Department of Environmental Chemistry, Institute of Environmental Assessment and Water Research, IDAEA-CSIC, Barcelona, Catalunya, Spain.
Environ Pollut. 2012 Jul;166:40-7. doi: 10.1016/j.envpol.2012.03.003. Epub 2012 Mar 30.
∑(30)PAH gas phase concentrations (13-86 and 22-40 ng m(-3) in the Mediterranean and Black Seas, respectively) dominated the atmospheric levels due to the high contribution of phenanthrene, dibenzothiophene and their alkylated derivates. The high variability of PAH atmospheric concentrations in the different sub-basins is due to several factors (i.e. air-mass trajectory, proximity to sources and losses by deposition). The ∑(30)PAH atmospheric deposition (dominated by low MW PAH net air-water diffusive fluxes) is estimated to be ~3100 ton y(-1) (Mediterranean) and ~500 ton y(-1) (Black Sea). Net volatilization for certain PAHs was estimated. Deposition fluxes (1-2 orders of magnitude higher than reported PAH settling fluxes in the water column) confirm an important depletion/sink of water column PAH in the photic zone, especially for low MW PAHs. Degradation processes in the water column may be responsible for this decoupling. Conversely, high MW PAHs dry deposition fluxes are similar to their settling fluxes.
∑(30)PAH 气相浓度(在地中海和黑海分别为 13-86 和 22-40ng m(-3))在大气水平中占主导地位,这是由于菲、二苯并噻吩及其烷基衍生物的高贡献所致。不同子流域中 PAH 大气浓度的高度变化是由于多种因素造成的(即空气团轨迹、接近污染源和通过沉积造成的损失)。∑(30)PAH 大气沉积(主要由低分子量 PAH 的净空气-水扩散通量支配)估计为3100 吨 y(-1)(地中海)和500 吨 y(-1)(黑海)。还估计了某些 PAH 的净挥发量。沉积通量(比水柱中报道的 PAH 沉降通量高 1-2 个数量级)证实了光区水柱 PAH 的重要消耗/汇,特别是对于低分子量 PAH 而言。水柱状中的降解过程可能是造成这种脱耦的原因。相反,高 MW PAH 的干沉降通量与其沉降通量相似。