On the use of $^{14}$CO$_2$ as a tracer for fossil fuel CO$_2$ : Quantifying uncertainties using an atmospheric transport model - Archive ouverte HAL
Article Dans Une Revue Journal of Geophysical Research: Atmospheres Année : 2009

On the use of $^{14}$CO$_2$ as a tracer for fossil fuel CO$_2$ : Quantifying uncertainties using an atmospheric transport model

Résumé

Δ$^{14}$CO$_2$ observations are increasingly used to constrain recently added fossil fuel CO$_2$ in the atmosphere. We use the LMDZ global atmospheric transport model to examine the pseudo‐Lagrangian framework commonly used to determine recently added fossil fuel CO$_2$ (CO$_{2ff}$). Our results confirm that Δ$^{14}$CO$_2$ spatial variability in the Northern Hemisphere troposphere is dominated by the effect of CO$_{2ff}$, whereas in the Southern Hemisphere, ocean CO$_2$ exchange is more important. The model indicates that the free troposphere, at 3–5 km altitude, is a good choice for “background,” relative to which the recently added fossil fuel CO$_2$ can be calculated, although spatial variability in free tropospheric Δ$^{14}$CO$_2$ contributes additional uncertainty to the CO$_{2ff}$ calculation. Comparison of model and observations suggests that care must be taken in using high‐altitude mountain sites as a proxy for free tropospheric air, since these sites may be occasionally influenced by (polluted) boundary layer air, especially in summer. Other sources of CO$_2$ which have Δ$^{14}C$ different than that of the atmosphere contribute a bias, which, over the Northern Hemisphere land, is mostly due to the terrestrial biosphere, whereas ocean CO2 exchange and nuclear industry and natural cosmogenic production of $^{14}$C contribute only weakly. The model indicates that neglecting this bias leads to a consistent underestimation of CO$_{2ff}$, typically between 0.2 and 0.5ppm of CO$_2$, with a maximum in summer. While our analysis focuses on fossil fuel CO$_2$, our conclusions, particularly the choice of background site, can also be applied to other trace gases emitted at the surface.
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Dates et versions

hal-02927094 , version 1 (06-05-2021)

Identifiants

Citer

Jocelyn Turnbull, Peter Rayner, John Miller, Tobias Naegler, Philippe Ciais, et al.. On the use of $^{14}$CO$_2$ as a tracer for fossil fuel CO$_2$ : Quantifying uncertainties using an atmospheric transport model. Journal of Geophysical Research: Atmospheres, 2009, 114, pp.D22302. ⟨10.1029/2009jd012308⟩. ⟨hal-02927094⟩
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