---------------------------------------------------- | Directory ./0_CHL_mon_clim_xy_NEMO_SeaWiFS_GLOB/ | ---------------------------------------------------- Figs in this directory are: Annual mean (1998-2007) of global 2x2 deg NEMO output remapped to 0.5x0.5 deg showing: -1st attenuation depth 1/Kd (not 2.3/Kd) calculated from model euphotic layer depth "Heup" -model NCHL+CHL -model organic carbon concentration POC -model primary production PPPHY and -SeaWiFS Chla ------------------------------------------------------------------------------------------ Attenuation_Depth_GLOB/ 1) Attenuation_depth_1.0_Kd.Heup_NEMO_annu_mean_1998-2007_xy_1.0_Kd_GLOB_osu.eps: -The 1st atenuation depth 1/Kd = Heup/4.6 [m] cacluated using the model output "Heup" = "Euphotic layer depth" unit="m". The file name includes "_Heup" and in the figure "Heup" appears. 2) Attenuation_depth_1.0_Kd.PAR_z1-3_noSW_NEMO_annu_mean_1998-2007_xy_GLOB_osu.eps: -The 1st atenuation depth 1/Kd cacluated using the model output "PAR" = "Photosynthetically Available Radiation" unit="W/m2" at the model levels z=1,2,3 (5m,15m,25m depth). The file name includes "_noSW" and in the figure "z=1-3" appears. 3) Attenuation_depth_1.0_Kd.PAR_z0-3_SW_NEMO_annu_mean_1998-2007_xy_GLOB_osu.eps: -The 1st atenuation depth 1/Kd cacluated using the model output "PAR" = "Photosynthetically Available Radiation" unit="W/m2" at the model levels z=1,2,3 (5m,15m,25m depth) AND the PAR portion of the external model forcing shortwave at just under the ocean surface. The file name includes "_SW" and in the figure "z=0-3" appears. ------------------------------------------------------------------------------------------ Combined_Figs_NDCHL_Chla_xy_mg.m3_mg.m2_GLOB/NDCHL_NEMO_1998-2007_xy_1.0_Kd.PAR_z0-3:z1-3_8X_COMB/ 1) NDCHL_NEMO_1998-2007_xy_1.0_Kd.PAR_z0-3:z1-3_8X_COMB.eps consists of 8 figures: -Attenuation_depth_1.0_Kd.PAR_z0-3_SW_NEMO_annu_mean_1998-2007_xy_GLOB_osu.eps; Attenuation_depth_1.0_Kd.PAR_z1-3_noSW_NEMO_annu_mean_1998-2007_xy_GLOB_osu.eps; -N+DCHL_NEMO_annual_mean_1998-2007_xy_1.0_Kd_PAR_z0-3_D2C_mgm3_GLOB_osu_w_SW.eps; N+DCHL_NEMO_annu_mean_1998-2007_xy_1.0_Kd_PAR_z1-3_mg.m3_GLOB_osu_noSW.eps; -N+DCHL_NEMO_annual_mean_1998-2007_xy_1.0_Kd.PAR_z0-3_mg.m2_GLOB_osu_SW.eps; N+DCHL_NEMO_annual_mean_1998-2007_xy_1.0_Kd.PAR_z1-3_mg.m2_GLOB_osu_noSW.eps; -Ratio_Chl_a_SeaWiFS:N+DCHL_NEMO_annual_mean_1998-2007_xy_1.0_Kd_PAR_z0-3_mg.m2_GLOB_osu_SW.eps; Ratio_Chl_a_SeaWiFS:N+DCHL_NEMO_annual_mean_1998-2007_xy_1.0_Kd_PAR_z1-3_mg.m2_GLOB_osu_noSW.eps; Left col: case using the 1st attenuation depth 3) in ./Attenuation_Depth_GLOB (with external SW/PAR forcing) Right col: case using the 1st attenuation depth 2) in ./Attenuation_Depth_GLOB (without external SW/PAR forcing) bottom (4th) row left: Ratio of depth integrated Chl_a & N+DCHL mg/m2: ([SeaWiFs Chl_a]-[N+DCHL])/[SeaWiFs Chl_a] in 1st attenuation depth 1/Kd(PAR(z=0,1,2,3)] bottom (4th) row right: Ratio of depth integrated Chl_a & N+DCHL mg/m2: ([SeaWiFs Chl_a]-[N+DCHL])/[SeaWiFs Chl_a] in 1st attenuation depth 1/Kd(PAR(z=1,2,3)] ------------------------------------------------------------------------------------------ Combined_Figs_NDCHL_Chla_xy_mg.m3_mg.m2_GLOB/Chl_a_SeaWiFS:NDCHL_NEMO_1.0_Kd.Heup_4.6_1998-2007_xy_8X_COMB/ 1) Chl_a_SeaWiFS:NDCHL_NEMO_1.0_Kd.Heup_4.6_1998-2007_xy_8X_COMB.eps consists of 8 figures: -Chl_a_SeaWiFS_annual_mean_1998-2007_xy_mg.m3_GLOB_osu.eps; N+DCHL_NEMO_annu_mean_1998-2007_xy_mg.m3_top10m_GLOB_osu_3.eps; -Chl_a_SeaWiFS_annual_mean_1998-2007_xy_1.0_Heup_4.6_mg.m2_GLOB_osu.eps; N+DCHL_NEMO_annual_mean_1998-2007_xy_1.0_Heup_4.6_mg.m2_GLOB_osu.eps; -Ratio_Chl_a_SeaWiFS:N+DCHL_NEMO_annual_mean_1998-2007_xy_1.0_Heup_1.0_mg.m2_GLOB_osu_tbgntend.eps; N+DCHL_NEMO_annual_mean_1998-2007_xy_top_200m_mg.m2_GLOB_osu.eps; -Attenuation_depth_1.0_Kd.Heup_NEMO_annu_mean_1998-2007_xy_1.0_Kd_GLOB_osu.eps; N+DCHL_NEMO_annual_mean_1998-2007_xy_top2bottom_mg.m2_GLOB_osu.eps; Top left: SeaWiFS Chl_a 10-year mean 1998-2007 [mg/m3]; Top right: Model NCHL+DCHL averaged over the 1st attenuation depth 1/Kd = Heup/4.6 calculated using the model output Heup and time-averaged 1998-2007 [mg/m3]; 2nd left: SeaWiFS Chl_a integrated over the 1st attenuation depth 1/Kd = Heup/4.6 calculated using the model output Heup and time-averaged 1998-2007 [mg/m2]; 2nd right: Model NCHL+DCHL integrated over the 1st attenuation depth 1/Kd = Heup/4.6 calculated using the model output Heup and time-averaged 1998-2007 [mg/m2]; 3rd left: Ratio of the difference [(2nd left)-(2nd right)]/(2nd left); 3rd right: Model NCHL+DCHL integrated over the depth 0 to 200m [mg/m2]; bottom left: Attenuation depth 1/Kd = Heup/4.6 [m]; bottom right: Model NCHL+DCHL integrated over the depth 0 to ocean bottom [mg/m2]; ------------------------------------------------------------------------------------------ Combined_Figs_NDCHL_Corr_Coeff.Ratio_of_mg.m2_GLOB/ 1)NDCHL_NEMO_Corr_Coeff.Ratio_of_mg.m2_zsum_Heup_1998-2007_xy_GLOB_6X_COMB.eps consists of 6 figures: -N+DCHL_NEMO_annual_mean_1998-2007_xy_1.0_Heup_4.6_mg.m2_GLOB_osu.eps; N+DCHL_NEMO_Corr_Coeff_of_mg.m2_zsum_0to1.Kd_Heup:0tobottom_1998-2007_xy_GLOB.eps -N+DCHL_NEMO_annual_mean_1998-2007_xy_1.Kd_Heup2bottom_mg.m2_GLOB_osu.eps; N+DCHL_NEMO_Corr_Coeff_of_mg.m2_zsum_0to1.Kd_Heup:1.Kd_Heuptobottom_1998-2007_xy_GLOB.eps -N+DCHL_NEMO_annual_mean_1998-2007_xy_top2bottom_mg.m2_GLOB_osu.eps; -N+DCHL_NEMO_Ratio_of_mg.m2_zsum_0to1.Kd_Heup:0tobottom_1998-2007_xy_GLOB_osu.eps; 1st row right: Correlation coefficient of monthly (1998-2007) depth integrated [N+DCHL, z=0 to 1/Kd] and [N+DCHL, z=0 to bottom] 2nd row right: Correlation coefficient of monthly (1998-2007) depth integrated [N+DCHL, z=0 to 1/Kd] and [N+DCHL, z=1/Kd to bottom] 4th row left: Ratio of depth integrated [N+DCHL in 1st attenuation depth 1/Kd = Heup/4.6] to [N+DCHL in top_to_bottom depth] 2) NDCHL_NEMO_Corr_Coeff.Ratio_of_mg.m2_zsum_Kd.PAR.z1-3_1998-2007_xy_GLOB_6X_COMB.eps consists of 6 figures: -N+DCHL_NEMO_annual_mean_1998-2007_xy_1.0_Kd.PAR_z1-3_mg.m2_GLOB_osu_noSW.eps; N+DCHL_NEMO_Corr_Coeff_of_mg.m2_zsum_0to1.Kd.PAR:1.Kd.PAR_TO_bottom_1998-2007_xy_GLOB_noSW.eps -N+DCHL_NEMO_annual_mean_1998-2007_xy_1.Kd.PAR_z1-3_to_bottom_mg.m2_GLOB_noSW.eps; N+DCHL_NEMO_Corr_Coeff_of_mg.m2_zsum_0to1.Kd_PAR:0tobottom_1998-2007_xy_GLOB_noSW.eps -N+DCHL_NEMO_annual_mean_1998-2007_xy_top2bottom_mg.m2_GLOB_osu.eps; -N+DCHL_NEMO_Ratio_of_mg.m2_zsum_0to1.Kd_PAR:0tobottom_1998-2007_xy_GLOB_noSW.eps; 1st row right: Correlation coefficient of monthly (1998-2007) depth integrated [N+DCHL, z=0 to 1/Kd(PAR z=1,2,3)] and [N+DCHL, z=0 to bottom] 2nd row right: Correlation coefficient of monthly (1998-2007) depth integrated [N+DCHL, z=0 to 1/Kd(PAR z=1,2,3)] and [N+DCHL, z=1/Kd(PAR z=1,2,3) to bottom] 4th row left: Ratio of depth integrated [N+DCHL in 1st attenuation depth 1/Kd calculated using model output PAR at z=1,2,3] to [N+DCHL in top_to_bottom depth] ------------------------------------------------------------------------------------------ Combined_Figs_POCs+b_xy_mgC.m3_mgC.m2_GLOB/POCs+b_NEMO_1.0_Kd.Heup_4.6:1.0_Kd_PAR_z0-3_1998-2007_xy_6X_COMB/ POCs = 'Small organic carbon concentration'; model units = [molC/L] POCb = 'Big organic carbon concentration'; model units = [molC/L] 1) GOC_NEMO_1.0_Kd.Heup_4.6:1.0_Kd_PAR_z0-3_1998-2007_xy_6X_COMB.eps consists of 6 figures: -POCs+b_NEMO_annu_mean_1998-2007_xy_1.0_Heup_4.6_mgC.m3_GLOB_osu_B.eps; POCs+b_NEMO_annu_mean_1998-2007_xy_1.0_Kd_PAR_z1-3_mgC.m3_GLOB_osu_noSW_B.eps -POCs+b_NEMO_annual_mean_1998-2007_xy_1.0_Heup_4.6_mgC.m2_GLOB_osu.eps; POCs+b_NEMO_annu_mean_1998-2007_xy_1.0_Kd.PAR_z1-3_mgC.m2_GLOB_osu_noSW_B.eps -POCs+b_NEMO_annual_mean_1998-2007_xy_top_200m_mgC.m2_GLOB_osu_B.eps; POCs+b_NEMO_annual_mean_1998-2007_xy_top2bottom_mgC.m2_GLOB_osu_B.eps ------------------------------------------------------------------------------------------ Combined_Figs_POCs+b_Corr_Coeff.Ratio_of_mg.m2_GLOB/ 1) POCs+b_NEMO_Corr_Coeff.Ratio_of_mg.m2_zsum_Heup_1998-2007_xy_GLOB_6X_COMB.eps consists of 6 figures: -POCs+b_NEMO_annual_mean_1998-2007_xy_1.0_Heup_4.6_mgC.m2_GLOB_osu.eps; POCs+b_NEMO_Corr_Coeff_of_mg.m2_zsum_0to1.Kd_Heup:0tobottom_1998-2007_xy_GLOB.eps -POCs+b_NEMO_annual_mean_1998-2007_xy_1.Kd_Heup2bottom_mg.m2_GLOB_osu.eps; POCs+b_NEMO_Corr_Coeff_of_mg.m2_zsum_0to1.Kd_Heup:1.Kd_Heuptobottom_1998-2007_xy_GLOB.eps -POCs+b_NEMO_annual_mean_1998-2007_xy_top2bottom_mgC.m2_GLOB_osu_B.eps; -POCs+b_NEMO_Ratio_of_mg.m2_zsum_0to1.Kd_Heup:0tobottom_1998-2007_xy_GLOB_osu.eps; ------------------------------------------------------------------------------------------ Combined_Figs_PPPHY_PPPHY2_xy_mgC.m3.d_mgC.m2.d_GLOB/PPPHY12_NEMO_1.0_Kd.Heup_4.6:1.0_Kd_PAR_z0-3_1998-2007_xy_6X_COMB/ PPPHY = 'Primary production of nanophyto'; model units = [molC/m3/s] PPPHY2 = 'Primary production of diatoms'; model units = [molC/m3/s] 1) PPPHY12_NEMO_1.0_Kd.Heup_4.6:1.0_Kd_PAR_z0-3_1998-2007_xy_6X_COMB.eps consists of 6 figures: PPPHY12_NEMO_annu_mean_1998-2007_xy_1.0_Heup_4.6_mgC.m3.d_GLOB_osu_A.eps; PPPHY12_NEMO_annu_mean_1998-2007_xy_1.0_Kd_PAR_z1-3_mgC.m3.d_GLOB_osu_noSW.eps PPPHY12_NEMO_annu_mean_1998-2007_xy_1.0_Heup_4.6_mgC.m2.d_GLOB_osu.eps; PPPHY12_NEMO_annu_mean_1998-2007_xy_1.0_Kd_PAR_z1-3_mgC.m2.d_GLOB_osu_noSW.eps PPPHY12_NEMO_annual_mean_1998-2007_xy_top_200m_gC.m2.d_GLOB_osu.eps; PPPHY12_NEMO_annual_mean_1998-2007_xy_top2bottom_gC.m2.d_GLOB_osu.eps ------------------------------------------------------------------------------------------ Combined_Figs_PPPHY_PPPHY2_Corr_Coeff.Ratio_of_mgC.m2_GLOB/ 1) PPPHY12_NEMO_Corr_Coeff.Ratio_of_mg.m2_zsum_Kd.PAR.z1-3_1998-2007_xy_GLOB_6X_noSW_COMB.eps consists of 6 figures: PPPHY12_NEMO_annu_mean_1998-2007_xy_1.0_Kd_PAR_z1-3_mgC.m2.d_GLOB_osu_noSW.eps; PPPHY12_NEMO_Corr_Coeff_of_mg.m2_zsum_0to1.Kd_PAR.z1-3:0tobottom_1998-2007_xy_GLOB_noSW.eps PPPHY12_NEMO_annu_mean_1998-2007_xy_1.0_Kd_PAR_z1-3_TO_bottom_mgC.m2.d_GLOB_osu_noSW.eps; PPPHY12_NEMO_Corr_Coeff_of_mg.m2_zsum_0to1.Kd_PAR.z1-3:1.Kd_to_bottom_1998-2007_xy_GLOB_noSW.eps PPPHY12_NEMO_annual_mean_1998-2007_xy_top2bottom_gC.m2.d_GLOB_osu.eps; PPPHY_NEMO_Ratio_of_mg.m2_zsum_0to1.Kd_PAR.z1-3:0tobottom_1998-2007_xy_GLOB_noSW.eps; ------------------------------------------------------------------------------------------