Sulfur isotopic composition and source identification of atmospheric environment in central Zhejiang, China
Author:
Publisher
Springer Science and Business Media LLC
Subject
General Earth and Planetary Sciences
Link
http://link.springer.com/content/pdf/10.1007/s11430-010-4017-9.pdf
Reference34 articles.
1. Jamieson R E, Wadleigh M A. Tracing sources of precipitation sulfate in eastern Canada using stable isotopes and trace metals. J Geophy Res, 2000, 105: 20549–20556
2. Romero A B. Mass-independent sulfur isotopic compositions in atmospheric sulfates. Dissertation for Doctoral Degree. San Diego: University of California, 2003
3. Bao H M, Reheis M C. Multiple oxygen and sulfur isotopic analyses on water-soluble sulfate in bulk atmospheric deposition from the southwestern United States. J Geophy Res, 2003, 108: 4430–4438
4. Norman A L, Belzer W, Barrie L A. Insights into the biogenic contribution to total sulphate in aerosol and precipitation in the Fraser Valley afforded by isotopes of sulphur and oxygen. J Geophy Res, 2004, 109: 5311–5320
5. Tie X, Brasseur G P, Briegleb B, et al. Two-dimensional simulation of Pinatubo aerosol and its effect on stratospheric ozone. J Geophy Res, 1994, 99: 20545–20562
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