Wechselwirkungen zwischen seltenen Erdmetallen und Mikroorganismen

Acta Biotechnologica Pub Date : 1987-01-01 DOI:10.1002/ABIO.370070506

M. Bullmann, U. Iske, F. Glombitza, B. Dittrich

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引用次数: 4

Abstract

In recent years there have been a lot of works on the accumulation and removal of heavy metals from aqueous solutions and industrial waste waters by different kinds of microorganisms. A variety of microorganisms are known to be tolerant to mercury, copper, chromium, silver, cadmium etc., or to have a high accumulation capacity for these elements. But nothing is known about the interactions between microorganisms and REE*-ions in aqueous solutions. The objectives of our experiments were to determine the ability of various microorganisms to accumulate REE and to determine what possible effects, in terms of growth, different REE-ion concentrations may have on the bacteria cultures. Experiments on the accumulation of La and Pr by a freeze dried bacteria mixed culture, carried out with model solutions, showed that the accumulation process is completed few minutes after contact. The uptake is independent on pH-value and temperature and amounts up to 63 mg REE/g biomass in both cases. A gram+ bacterium spec., isolated from an industrial waste water, accumulates large quantities of REE in dependence on the pre-treatment of the cells, e.g. in the case of resting or freeze dried cells up to 100 mg/g biomass and in the case of heat treated cells up to 40 mg/l.

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稀有土壤与微生物之间的相互作用

近年来，国内外学者对不同微生物对水、工业废水中重金属的富集和去除进行了大量的研究。已知多种微生物对汞、铜、铬、银、镉等具有耐受性，或对这些元素具有较高的积累能力。但是我们对微生物与水溶液中稀土离子之间的相互作用一无所知。我们实验的目的是确定各种微生物积累稀土元素的能力，并确定就生长而言，不同稀土离子浓度可能对细菌培养产生的影响。用模型溶液进行冻干细菌混合培养对La和Pr的积累实验表明，接触后几分钟就完成了积累过程。吸收量不受ph值和温度的影响，在这两种情况下的吸收量均高达63 mg REE/g生物量。从工业废水中分离出的克+细菌spec，根据细胞的预处理，积累大量的稀土元素，例如，在静息或冻干细胞的情况下，高达100 mg/g生物质，而在热处理细胞的情况下，高达40 mg/l。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Acta Biotechnologica

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