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Sediments from shallow aquifers in Bengal Delta, India have been found to contain arsenic. Rivers of Ganga-Brahmaputra system, responsible for depositing these sediments in the delta, have created a store of arsenic. Geomorphological domains with different depositional styles regulate the pattern of distribution of zones with widely different content of groundwater arsenic. The high arsenic zones occur as narrow sinuous strips confined to channel deposits. A few iron-bearing clastic minerals and two post-depositional secondary products are arsenic carriers. Secondary siderite concretions have grown on the surface of the clastic carriers in variable intensity. The quantity of arsenic in all clastic carriers is in excess of what is generally expected. Excess arsenic is contributed by the element adsorbed on the concretion grown on the surface of the carriers, which adds up to the arsenic in the structure of the minerals. Variable abundance of concretions is responsible for the variable quantity of arsenic in the carriers and the sediment samples. Fe2+ for the growth of siderite concretions is obtained from the iron-bearing clastic carriers. The reaction involves reduction of trivalent iron to bivalent and the required electron is obtained by transformation of As3+ to As5+. It is suggested that oxidation of As3+ to As5+ is microbially mediated. In the Safe zone arsenic is retained in the carriers and groundwater arsenic is maintained below 0.05 mg/l. In the Unsafe zone sorbed arsenic is released from the carriers in the water through desorption and dissolution of concretion, thereby elevating the groundwater arsenic level to above 0.05 mg/l. 相似文献
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抑螺防病林建设中生物材料的筛选及抑螺机理研究进展 总被引:1,自引:0,他引:1
血吸虫病是一种严重危害人们身体健康的重大传染病,林业血防生态工程建设是防治血吸虫病的有效手段,生物材料的筛选是林业血防建设的重要环节。阐述了抑螺防病林建设中生物(植物、微生物)材料筛选及研究进展,并从钉螺生理响应和解剖结构等方面系统分析了生物材料抑螺机理。 相似文献
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微生物碳酸盐岩是微生物与环境相互作用的产物,它的发育对古环境与微生物群落有着重要的指示意义。河北省平泉县地区中元古代高于庄组四段发育有凝块石、纹理石、叠层石多种微生物碳酸盐岩。凝块石以其内部独特的凝块组构而显著区别于具纹层构造的叠层石等其它微生物岩类型。根据尺寸大小与排列特点可将高于庄组凝块石中的凝块组构分为3种类型:厘米级别、致密的中凝块,毫米级别、似层状的小凝块与微米级别、层状分布的微凝块。显微与超显微观察显示,所有的凝块组构均由内核与外壳两个结构单元组成。内核主要为丝状细菌、球状细菌等微生物或有机质残留,围绕内核的是呈放射状、扇状分布的方解石外壳,方解石颗粒之间可见有薄片状胞外聚合物(EPS)残留。凝块中微生物残余及EPS的大量发现,表明了凝块组构的形成与微生物密切相关。环境中海水碳酸盐初始饱和度的高低可能是形成不同类型的凝块组构的原因。 相似文献
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采用平皿沉降法测定了2006年5月—2007年1月葫芦岛市区室内外空气微生物含量。结果表明:市区室外平均空气总菌、细菌和真菌量分别为15 434.0、14 981.9 CFU/m3和452.1 CFU/m3,真菌占总菌量的2.9%,表明空气处于中度微生物污染状态。闹市、交通要道的空气质量一般比近郊、清净处的差;室外空气微生物浓度显示出时间和垂直高度变化的某种特点。室内空气微生物监测结果反映出室内空气质量尚可。建议应进一步采取得力的环境保护措施,切实改善空气环境质量。 相似文献
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The interaction between minerals and microbes is an important biogeochemical process in the earth surface system, which links the transformation of substances and energy exchange in different earth spheres, and also affects a series of important earth surface processes, including the formation and evolution of secondary minerals, nutrient cycling and environmental behaviors of pollutants. The previous studies on microbe-mineral interaction focused on the extracellular electron transfer, and the microbe-mediated dissolution, precipitation, mineralization of minerals. Because of semiconductor properties of the mineral, it plays a special role in the process of microbial extracellular electron transfer, which can also help to understand the mutual interaction between microbe and mineral from a new angle of view. The unique energy level structures and redox properties of semiconducting mineral lead to a great difference in the mechanism of microbe and mineral interaction. The latest research progresses in the mechanism of microbe-mineral interaction mediated by semiconducting mineral were reviewed from two aspects: driven by thermodynamics and light energy. Finally, the future development trends of the interaction between microbes and semiconductor minerals were prospected. 相似文献
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微生物对砷的地球化学行为的影响——暨地下水砷污染机制的最新研究进展 总被引:7,自引:0,他引:7
砷在自然界中广泛存在,近年来砷污染对人类健康造成的危害越来越引人关注。微生物在自然界中长期与砷共存,进化出不同的生物转化机制,在自然水体中微生物主要参与砷的不同氧化价态之间的转化过程,即As(V)和As(III)之间的氧化还原作用。砷酸盐异化还原菌(Dissimilatory Arsenate Respiring Prokaryote, DARP)可以将As(V)还原为As(III),化能自养亚砷酸盐氧化菌(Chemoautotrophic Arsenite Oxidizer, CAO)和异养亚砷酸盐氧化菌(Heterotrophic Arsenite Oxidizer, HAO)可以将As(III)氧化为As(V)。这些砷代谢微生物在分类和代谢能力上都具有很大的多样性,它们广泛参与了砷的生物地球化学循环的关键步骤,对特定环境条件下砷的地球化学行为产生重要影响,进而参与了砷的全球循环。在盐碱湖莫诺(Mono)湖中砷的不同价态分层存在,CAO与DARP的紧密偶联共同参与了莫诺湖中的砷的地球化学循环。在孟加拉三角洲的地下含水层中,微生物参与了将砷从固相迁移到水相的关键步骤,最终导致了地下水中的砷污染。 相似文献
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Xiaotong Peng Jiangtao Li Jiwei Li Shun Chen Huiqiang Yao Zijun Wu 《Sedimentary Geology》2010,229(4):193-368
Microbial biomineralization in submarine hydrothermal environments provides an insight into the formation of vent microfossils and the interactions between microbes, elements and minerals throughout the geological record. Here, we investigate microbial biomineralization of a deep-sea vent community in the Edmond vent field and provide ultrastructural evidence for the formation of microfossils and biogenic iron-rich minerals related to Archaea and Bacteria. Environmental scanning electron microscopy (ESEM) analysis shows that filamentous and spiral microbes are encrusted by a non-crystalline silica matrix and minor amounts of iron oxides. Examination by transmission electron microscopy (TEM) reveals acicular iron-rich particles and aggregates that occur either intracellularly or extracellularly. A culture-independent molecular phylogenetic analysis demonstrates a diverse range of Bacteria and Archaea, the majority of which are related to sulfur metabolism in the microbial mats. Both Archaea and Bacteria have undergone silicification, in a similar manner to microorganisms in some terrestrial hot springs and indicating that silicification may be driven by silica supersaturation and polymerization. Formation mechanisms of intracellular and extracellular iron oxides associated with microbes are discussed. These results enhance our understanding of microbial mineralization in extreme environments, which may be widespread in the Earth's modern and ancient hydrothermal vent fields. 相似文献
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