Understanding Top-of-Atmosphere Flux Bias in the AeroCom Phase III Models: A Clear-Sky Perspective

Su, Wenying; Liang, Lusheng; Myhre, Gunnar; Thorsen, Tyler J.; Loeb, Norman G.; Schuster, Gregory L.; Ginoux, Paul; Paulot, Fabien; Neubauer, David; Checa‐Garcia, Ramiro; Matsui, Hitoshi; Tsigaridis, Kostas; Skeie, Ragnhild B.; Takemura, Toshihiko; Bauer, Susanne E.; Schulz, Michael

doi:10.1029/2021MS002584

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Understanding Top-of-Atmosphere Flux Bias in the AeroCom Phase III Models: A Clear-Sky Perspective

2021
By Su, Wenying ; Liang, Lusheng ; Myhre, Gunnar ; ...
Source: Journal of Advances in Modeling Earth Systems, 13(9)

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Journal Title:

Journal of Advances in Modeling Earth Systems
Personal Author:

Su, Wenying ; Liang, Lusheng ; Myhre, Gunnar ; Thorsen, Tyler J. ; Loeb, Norman G. ; ... More +

Su, Wenying ; Liang, Lusheng ; Myhre, Gunnar ; Thorsen, Tyler J. ; Loeb, Norman G. ; Schuster, Gregory L. ; Ginoux, Paul ; Paulot, Fabien ; Neubauer, David ; Checa‐Garcia, Ramiro ; Matsui, Hitoshi ; Tsigaridis, Kostas ; Skeie, Ragnhild B. ; Takemura, Toshihiko ; Bauer, Susanne E. ; Schulz, Michael Less -
NOAA Program & Office:

OAR (Oceanic and Atmospheric Research) ; GFDL (Geophysical Fluid Dynamics Laboratory)

OAR (Oceanic and Atmospheric Research) ; GFDL (Geophysical Fluid Dynamics Laboratory) Less -
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Biases in aerosol optical depths (AOD) and land surface albedos in the AeroCom models are manifested in the top-of-atmosphere (TOA) clear-sky reflected shortwave (SW) fluxes. Biases in the SW fluxes from AeroCom models are quantitatively related to biases in AOD and land surface albedo by using their radiative kernels. Over ocean, AOD contributes about 25% to the urn:x-wiley:19422466:media:jame21429:jame21429-math-0001S–urn:x-wiley:19422466:media:jame21429:jame21429-math-0002N mean SW flux bias for the multi-model mean (MMM) result. Over land, AOD and land surface albedo contribute about 40% and 30%, respectively, to the urn:x-wiley:19422466:media:jame21429:jame21429-math-0003S–urn:x-wiley:19422466:media:jame21429:jame21429-math-0004N mean SW flux bias for the MMM result. Furthermore, the spatial patterns of the SW flux biases derived from the radiative kernels are very similar to those between models and CERES observation, with the correlation coefficient of 0.6 over ocean and 0.76 over land for MMM using data of 2010. Satellite data used in this evaluation are derived independently from each other, consistencies in their bias patterns when compared with model simulations suggest that these patterns are robust. This highlights the importance of evaluating related variables in a synergistic manner to provide an unambiguous assessment of the models, as results from single parameter assessments are often confounded by measurement uncertainty. Model biases in land surface albedos can and must be corrected to accurately calculate TOA flux. We also compare the AOD trend from three models with the observation-based counterpart. These models reproduce all notable trends in AOD except the decreasing trend over eastern China and the adjacent oceanic regions due to limitations in the emission data set.
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AeroCom Aerosol Optical Depth Shortwave TOA Top-of-atmosphere
Source:

Journal of Advances in Modeling Earth Systems, 13(9)
DOI:

https://doi.org/10.1029/2021MS002584
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Journal Article
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CC BY-NC-ND
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urn:sha256:e2d6e24f2d18a4d2eccc82463a285f1ac4427a15bb1e75327314fe8ef1bd7094
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Understanding Top-of-Atmosphere Flux Bias in the AeroCom Phase III Models: A Clear-Sky Perspective

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