J. David Neelin, Benjamin R. Lintner, Baijun Tian, Qinbin Li, Li Zhang,
Prabir K. Patra, Moustafa T. Chahine, Samuel N. Stechmann,
Geophys. Res. Lett., submitted Dec. 2009.
Abstract. Simple prototypes for forced advection-diffusion problems are known to produce passive tracer distributions that exhibit approximately exponential or stretched exponential tails. Having previously found an approximately exponential tail for the column integrated water vapor (CWV) distribution under high precipitation conditions, we conjectured that if such prototypes are relevant to more complex tropospheric tracer problems, we should find such tails for a wide set of tracers. Here it is shown that such tails are indeed found in observed, model, and reanalysis data sets for a variety of tracers, either column integrated or averaged through a deep layer, including CO and CO2. The long tails in CWV are associated with vertical transport and can occur independent of a local precipitation sink. These non-Gaussian distributions can have consequences for source attribution studies of anthropogenic tracers, and for mechanisms of precipitation extremes; the properties of the tails may help constrain model tracer simulations.
Citation. J. D. Neelin, B. R. Lintner, B. Tian, Q. Li, L. Zhang, P. K. Patra, M. T. Chahine and S. N. Stechmann, 2010: Long tails in deep columns of natural and anthropogenic tropospheric tracers. Geophys. Res. Lett.. Submitted.
Acknowledgments. This research was supported in part by NSF grant ATM-0645200, NOAA grant NA08OAR4310882, NASA grant NNX09AF07G, and NOAA Climate and Global Change Postdoctoral Fellowship.