South Pole NO_X Chemistry:an assessment of factors controlling variability and absolute levels

摘要

Several groups have now shown that snow covered polar areas can lead to the release of NO_X to the atmosphere as a result of the UV photolysis of nitrate ions.Here we focus on a detailed examination of the NO observations recorded at South Pole (SP).Topics explored include:(1) why SP NO_x levels greatly exceed those at other polar sites(2) what processes are responsible for the observed large day to day NO concentration shifts at SPand (3) possible explanations for the large variability in NO seen between SP studies in 1998 and 2000. As discussed in the main body of the text,the answer to all three questions lies in the uniqueness of the summertime SP environment.Among these characteristics is the presence of a large plateau region just to the east of SP. This region defines one of the world's largest air drainage fields,being nearly 1000 km across and having elevation of ~ 3 km. In addition, summertime SP surface temperatures typically do not exceed -25°C,leading to frequent cases where strong near surface temperature inversions occur.It experiences 24 h of continuous sunlight, giving rise to non-stop photochemical reactions both within the snowpack and in the atmosphere. The latter chemistry is unique at SP in that increasing levels of NO_X lead to an enhanced lifetime for NO_X, thereby producing non-linear increases in NO_X.In addition,the rapid atmospheric oxidation of NO_X,in conjunction with very rapid dry deposition of the products (HNO_3 and HO_2NO_2),results in a very efficient recycling of NO_X back to the snowpack. Details concerning these unique SP characteristics and the extension of these findings to the greater plateau region are discussed.Finally,the relationship of NO_X recycling and total nitrogen deposition to the plateau is explored.