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Simulation of upper tropospheric CO2 from chemistry and transport models

Identifieur interne : 001144 ( Main/Exploration ); précédent : 001143; suivant : 001145

Simulation of upper tropospheric CO2 from chemistry and transport models

Auteurs : Xun Jiang [États-Unis] ; Qinbin Li [États-Unis] ; Mao Hang Liang [Taïwan, États-Unis] ; Run Ie Shia [États-Unis] ; Moustafa T. Chahine [États-Unis] ; Edward T. Olsen [États-Unis] ; Luke L. Chen [États-Unis] ; Yuk L. Yung [États-Unis]

Source :

Global Biogeochemical Cycles [ 0886-6236 ] ; 2008-12.

RBID : ISTEX:A9849F2FBAF17A8BD34A603AD3AEF968B4DB2F80

Abstract

The California Institute of Technology/Jet Propulsion Laboratory two‐dimensional (2‐D), three‐dimensional (3‐D) GEOS‐Chem, and 3‐D MOZART‐2 chemistry and transport models (CTMs), driven respectively by NCEP2, GEOS‐4, and NCEP1 reanalysis data, have been used to simulate upper tropospheric CO2 from 2000 to 2004. Model results of CO2 mixing ratios agree well with monthly mean aircraft observations at altitudes between 8 and 13 km (Matsueda et al., 2002) in the tropics. The upper tropospheric CO2 seasonal cycle phases are well captured by the CTMs. Model results have smaller seasonal cycle amplitudes in the Southern Hemisphere compared with those in the Northern Hemisphere, which are consistent with the aircraft data. Some discrepancies are evident between the model and aircraft data in the midlatitudes, where models tend to underestimate the amplitude of CO2 seasonal cycle. Comparison of the simulated vertical profiles of CO2 between the different models reveals that the convection in the 3‐D models is likely too weak in boreal winter and spring. Model sensitivity studies suggest that convection mass flux is important for the correct simulation of upper tropospheric CO2.

Url:

https://api.istex.fr/document/A9849F2FBAF17A8BD34A603AD3AEF968B4DB2F80/fulltext/pdf

DOI: 10.1029/2007GB003049

Affiliations:

Taïwan, États-Unis
Californie, Texas

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Le document en format XML

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<author><name sortKey="Liang, Mao Hang" sort="Liang, Mao Hang" uniqKey="Liang M" first="Mao Hang" last="Liang">Mao Hang Liang</name>
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<front><div type="abstract">The California Institute of Technology/Jet Propulsion Laboratory two‐dimensional (2‐D), three‐dimensional (3‐D) GEOS‐Chem, and 3‐D MOZART‐2 chemistry and transport models (CTMs), driven respectively by NCEP2, GEOS‐4, and NCEP1 reanalysis data, have been used to simulate upper tropospheric CO2 from 2000 to 2004. Model results of CO2 mixing ratios agree well with monthly mean aircraft observations at altitudes between 8 and 13 km (Matsueda et al., 2002) in the tropics. The upper tropospheric CO2 seasonal cycle phases are well captured by the CTMs. Model results have smaller seasonal cycle amplitudes in the Southern Hemisphere compared with those in the Northern Hemisphere, which are consistent with the aircraft data. Some discrepancies are evident between the model and aircraft data in the midlatitudes, where models tend to underestimate the amplitude of CO2 seasonal cycle. Comparison of the simulated vertical profiles of CO2 between the different models reveals that the convection in the 3‐D models is likely too weak in boreal winter and spring. Model sensitivity studies suggest that convection mass flux is important for the correct simulation of upper tropospheric CO2.</div>
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Simulation of upper tropospheric CO2 from chemistry and transport models

Simulation of upper tropospheric CO2 from chemistry and transport models

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Abstract

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Le document en format XML

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