Soils are a non-negligible source of NO in a UK suburban greenspace and SE Australian Eucalyptus forest

An, H. and Sayer, E.J. and Allan, J. and Flynn, M. and Phillips, F. and Dominick, D. and Naylor, T. and Paton-Walsh, C. and Emmerson, K.M. and Possell, M. and Parnell, D. and Ashworth, K. (2023) Soils are a non-negligible source of NO in a UK suburban greenspace and SE Australian Eucalyptus forest. Agricultural and Forest Meteorology, 342: 109726. ISSN 0168-1923

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Abstract

Nitrogen oxides, particularly NO and NO2 (NOx), are primary air pollutants that also play an essential role in the atmospheric oxidation of volatile organic compounds, resulting in ozone and secondary organic aerosol formation. It is therefore critical to fully characterise NOx sources and sinks to understand tropospheric photochemistry and hence local- to regional-scale air quality. Human activities such as transport and power plants are well-known NOx emission sources in urban areas, whereas natural sources such as soils have been considered to contribute more substantially in rural and remote areas. However, soil NO emissions are poorly characterised and therefore underrepresented in models. To improve our understanding of soil as a source of NO, we measured diurnal patterns in soil NO concentrations at a suburban site in the UK and a remote field site in Australia to determine whether soils contribute to local atmospheric NO, and to identify the potential drivers of soil NO emissions. Mean soil NO concentrations in both UK campaigns 1.76 ± 0.92 ppb in summer and 0.91 ± 0.37 ppb in winter) were higher than those measured in Australia (0.73 ± 0.73 ppb). The diel patterns of NO concentrations (both sites) and emissions rates (Australia) showed a clear peak corresponding to local emission sources, but variation in NO was also related to either vapour pressure deficit (R2 = 0.88 in UK summer, R2 = 0.51 in Australia, both p < 0.05) or solar radiation (R2 = 0.06 with p > 0.4 in UK summer, R2 = 0.71 with p < 0.05 in Australia) during the daylight hours, indicating biogenic origin of soil NO. Our work demonstrates that biogenic soil emissions of NO are non-negligible, estimated at around 1.32 % of total NO emissions at the remote site, and 0.22 % at the urban site, and must be accounted for in global and regional atmospheric chemistry-climate modelling and NOx reduction strategies.

Item Type:
Journal Article
Journal or Publication Title:
Agricultural and Forest Meteorology
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/2300/2306
Subjects:
?? soil no emissionnatural nox sourcesoil chamberglobal and planetary changeagronomy and crop scienceforestryatmospheric science ??
ID Code:
207083
Deposited By:
Deposited On:
12 Oct 2023 13:45
Refereed?:
Yes
Published?:
Published
Last Modified:
09 Oct 2024 12:52