机译:通过水铁矿的微生物介导絮凝进行砷动员
Department of Geosciences,Virginia Tech,Blacksburg,Virginia,and Via Department of Civil and Environmental Engineering,Virginia Tech,Blacksburg,Virginia;
Department of Geosciences,Virginia Tech,Blacksburg,Virginia,and Via Department of Civil and Environmental Engineering,Virginia Tech,Blacksburg,Virginia;
Department of Geosciences,Virginia Tech,Blacksburg,Virginia,and Via Department of Civil and Environmental Engineering,Virginia Tech,Blacksburg,Virginia;
机译:有机物对砷(Ⅵ)砷和铁的微生物介导的减少和动员的影响 - 持续的Ferrihydrite
机译:定量微生物介导的Ferrihydrite转化动力学和砷还原:减少砷酸盐的基因表达模式的作用
机译:具有不同减砷活性的吸铁希瓦氏菌菌株从含砷水铁矿中动员不同的砷。
机译:微生物群落结构的时间动态及其对长江流域四季含水层砷动员和转化的影响
机译:砷的微生物还原,沉淀和动员。
机译:异化砷酸盐还原菌介导的砷矿物质的溶解:砷动员的生理潜力的估计。
机译:有机物对砷(V) - 砷的砷和铁的微生物介导和动员的影响 - Bearing Ferrihydrite