Department of Environmental Chemistry, IDAEA-CSIC, Jordi Girona 18-26, Barcelona 08034, Spain.
Environ Sci Pollut Res Int. 2012 May;19(4):1013-25. doi: 10.1007/s11356-011-0603-4. Epub 2012 Apr 29.
Mediterranean rivers are characterized by a high flow variability, which is strongly influenced by the seasonal rainfall. When water scarcity periods occur, water flow, and dilution capacity of the river is reduced, increasing the potential environmental risk of pollutants. On the other hand, floods contribute to remobilization of pollutants from sediments. Contamination levels in Mediterranean rivers are frequently higher than in other European river basins, including pollution by pharmaceutical residues. Little attention has been paid to the transport behavior of emerging contaminants in surface waters once they are discharged from WWTP into a river. In this context, this work aimed to relate presence and fate of emerging contaminants with hydrological conditions of a typical Mediterranean River (Llobregat, NE Spain).
River fresh water samples were collected twice a week over a period of 5 weeks at three sampling points. Sixty-six pharmaceutical compounds belonging to different therapeutical classes were analyzed by LC-MS/MS.
Positive and negative correlations between the concentrations of the target analytes and hydrological variables like river flow and dissolved organic matter were observed pointing out the relevance of different hydrological phenomena like dilution effects or sediment re-suspension. Sensitivity calculations showed that the majority of compounds were sensitive to flow variations.
地中海河流的特点是流量变化很大,这强烈受到季节性降雨的影响。当出现水资源短缺时期时,河流的水流和稀释能力会降低,增加污染物的潜在环境风险。另一方面,洪水会促进污染物从沉积物中重新迁移。与其他欧洲河流流域相比,地中海河流的污染水平通常更高,包括药物残留污染。人们很少关注到污水处理厂排放到河流中的新兴污染物在地表水中的迁移行为。在这种情况下,这项工作旨在研究新兴污染物的存在和命运与一条典型的地中海河流(西班牙东北部的 Llobregat 河)的水文条件之间的关系。
在 5 周的时间内,每周两次在三个采样点采集河流淡水样本。采用 LC-MS/MS 分析了属于不同治疗类别的 66 种药物化合物。
目标分析物的浓度与河流流量和溶解有机物等水文变量之间存在正相关和负相关,这表明不同的水文现象,如稀释效应或沉积物再悬浮,具有重要性。敏感性计算表明,大多数化合物对流量变化敏感。
