Paerl H W, Whitall D R. Anthropogenically-derived Atmospheric Nitrogen Deposition. Marine Eutrophication and Harmful Algal Bloom Expansion: Is there a Link? Ambio, 1999, 28: 307 - 311.
[4]
Murphy J, Riley J P. A modified single solution method for determination of phosphate in natural waters. Analytica Chimica Acta, 1962, 27:31 -36.
[5]
Chen L, Duce R A. The sources of sulfate vanadium and mineral matter in aerosol particles over Bermuda. Atmospheric Environment, 1983, 17: 2055 - 2064.
[6]
王晓蓉著.环境化学[M].南京:南京大学出版社,1993..
[7]
蔡启铭.太湖环境生态研究[M].北京:气象出版社,1998..
[8]
Duce R A. The Impact of Atmospheric Nitrogen, Phosphorus, And Iron Species on Marine Biological Productivity, In:Buat-Menard P, ed. The Role of Air-Sea Exchange in Geochemical Cycling. D. Reidel, Norwell, MASS, 1986: 497-529.
[9]
Graham W F, Piotrowicz S R, Duce R A. The sea as a source of atmospheric phosphorus. Marine Chemistry, 1979, 7: 325- 342.
[10]
Migon C, Sandroni V, Bethoux J P. Atmospheric input of anthropogenic phosphorus to the northwest Mediterranean under oligotrophic conditions. Marine Environmental Research, 2001, 52: 413 - 426.
[11]
Newman E I. Phosphorus input to terrestrial ecosystems. The Journal of Ecology, 1995, 83(4) :713 -726.
