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Clean Air Journal

On-line version ISSN 2410-972X
Print version ISSN 1017-1703

Clean Air J. vol.31 n.2 Pretoria  2021

http://dx.doi.org/10.17159/caj/2020/31/2.12948 

RESEARCH BRIEF

 

Estimating lightning NOx production over South Africa

 

 

Bathobile MasekoI; Gregor FeigII, III; Roelof BurgerIV

ISouth African Weather Service, South Africa
IISouth African Environmental Observation Network, South Africa
IIIDepartment of Geography, Geoinformatics and Meteorology, University of Pretoria, South Africa
IVNorth-West University, South Africa

 

 

Poor air quality is a key environmental concern in South Africa, as it poses a serious threat to the well-being of the people of South Africa. Nitrogen oxides (NOx = nitric oxide (NO) + nitrogen dioxide (NO2)) are toxic air pollutants and play a significant role in tropospheric chemistry. Global NOx hotspots are the industrialised regions of the USA, Europe, Middle East, East Asia and eastern parts of South Africa. Lightning is one of the many natural and anthropogenic sources of NOx to the troposphere. The discourse on NO over the southern African continent has mainly focused on anthropogenic sources. However, lightning is known to be a significant source of tropospheric NOx globally. It is therefore important to understand its contribution to the national and global NOx budget.

A recent paper by Maseko et al., (2021), published in the South African Journal of Science, used data from the South African Lightning Detection Network to approximate the contribution of lightning on the NOx load over South Africa (Figure 1a), and to develop a gridded data set of lightning-produced NOx (LNOx) emissions for the period 2008-2015 (Figure 1b). The Network monitors cloud-to-ground lightning strikes; and theoretically has a detection efficiency of 90% and a location accuracy of 0.5 km. An emission factor of 11.5 kg NO2/flash was employed to calculate a national LNOx budget of ~270 kt NO2/ year. The calculated LNO was 14% of the total NO emission estimates published in the EDGAR v4.2 data set for the year 2008 (Figure 1c). The LNOx emission inventory will improve model performance and prediction and enhance the understanding of the contribution of lightning to ambient NO2.

 

 

References

Maseko, B., Feig, G., Burger, R., 2021. Estimating lightning NOx production over South Africa. South Afr. J. Sci. 117. https://doi.org/10.17159/sajs.2021/8035        [ Links ]

Schumann, U., Huntrieser, H., 2007. The global lightning-induced nitrogen oxides source. Atmos Chem Phys 85.         [ Links ]

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