Polychlorinated Biphenyls in Global Air and Surface Soil: Distributions, Air−Soil Exchange, and Fractionation Effect
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- 作者:Yi-Fan Li ; Tom Harner ; Liyan Liu ; Zhi Zhang ; Nan-Qi Ren ; Hongliang Jia ; Jianmin Ma ; Ed Sverko
- 刊名:Environmental Science & Technology
- 出版年:2010
- 出版时间:April 15, 2010
- 年:2010
- 卷:44
- 期:8
- 页码:2784-2790
- 全文大小:427K
- 年卷期:v.44,no.8(April 15, 2010)
- ISSN:1520-5851
文摘
Polychlorinated biphenyl (PCB) concentrations in air and soil, measured by various research groups from around the world, were compiled and analyzed. Data for air were available from most regions, particularly in Europe and Asia. The average air concentrations (pg/m3) for ΣPCB at background sites were 70 (5.1−170) for Europe, 79 (49−120) for North America, 66 (18−110) for South America, 270 (9−670) for Central America, 59 (17−150) for Asia, and 15 (13−17) for Australia. Data for soils exhibited better global coverage compared to air and were available from most regions. The average soil concentrations (pg/g dry weight) for ΣPCB at background sites were 7500 (47−97000) for Europe, 4300 (110−25000) for North America, 1400 (61−9 500) for South America, 580 (120−2 900) for Asia, 390 (94−620) for Africa, and 280 (140−540) for Australia. Based on available studies where coupled measurements of PCBs in air and soil were made, the equilibrium status of PCBs in the air−soil system was investigated for China, West Midlands of the UK, central and southern Europe, and along a latitudinal transect from the south of the UK to the north of Norway. Differences were observed in plots of the soil−air equilibrium status (expressed as the soil−air fugacity fraction, ff) for different PCB homologues. This was explained by varying contributions from primary and secondary emissions—spatially and temporally. The net effect after several decades of PCB emissions to air, preferential transport of lower molecular weight PCBs through primary and secondary emission, and reductions in emissions to air in recent decades is that the lower molecular weight PCBs have achieved (and in some cases exceeded) soil−air equilibrium in many parts of the world. The exception is remote and background sites that are still dominated by primary sources.