biodegradation of organic micropollutants dibutyl phthalate

biodegradation of organic micropollutants dibutyl phthalate

Biodegradation of Organic Micropollutants Dibutyl Phthalate

micropollutants. Degradation efficiencies of the ubiquitous endocrine disrupting chemicals dibutyl phthalate (DBP) and bisphenol A (BPA) by selected fungal strains with different ecophysiologies were determined via ultra performance liquid chromatography (UPLC). The micropollutants were almost

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biodegradation of organic micropollutants dibutyl phthalate

Biodegradation of organic micropollutants dibutyl phthalate

Fungi represent a promising and relatively untapped resource in regard to the bioremediation of micropollutants. Degradation efficiencies of the ubiquitous endocrine disrupting chemicals dibutyl phthalate (DBP) and bisphenol A (BPA) by selected fungal strains with different ecophysiologies were determined via ultra performance liquid chromatography (UPLC).

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biodegradation and kinetic analysis of phthalates by an

Biodegradation and kinetic analysis of phthalates by an

A bacterial strain C21 isolated from constructed wetland soil was identified as Arthrobacter sp. based on 16S rRNA gene sequence analysis and physio-biochemical characteristics and was capable of utilizing di-n-butyl phthalate (DBP) as a carbon and energy source for growth. Strain C21 can also utilize other phthalates (PAEs) up to a molecular weight of 390.56 and phthalic acid (PA). The

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lena carstens - m.sc.

Lena Carstens - M.Sc.

Master thesis at the Helmholtz Centre for Environmental Research, Department of Environmental Microbiology, Environmental Mycology: ‘Biodegradation of organic micropollutants dibutyl phthalate and bisphenol A by fungi´ 10/2012 – 01/2016 Bachelor of Science in BioGeoSciences. Friedrich Schiller University, Jena

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1, * 1 1, 2 1 - jestr

1, * 1 1, 2 1 - JESTR

biodegradation of two typical PAEs (diethyl phthalate(DEP) and dibutyl phthalate(DBP)). Benthic diatoms have strong adaptability and biodegradation to PAEs. However, when multiple PAEs coexist in one system, antagonism occurs among microorganisms, resulting in a decline in biodegradation. Li et al. [12] biodegraded diethylhexyl

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biodegradation of an endocrine disrupting chemical di-n-butyl

Biodegradation of an Endocrine Disrupting Chemical di-n-Butyl

After treatment with BaCEs04 for 5 h, the degradation ratio of four different 1 mM PAEs, including dimethyl phthalate, diethyl phthalate, dipropyl phthalate, and dibutyl phthalate, was 32.4%, 50.5

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biological treatment processes for the removal of organic

Biological Treatment Processes for the Removal of Organic

Micropollutants or contaminants of emerging concern (CECs) are released into the environment from a wide variety of sources. Due to the adverse effect on human health, micropollutant-containing wastewater needs to be treated before its discharge. A number of conventional physicochemical methods have been extensively studied for micropollutant degradation. However, owing to their one or more

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carbon and hydrogen isotopic fractionation during abiotic

Carbon and hydrogen isotopic fractionation during abiotic

The calculated carbon apparent kinetic isotope effects (AKIE C) for the hydrolytic pathway (C O bond cleavage) of PAEs fall within an expected range of 1.03–1.09, with the exception of lower AKIE C values for dibutyl phthalate (DBP) during hydrolysis at pH 2 and aerobic biodegradation.

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