Johannes Preuß scite author profile

Manufacture of nitroorganic explosives generates toxic wastes leading to contamination of soils and waters, especially groundwater. For that reason bacteria living in environments highly contaminated with 2,4,6-trinitrotoluene (TNT) and other nitroorganic compounds were investigated for their capacity for TNT degradation. One isolate, Raoultella terrigena strain HB, removed TNT at concentrations between 10 and 100 mg l(-1) completely from culture supernatants under optimum aerobic conditions within several hours. Only low concentrations of nutrient supplements were needed for the cometabolic transformation process. Radioactivity measurements with ring-labelled (14)C-TNT detected about 10-20% of the initial radioactivity in the culture supernatant and the residual 80-90% as water-insoluble organic compounds in the cellular pellet. HPLC analysis identified aminodinitrotoluenes (2-ADNT, 4-ADNT) and diaminonitrotoluenes (2,4-DANT) as the metabolites which remained soluble in the culture medium and azoxy-dimers as the main products in the cell extracts. Hence, the new isolate could be useful for the removal of TNT from contaminated waters.

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Environmental Remnants of the First World War: Soil Contamination of a Burning Ground for Arsenical Ammunition

Bausinger

Preuß

2005

Bull Environ Contam Toxicol

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TNT transformation products are affected by the growth conditions of Raoultella terrigena

et al. 2006

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High concentrations of 2,4,6-trinitrotoluene (TNT) and related nitroaromatic compounds are commonly found in soil and groundwater at former explosive plants. The bacterium, Raoultella terrigena strain HB, isolated from a contaminated site, converts TNT into the corresponding amino products. Radio-HPLC analysis with [(14)C]TNT identified aminodinitrotoluene, diaminonitrotoluene and azoxy-dimers as the main metabolites. Transformation rate and the type of metabolites that predominated in the culture medium and within the cells were significantly influenced by the culture conditions. The NAD(P)H-dependent enzymatic reduction of nitro-substituted compounds by cell-free extracts of R. terrigena was evaluated in vitro.

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Determination of mono-, di- and trinitronaphthalenes in soil samples contaminated by explosives

2004

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Johannes Preuß

Exposure assessment of a burning ground for chemical ammunition on the Great War battlefields of Verdun

Transformation of 2,4,6-trinitrotoluene (TNT) by Raoultella terrigena

Environmental Remnants of the First World War: Soil Contamination of a Burning Ground for Arsenical Ammunition

TNT transformation products are affected by the growth conditions of Raoultella terrigena

Determination of mono-, di- and trinitronaphthalenes in soil samples contaminated by explosives

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