NCSS for Grids ( Grid as Point Dataset )

Select Variable(s):

MERIS_nobs = Count of the number of observations from the MERIS sensor contributing to this bin cell
MODISA_nobs = Count of the number of observations from the MODIS (Aqua) sensor contributing to this bin cell
Rrs_412 = Sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 412 nm.
Rrs_412_bias = Bias of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 412 nm.
Rrs_412_rmsd = Root-mean-square-difference of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 412 nm.
Rrs_443 = Sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 443 nm.
Rrs_443_bias = Bias of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 443 nm.
Rrs_443_rmsd = Root-mean-square-difference of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 443 nm.
Rrs_490 = Sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 490 nm.
Rrs_490_bias = Bias of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 490 nm.
Rrs_490_rmsd = Root-mean-square-difference of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 490 nm.
Rrs_510 = Sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 510 nm.
Rrs_510_bias = Bias of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 510 nm.
Rrs_510_rmsd = Root-mean-square-difference of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 510 nm.
Rrs_555 = Sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 555 nm.
Rrs_555_bias = Bias of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 555 nm.
Rrs_555_rmsd = Root-mean-square-difference of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 555 nm.
Rrs_670 = Sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 670 nm.
Rrs_670_bias = Bias of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 670 nm.
Rrs_670_rmsd = Root-mean-square-difference of sea surface reflectance defined as the ratio of water-leaving radiance to surface irradiance at 670 nm.
SeaWiFS_nobs = Count of the number of observations from the SeaWiFS (GAC and LAC) sensor contributing to this bin cell
VIIRS_nobs = Count of the number of observations from the VIIRS sensor contributing to this bin cell
adg_412 = Absorption coefficient for dissolved and detrital material at 412 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
adg_412_bias = Bias of absorption coefficient for dissolved and detrital material at 412 nm.
adg_412_rmsd = Root-mean-square-difference of absorption coefficient for dissolved and detrital material at 412 nm.
adg_443 = Absorption coefficient for dissolved and detrital material at 443 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
adg_443_bias = Bias of absorption coefficient for dissolved and detrital material at 443 nm.
adg_443_rmsd = Root-mean-square-difference of absorption coefficient for dissolved and detrital material at 443 nm.
adg_490 = Absorption coefficient for dissolved and detrital material at 490 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
adg_490_bias = Bias of absorption coefficient for dissolved and detrital material at 490 nm.
adg_490_rmsd = Root-mean-square-difference of absorption coefficient for dissolved and detrital material at 490 nm.
adg_510 = Absorption coefficient for dissolved and detrital material at 510 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
adg_510_bias = Bias of absorption coefficient for dissolved and detrital material at 510 nm.
adg_510_rmsd = Root-mean-square-difference of absorption coefficient for dissolved and detrital material at 510 nm.
adg_555 = Absorption coefficient for dissolved and detrital material at 555 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
adg_555_bias = Bias of absorption coefficient for dissolved and detrital material at 555 nm.
adg_555_rmsd = Root-mean-square-difference of absorption coefficient for dissolved and detrital material at 555 nm.
adg_670 = Absorption coefficient for dissolved and detrital material at 670 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
adg_670_bias = Bias of absorption coefficient for dissolved and detrital material at 670 nm.
adg_670_rmsd = Root-mean-square-difference of absorption coefficient for dissolved and detrital material at 670 nm.
aph_412 = Phytoplankton absorption coefficient at 412 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
aph_412_bias = Bias of phytoplankton absorption coefficient at 412 nm.
aph_412_rmsd = Root-mean-square-difference of phytoplankton absorption coefficient at 412 nm.
aph_443 = Phytoplankton absorption coefficient at 443 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
aph_443_bias = Bias of phytoplankton absorption coefficient at 443 nm.
aph_443_rmsd = Root-mean-square-difference of phytoplankton absorption coefficient at 443 nm.
aph_490 = Phytoplankton absorption coefficient at 490 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
aph_490_bias = Bias of phytoplankton absorption coefficient at 490 nm.
aph_490_rmsd = Root-mean-square-difference of phytoplankton absorption coefficient at 490 nm.
aph_510 = Phytoplankton absorption coefficient at 510 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
aph_510_bias = Bias of phytoplankton absorption coefficient at 510 nm.
aph_510_rmsd = Root-mean-square-difference of phytoplankton absorption coefficient at 510 nm.
aph_555 = Phytoplankton absorption coefficient at 555 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
aph_555_bias = Bias of phytoplankton absorption coefficient at 555 nm.
aph_555_rmsd = Root-mean-square-difference of phytoplankton absorption coefficient at 555 nm.
aph_670 = Phytoplankton absorption coefficient at 670 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
aph_670_bias = Bias of phytoplankton absorption coefficient at 670 nm.
aph_670_rmsd = Root-mean-square-difference of phytoplankton absorption coefficient at 670 nm.
atot_412 = Total absorption coefficient at 412 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
atot_443 = Total absorption coefficient at 443 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
atot_490 = Total absorption coefficient at 490 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
atot_510 = Total absorption coefficient at 510 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
atot_555 = Total absorption coefficient at 555 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
atot_670 = Total absorption coefficient at 670 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
bbp_412 = Particulate backscattering coefficient for dissolved and detrital material at 412 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
bbp_443 = Particulate backscattering coefficient for dissolved and detrital material at 443 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
bbp_490 = Particulate backscattering coefficient for dissolved and detrital material at 490 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
bbp_510 = Particulate backscattering coefficient for dissolved and detrital material at 510 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
bbp_555 = Particulate backscattering coefficient for dissolved and detrital material at 555 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
bbp_670 = Particulate backscattering coefficient for dissolved and detrital material at 670 nm as derived using the QAA model, generated by SeaDAS for SeaWiFS
chlor_a = 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
chlor_a_log10_bias = Bias of log10-transformed chlorophyll-a concentration in seawater.
chlor_a_log10_rmsd = Root-mean-square-difference of log10-transformed chlorophyll-a concentration in seawater.
kd_490 = Downwelling attenuation coefficient at 490nm, derived using Lee 2005 equation and bbw from Zhang 2009 (following the SeaDAS Kd_lee algorithm)
kd_490_bias = Bias of downwelling attenuation coefficient at 490 nm derived using Lee 2005 equation and bbw from Zhang 2009
kd_490_rmsd = Root-mean-square-difference of downwelling attenuation coefficient at 490 nm derived using Lee 2005 equation and bbw from Zhang 2009
total_nobs = Count of the total number of observations contributing to this bin cell
water_class1 = 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_class10 = 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 = 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 = 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 = 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 = 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
water_class2 = 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 = 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 = 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 = 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 = 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 = 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 = 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 = 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