State Key Laboratory of Environmental Geochemistry, Institute of Geochemistry, Chinese Academy of Sciences, No. 46, Guanshui Road, Guiyang 550002, China.
Environ Pollut. 2010 May;158(5):1726-32. doi: 10.1016/j.envpol.2009.11.016. Epub 2009 Dec 2.
In urban cities in Southern China, the tissue S/N ratios of epilithic mosses (Haplocladium microphyllum), varied widely from 0.11 to 0.19, are strongly related to some atmospheric chemical parameters (e.g. rainwater SO(4)(2-)/NH(4)(+) ratios, each people SO(2) emission). If tissue S/N ratios in the healthy moss species tend to maintain a constant ratio of 0.15 in unpolluted area, our study cities can be divided into two classes: class I (S/N > 0.15, S excess) and class II (S/N < 0.15, N excess), possibly indicative of stronger industrial activity and higher density of population, respectively. Mosses in all these cities obtained S and N from rainwater at a similar ratio. Sulphur and N isotope ratios in mosses are found significantly linearly correlated with local coal delta(34)S and NH(4)(+)-N wet deposition, respectively, indicating that local coal and animal NH(3) are the major atmospheric S and N sources.
在中国南方城市中,附生苔藓(Haplocladium microphyllum)的组织 S/N 比值变化范围很大,从 0.11 到 0.19,与一些大气化学参数密切相关(例如雨水 SO(4)(2-)/NH(4)(+) 比值、每人 SO(2) 排放量)。如果健康苔藓物种的组织 S/N 比值在未受污染的地区倾向于保持 0.15 的恒定比值,那么我们的研究城市可以分为两类:I 类(S/N > 0.15,S 过剩)和 II 类(S/N < 0.15,N 过剩),可能分别代表着更强的工业活动和更高的人口密度。所有这些城市的苔藓都从雨水中以相似的比例获得 S 和 N。苔藓中的硫和 N 同位素比值与当地煤 δ(34)S 和 NH(4)(+)-N 湿沉降呈显著线性相关,表明当地煤和动物 NH(3)是大气 S 和 N 的主要来源。