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Estimating the influence of lightning on upper tropospheric ozone using NLDN...

Wang, L., M. Newchurch, A. Pour-Biazar, S. Kuang, M. Khan, X. Liu, W. Koshak, and K. Chance (2013), Estimating the influence of lightning on upper tropospheric ozone using NLDN lightning data and CMAQ model, Atmos. Environ., 67, 219-228, doi:10.1016/j.atmosenv.2012.11.001.
Abstract: 

Lightning is a particularly significant NOx source in the middle and upper troposphere where it affects tropospheric chemistry and ozone. Because the version-4 Community Multiscale Air Quality Modeling System (CMAQ) does not account for NOx emission from lightning, it underpredicts NOx above the mixed layer. In this study, the National Lightning Detection NetworkÔ (NLDN) lightning data are applied to the CMAQ model to simulate the influence of lightning-produced NOx (LNOx) on upper tropospheric NOx and subsequent ozone concentration. Using reasonable values for salient parameters (detection efficiency w95%, cloud flash to ground flash ratio w3, LNOx production rate w500 mol N per flash), the NLDN ground flashes are converted into total lightning NOx amount and then vertically distributed on 39 CMAQ model layers according to a vertical-distribution profile of lightning N mass. This LNOx contributes 27% of the total NOx emission during 15 July w7 September 2006. This additional NOx reduces the low-bias of simulated tropospheric O3 columns with respect to OMI tropospheric O3 columns from 10 to 5%. Although the model prediction of ozone in upper troposphere improves by w20 ppbv due to lightning-produced NOx above the southeastern and eastern U.S.A., the improved ozone prediction is still w20e25 ppbv lower than ozonesonde measurements.

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