nerc.ac.uk

Marine and land-based influences on atmospheric ammonia and ammonium over Tenerife

Milford, C.; Sutton, M.A.; Allen, A.G.; Karlsson, A.; Davison, B.M.; James, J.D.; Rosman, K.; Harrison, R.M.; Cape, J.N.. 2000 Marine and land-based influences on atmospheric ammonia and ammonium over Tenerife. Tellus B, 52B. 273-289. 10.1034/j.1600-0889.2000.00042.x

Full text not available from this repository.

Abstract/Summary

Concentrations of gaseous ammonia ([NH3]) and aerosol ammonium ([NH+4 ]) were measured across Tenerife as part of the ACE-2 ‘‘HILLCLOUD’’ experiment to assess the effect of cloud processing on the marine budget of reduced nitrogen (NHx). Several methods for measuring NH3 were applied: continuous rotating annular denuder, diffusion scrubber and multi-stage filter packs, with the latter also measuring NH+4 . The measurement sites were located both upwind and downwind of the hill-cloud. Terrestrial NH3 sources provide a major constraint in addressing marine NHx from land-based studies, and the measurements showed local NH3 emissions from both decomposing potato fields and livestock. [NH3] was correlated between upwind and downwind sites; at high [NH3] (>0.5 mg m−3) values were larger downwind than upwind, indicating the importance of island sources. In contrast, at high [NH+4 ] (>0.5 mg m−3), [NH+4 ] was significantly smaller downwind than upwind, while at low [NH+4 ] (0.2 mg m−3), the opposite was observed. The decrease in [NH+4 ] suggests that cloud processing in high [NH+4 ] conditions may enhance the evaporation of NH3 from NH+4 in cloud, while NH+4 aerosol formation could occur at low [NH+4 ]. Analysis of the average diurnal variability in [NH3] and [NH+4 ] at the different sites suggests that both NH3 emissions and post-cloud evaporation of NH+4 to NH3 are largest during the day, coupled with increased temperatures and reduced relative humidities. Although the marine NH+4 aerosol is mostly present as nonvolatile ammonium sulphate, evaporation of NH+4 at high [NH+4 ] may be explained by in-cloud mixing with nitrate and chloride leading to the production of NH4NO3 and NH4Cl which are subsequently volatilized on leaving the cloud.

Item Type: Publication - Article
Digital Object Identifier (DOI): 10.1034/j.1600-0889.2000.00042.x
Programmes: CEH Programmes pre-2009 publications > Other
CEH Sections: _ Pre-2000 sections
ISSN: 0040-2826
Date made live: 02 May 2013 08:22 +0 (UTC)
URI: http://nora.nerc.ac.uk/id/eprint/501379

Actions (login required)

View Item View Item

Document Downloads

Downloads for past 30 days

Downloads per month over past year

More statistics for this item...