FN Archimer Export Format PT J TI Downwelling surface solar irradiance in the tropical Atlantic Ocean: a comparison of re-analyses and satellite-derived data sets to PIRATA measurements BT AF TROLLIET, Melodie WALAWENDER, Jakub P. BOURLES, Bernard BOILLEY, Alexandre TRENTMANN, Joerg BLANC, Philippe LEFEVRE, Mireille WALD, Lucien AS 1:1;2:2;3:3;4:4;5:2;6:1;7:1;8:1; FF 1:;2:;3:;4:;5:;6:;7:;8:; C1 PSL Res Univ, MINES ParisTech, OIE Ctr Observat, Impacts,Energy, Sophia Antipolis, France. Deutscher Wetterdienst, Offenbach, Germany. IRD LEGOS, Brest, France. Transvalor, Mougins, France. C2 MINES PARISTECH, FRANCE DEUTSCHER WETTERDIENST, GERMANY IRD, FRANCE TRANSVALOR, FRANCE SI BREST SE IRD IN DOAJ IF 2.539 TC 25 UR https://archimer.ifremer.fr/doc/00623/73549/73802.pdf https://archimer.ifremer.fr/doc/00623/73549/73804.pdf LA English DT Article CR PIRATA AB This paper assesses the merits and drawbacks of several data sets of solar downwelling radiation received at the horizontal surface of the tropical Atlantic Ocean where the magnitude of this radiation and its spatial and temporal variability are not well known. The data sets are compared to quality-controlled measurements of hourly means of irradiance made at five buoys of the PIRATA network for the period 2012-2013. The data sets comprise the re-analyses MERRA-2 and ERAS, and three satellite-derived data sets: HelioClim-3v5, SARAH-2 and CAMS Radiation Service v2. It was found that the re-analyses MERRA-2 and ERAS often report cloud-free conditions while the actual conditions are cloudy, yielding an overestimation of the irradiance in such cases; and reciprocally, they report actual cloud-free conditions as cloudy, yielding an underestimation. The re-analyses exhibit more bias in irradiance in cases of medium and high-level clouds than for low-level clouds. They correlate well with the hourly means of irradiance (as a whole, correlation coefficients greater than 0.85 for MERRA-2 and 0.89 for ERAS); they correlate very poorly with daily means of irradiance (coefficients of less than 0.48 and 0.59 for MERRA2 and ERAS, respectively) and with the hourly and daily clearness indices (coefficients of less than 0.53 and 0.46 for MERRA-2 and less than 0.63 and 0.59 for ERAS). The irradiance pattern at both hourly and daily timescales is spatially distorted by re-analyses, especially for MERRA-2. The three satellite-derived data sets exhibit similar performances between them. The correlation coefficients are greater than 0.95 and 0.78 for irradiance and clearness index, respectively, in most cases for hourly values and 0.90 and 0.88, respectively, for daily values. The relative standard deviation of errors is of the order of 15 % for hourly values and 8 % for daily values. It is concluded that these data sets reproduce well the dynamics of the irradiance and clearness index at both hourly and daily timescales. They exhibit overestimation, with the lowest biases reached by the CAMS Radiation Service v2 and ranging between 11 and 37 W M-2 depending on the buoy. It is suggested that HelioClim-3v5 and CAMS Radiation Service v2 are suited for reproducing the spatial gradients of the irradiance and reflecting the spatial variability in the irradiance. PY 2018 PD SEP SO Ocean Science SN 1812-0784 PU Copernicus Gesellschaft Mbh VL 14 IS 5 UT 000444515800001 BP 1021 EP 1056 DI 10.5194/os-14-1021-2018 ID 73549 ER EF