Rrs were binned to a sinusoidal 4km level-3 grid, and later to 4km geographic projection, by Brockmann Consult's BEAM. Derived products were generally computed with the standard SeaDAS algorithms. QAA IOPs were derived using the standard SeaDAS algorithm but with a modified backscattering table to match that used in the bandshifting. The final chlorophyll is a combination of OC4, Hu's CI and OC5, depending on the water class memberships. Uncertainty estimates were added using the fuzzy water classifier and uncertainty estimation algorithm of Tim Moore as documented in Jackson et al (2017).
Open Geospatial Consortium Web Map Service (WMS)
1
-179.9792
179.9792
-89.97916
89.97916
seconds
1997-09-04T00:00:00Z
2019-12-31T00:00:00Z
tight
GetCapabilities
https://coastwatch.pfeg.noaa.gov/erddap/wms/pmlEsaCCI42OceanColorDaily/request?service=WMS&version=1.3.0&request=GetCapabilities
OGC:WMS
OGC-WMS
Open Geospatial Consortium Web Map Service (WMS)
download
physicalMeasurement
MODISA_nobs
float
Count of the number of observations from the MODIS (Aqua) sensor contributing to this bin cell
VIIRS_nobs
float
Count of the number of observations from the VIIRS sensor contributing to this bin cell
MERIS_nobs
float
Count of the number of observations from the MERIS sensor contributing to this bin cell
SeaWiFS_nobs
float
Count of the number of observations from the SeaWiFS (GAC and LAC) sensor contributing to this bin cell
total_nobs
float
Count of the total number of observations contributing to this bin cell
Rrs_412
float
Sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 412 nm.
Rrs_443
float
Sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 443 nm.
Rrs_490
float
Sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 490 nm.
Rrs_510
float
Sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 510 nm.
Rrs_555
float
Sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 555 nm.
Rrs_670
float
Sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 670 nm.
water_class1
float
Normalised water class 1 membership, as determined by the fuzzy classification algorithm of Tim Moore (2009) and custom-developed classes to best represent the CCI merged data
water_class2
float
Normalised water class 2 membership, as determined by the fuzzy classification algorithm of Tim Moore (2009) and custom-developed classes to best represent the CCI merged data
water_class3
float
Normalised water class 3 membership, as determined by the fuzzy classification algorithm of Tim Moore (2009) and custom-developed classes to best represent the CCI merged data
water_class4
float
Normalised water class 4 membership, as determined by the fuzzy classification algorithm of Tim Moore (2009) and custom-developed classes to best represent the CCI merged data
water_class5
float
Normalised water class 5 membership, as determined by the fuzzy classification algorithm of Tim Moore (2009) and custom-developed classes to best represent the CCI merged data
water_class6
float
Normalised water class 6 membership, as determined by the fuzzy classification algorithm of Tim Moore (2009) and custom-developed classes to best represent the CCI merged data
water_class7
float
Normalised water class 7 membership, as determined by the fuzzy classification algorithm of Tim Moore (2009) and custom-developed classes to best represent the CCI merged data
water_class8
float
Normalised water class 8 membership, as determined by the fuzzy classification algorithm of Tim Moore (2009) and custom-developed classes to best represent the CCI merged data
water_class9
float
Normalised water class 9 membership, as determined by the fuzzy classification algorithm of Tim Moore (2009) and custom-developed classes to best represent the CCI merged data
water_class10
float
Normalised water class 10 membership, as determined by the fuzzy classification algorithm of Tim Moore (2009) and custom-developed classes to best represent the CCI merged data
water_class11
float
Normalised water class 11 membership, as determined by the fuzzy classification algorithm of Tim Moore (2009) and custom-developed classes to best represent the CCI merged data
water_class12
float
Normalised water class 12 membership, as determined by the fuzzy classification algorithm of Tim Moore (2009) and custom-developed classes to best represent the CCI merged data
water_class13
float
Normalised water class 13 membership, as determined by the fuzzy classification algorithm of Tim Moore (2009) and custom-developed classes to best represent the CCI merged data
water_class14
float
Normalised water class 14 membership, as determined by the fuzzy classification algorithm of Tim Moore (2009) and custom-developed classes to best represent the CCI merged data
atot_412
float
Total absorption coefficient at 412 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
atot_443
float
Total absorption coefficient at 443 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
atot_490
float
Total absorption coefficient at 490 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
atot_510
float
Total absorption coefficient at 510 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
atot_555
float
Total absorption coefficient at 555 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
atot_670
float
Total absorption coefficient at 670 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
aph_412
float
Phytoplankton absorption coefficient at 412 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
aph_443
float
Phytoplankton absorption coefficient at 443 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
aph_490
float
Phytoplankton absorption coefficient at 490 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
aph_510
float
Phytoplankton absorption coefficient at 510 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
aph_555
float
Phytoplankton absorption coefficient at 555 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
aph_670
float
Phytoplankton absorption coefficient at 670 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
adg_412
float
Absorption coefficient for dissolved and detrital material at 412 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
adg_443
float
Absorption coefficient for dissolved and detrital material at 443 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
adg_490
float
Absorption coefficient for dissolved and detrital material at 490 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
adg_510
float
Absorption coefficient for dissolved and detrital material at 510 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
adg_555
float
Absorption coefficient for dissolved and detrital material at 555 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
adg_670
float
Absorption coefficient for dissolved and detrital material at 670 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
bbp_412
float
Particulate backscattering coefficient for dissolved and detrital material at 412 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
bbp_443
float
Particulate backscattering coefficient for dissolved and detrital material at 443 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
bbp_490
float
Particulate backscattering coefficient for dissolved and detrital material at 490 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
bbp_510
float
Particulate backscattering coefficient for dissolved and detrital material at 510 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
bbp_555
float
Particulate backscattering coefficient for dissolved and detrital material at 555 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
bbp_670
float
Particulate backscattering coefficient for dissolved and detrital material at 670 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
chlor_a
float
Chlorophyll-a concentration in seawater (not log-transformed), generated by SeaDAS using a blended combination of OCI (OC4v6 + Hu's CI), OC3 and OC5, depending on water class memberships
kd_490
float
Downwelling attenuation coefficient at 490nm, derived using Lee 2005 equation and bbw from Zhang 2009 (following the SeaDAS Kd_lee algorithm)
Rrs_412_rmsd
float
Root-mean-square-difference of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 412 nm.
Rrs_443_rmsd
float
Root-mean-square-difference of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 443 nm.
Rrs_490_rmsd
float
Root-mean-square-difference of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 490 nm.
Rrs_510_rmsd
float
Root-mean-square-difference of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 510 nm.
Rrs_555_rmsd
float
Root-mean-square-difference of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 555 nm.
Rrs_670_rmsd
float
Root-mean-square-difference of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 670 nm.
Rrs_412_bias
float
Bias of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 412 nm.
Rrs_443_bias
float
Bias of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 443 nm.
Rrs_490_bias
float
Bias of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 490 nm.
Rrs_510_bias
float
Bias of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 510 nm.
Rrs_555_bias
float
Bias of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 555 nm.
Rrs_670_bias
float
Bias of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 670 nm.
chlor_a_log10_rmsd
float
Root-mean-square-difference of log10-transformed chlorophyll-a concentration in seawater.
chlor_a_log10_bias
float
Bias of log10-transformed chlorophyll-a concentration in seawater.
aph_412_rmsd
float
Root-mean-square-difference of phytoplankton absorption coefficient at 412 nm.
aph_443_rmsd
float
Root-mean-square-difference of phytoplankton absorption coefficient at 443 nm.
aph_490_rmsd
float
Root-mean-square-difference of phytoplankton absorption coefficient at 490 nm.
aph_510_rmsd
float
Root-mean-square-difference of phytoplankton absorption coefficient at 510 nm.
aph_555_rmsd
float
Root-mean-square-difference of phytoplankton absorption coefficient at 555 nm.
aph_670_rmsd
float
Root-mean-square-difference of phytoplankton absorption coefficient at 670 nm.
aph_412_bias
float
Bias of phytoplankton absorption coefficient at 412 nm.
aph_443_bias
float
Bias of phytoplankton absorption coefficient at 443 nm.
aph_490_bias
float
Bias of phytoplankton absorption coefficient at 490 nm.
aph_510_bias
float
Bias of phytoplankton absorption coefficient at 510 nm.
aph_555_bias
float
Bias of phytoplankton absorption coefficient at 555 nm.
aph_670_bias
float
Bias of phytoplankton absorption coefficient at 670 nm.
adg_412_rmsd
float
Root-mean-square-difference of absorption coefficient for dissolved and detrital material at 412 nm.
adg_443_rmsd
float
Root-mean-square-difference of absorption coefficient for dissolved and detrital material at 443 nm.
adg_490_rmsd
float
Root-mean-square-difference of absorption coefficient for dissolved and detrital material at 490 nm.
adg_510_rmsd
float
Root-mean-square-difference of absorption coefficient for dissolved and detrital material at 510 nm.
adg_555_rmsd
float
Root-mean-square-difference of absorption coefficient for dissolved and detrital material at 555 nm.
adg_670_rmsd
float
Root-mean-square-difference of absorption coefficient for dissolved and detrital material at 670 nm.
adg_412_bias
float
Bias of absorption coefficient for dissolved and detrital material at 412 nm.
adg_443_bias
float
Bias of absorption coefficient for dissolved and detrital material at 443 nm.
adg_490_bias
float
Bias of absorption coefficient for dissolved and detrital material at 490 nm.
adg_510_bias
float
Bias of absorption coefficient for dissolved and detrital material at 510 nm.
adg_555_bias
float
Bias of absorption coefficient for dissolved and detrital material at 555 nm.
adg_670_bias
float
Bias of absorption coefficient for dissolved and detrital material at 670 nm.
kd_490_rmsd
float
Root-mean-square-difference of downwelling attenuation coefficient at 490 nm derived using Lee 2005 equation and bbw from Zhang 2009
kd_490_bias
float
Bias of downwelling attenuation coefficient at 490 nm derived using Lee 2005 equation and bbw from Zhang 2009
Roy Mendelssohn
NOAA NMFS SWFSC Environmental Research Division
+1 831-420-3666
110 McAllister Road
Santa Cruz
CA
95060
USA
erd.data@noaa.gov
distributor
OPeNDAP
DAP/2.0
https://coastwatch.pfeg.noaa.gov/erddap/griddap/pmlEsaCCI42OceanColorDaily.html
order
Data Subset Form
ERDDAP's version of the OPeNDAP .html web page for this dataset. Specify a subset of the dataset and download the data via OPeNDAP or in many different file types.
download
https://coastwatch.pfeg.noaa.gov/erddap/griddap/pmlEsaCCI42OceanColorDaily.graph
order
Make-A-Graph Form
ERDDAP's Make-A-Graph .html web page for this dataset. Create an image with a map or graph of a subset of the data.
mapDigital
dataset
Source data were: NASA OBPG SeaWiFS level2 R2018.0 LAC and GAC [A/C via l2gen], NASA OBPG VIIRS L2 R2018.0 [A/C via l2gen], NASA OBPG MODIS Aqua L2 R2018.0 and ESA MERIS L1B (3rd reprocessing inc OCL correction) [Polymer v4.8]; Derived products were mainly produced with functions validated from the current NASA SeaDAS release and some custom implementations. Uncertainty generation determined by the fuzzy classifier scheme of Tim Moore (2009).
This record was created from dataset metadata by ERDDAP Version 2.23