Dataset { Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; Float32 Z_01[Z_01 = 7]; Structure { Grid { ARRAY: Float32 AOU[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } AOU; Grid { ARRAY: Float32 chlorophyll[Z_01 = 7][Y = 180][X = 360]; MAPS: Float32 Z_01[Z_01 = 7]; Float32 Y[Y = 180]; Float32 X[X = 360]; } chlorophyll; Grid { ARRAY: Float32 nitrate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } nitrate; Grid { ARRAY: Float32 O2[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } O2; Grid { ARRAY: Float32 o2sat[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } o2sat; Grid { ARRAY: Float32 phosphate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } phosphate; Grid { ARRAY: Float32 salinity[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } salinity; Grid { ARRAY: Float32 silicate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } silicate; Grid { ARRAY: Float32 temperature[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } temperature; } analyzed; Structure { Grid { ARRAY: Float32 AOU[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } AOU; Grid { ARRAY: Float32 chlorophyll[Z_01 = 7][Y = 180][X = 360]; MAPS: Float32 Z_01[Z_01 = 7]; Float32 Y[Y = 180]; Float32 X[X = 360]; } chlorophyll; Grid { ARRAY: Float32 nitrate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } nitrate; Grid { ARRAY: Float32 O2[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } O2; Grid { ARRAY: Float32 o2sat[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } o2sat; Grid { ARRAY: Float32 phosphate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } phosphate; Grid { ARRAY: Float32 salinity[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } salinity; Grid { ARRAY: Float32 silicate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } silicate; Grid { ARRAY: Float32 temperature[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } temperature; } dist; Structure { Grid { ARRAY: Float32 AOU[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } AOU; Grid { ARRAY: Float32 chlorophyll[Z_01 = 7][Y = 180][X = 360]; MAPS: Float32 Z_01[Z_01 = 7]; Float32 Y[Y = 180]; Float32 X[X = 360]; } chlorophyll; Grid { ARRAY: Float32 nitrate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } nitrate; Grid { ARRAY: Float32 O2[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } O2; Grid { ARRAY: Float32 o2sat[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } o2sat; Grid { ARRAY: Float32 phosphate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } phosphate; Grid { ARRAY: Float32 salinity[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } salinity; Grid { ARRAY: Float32 silicate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } silicate; Grid { ARRAY: Float32 temperature[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } temperature; } gridpt; Structure { Grid { ARRAY: Float32 AOU[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } AOU; Grid { ARRAY: Float32 chlorophyll[Z_01 = 7][Y = 180][X = 360]; MAPS: Float32 Z_01[Z_01 = 7]; Float32 Y[Y = 180]; Float32 X[X = 360]; } chlorophyll; Grid { ARRAY: Float32 nitrate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } nitrate; Grid { ARRAY: Float32 O2[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } O2; Grid { ARRAY: Float32 o2sat[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } o2sat; Grid { ARRAY: Float32 phosphate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } phosphate; Grid { ARRAY: Float32 salinity[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } salinity; Grid { ARRAY: Float32 silicate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } silicate; Grid { ARRAY: Float32 temperature[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } temperature; } raw; Structure { Grid { ARRAY: Float32 AOU[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } AOU; Grid { ARRAY: Float32 chlorophyll[Z_01 = 7][Y = 180][X = 360]; MAPS: Float32 Z_01[Z_01 = 7]; Float32 Y[Y = 180]; Float32 X[X = 360]; } chlorophyll; Grid { ARRAY: Float32 nitrate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } nitrate; Grid { ARRAY: Float32 O2[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } O2; Grid { ARRAY: Float32 o2sat[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } o2sat; Grid { ARRAY: Float32 phosphate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } phosphate; Grid { ARRAY: Float32 salinity[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } salinity; Grid { ARRAY: Float32 silicate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } silicate; Grid { ARRAY: Float32 temperature[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } temperature; } sd; Structure { Grid { ARRAY: Float32 AOU[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } AOU; Grid { ARRAY: Float32 chlorophyll[Z_01 = 7][Y = 180][X = 360]; MAPS: Float32 Z_01[Z_01 = 7]; Float32 Y[Y = 180]; Float32 X[X = 360]; } chlorophyll; Grid { ARRAY: Float32 nitrate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } nitrate; Grid { ARRAY: Float32 O2[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } O2; Grid { ARRAY: Float32 o2sat[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } o2sat; Grid { ARRAY: Float32 phosphate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } phosphate; Grid { ARRAY: Float32 salinity[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } salinity; Grid { ARRAY: Float32 silicate[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } silicate; Grid { ARRAY: Float32 temperature[Z = 33][Y = 180][X = 360]; MAPS: Float32 Z[Z = 33]; Float32 Y[Y = 180]; Float32 X[X = 360]; } temperature; } se; } ANNUAL;