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机译:老挝湄公河的生态复杂性:Ⅱ。金属和聚芳烃(PAH)监测,建模和环境命运
University of Strathclyde, Department of Civil Engineering, David Livingstone Centre for Sustainability, Glasgow, Scotland,Graham Hills Building, DLCS, University of Strathclyde, UK;
University of Strathclyde, Department of Civil Engineering, David Livingstone Centre for Sustainability, Glasgow, Scotland;
University of Strathclyde, Department of Civil Engineering, David Livingstone Centre for Sustainability, Glasgow, Scotland;
Department of Chemistry, Faculty of Science, Kasetsart University, Faculty of Science, Chatujak, Bangkok, Thailand;
PAHs; metal; biomagnifications; sediment-water partition coefficient; organic carbon partition coefficient; octanol-water partition coefficient; bioconcentration factor; chronic value; lethal concentration 50;
机译:老挝湄公河的生态复杂性:Ⅲ。湄公河cat鱼和鲤鱼的健康状况,生物蓄积作用的证据
机译:泰国老挝湄公河的生态复杂性:I.地质,季节变化和人类对河流质量的影响评估
机译:珠江河口水柱多环芳烃(PAHS)的动态(中国):季节性模式,环境命运和源含义
机译:分析聚芳烃(PAH)和烷基取代的PAH(APAH)同系物的方法
机译:对某些聚芳烃(PAHs)进行纽约州地表土壤本底浓度的统计分析。
机译:根际技术生物修复多环芳烃(PAHs)
机译:使用基于人体细胞的生物测定法评估多环芳烃(PAH)与金属的相互作用和联合毒性