Department of Civil and Environmental Engineering, University of Connecticut, Storrs, CT, USA.
FEMS Microbiol Ecol. 2010 Feb;71(2):260-71. doi: 10.1111/j.1574-6941.2009.00797.x. Epub 2009 Oct 13.
We examined the presence of iron-oxidizing bacteria (IOB) at a groundwater surface water interface (GSI) impacted by reduced groundwater originating as leachate from an upgradient landfill. IOB enrichments and quantifications were obtained, at high vertical resolution, by an iron/oxygen opposing gradient cultivation method. The depth-resolved soil distribution profiles of water content, Fe(2+), and total Fe indicated sharp gradients within the top 10 cm sediments of the GSI, where the IOB density was the highest. In addition, the vertical distribution of iron-reducing bacteria at the same sampling site mirrored the IOB distribution. Clone libraries from two separate IOB enrichments indicated a stratified IOB community with clear differences at short vertical distances. Alpha- and Betaproteobacteria were the dominant phylotypes. Clones from the near-surface sediment (1-2 cm below ground surface) were dominated by members of the Bradyrhizobiaceae and Comamonadaceae; clones from the deeper sediments were phylogenetically more diverse, dominated by members of the Rhodocyclaceae. The iron deposition profiles indicated that active iron oxidation occurred only within the near-to-surface GSI sediments. The match between the iron deposition profiles and the IOB abundance profiles strongly hints at the contribution of the IOB community to Fe oxidation in this Fe-rich GSI ecosystem.
我们研究了受源自上游垃圾填埋场渗滤液的还原地下水影响的地下水-地表水界面 (GSI) 处铁氧化菌 (IOB) 的存在情况。采用铁/氧反向梯度培养法,在高垂直分辨率下获得了 IOB 的富集和定量。水含量、Fe(2+) 和总 Fe 的深度分辨土壤分布曲线表明,GSI 顶部 10 cm 沉积物内存在明显的梯度,IOB 密度最高。此外,同一采样点的铁还原细菌的垂直分布反映了 IOB 的分布。来自两个单独的 IOB 富集的克隆文库表明,IOB 群落具有明显的分层结构,在短垂直距离上存在明显差异。α-和β-变形菌是主要的类群。来自近地表沉积物(距地面 1-2 cm)的克隆主要由根瘤菌科和丛毛单胞菌科成员组成;来自较深沉积物的克隆具有更高的系统发育多样性,主要由红环菌科成员组成。铁沉积曲线表明,只有在近地表 GSI 沉积物中才会发生铁的活性氧化。铁沉积曲线与 IOB 丰度曲线之间的匹配强烈暗示了 IOB 群落对富含铁的 GSI 生态系统中铁氧化的贡献。
