Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Toxicity assessment using different bioassays and microbial biosensors
Abstract Toxicity assessment of water streams, wastewater, and contaminated sediments, is a very important part of environmental pollution monitoring. Evaluation of biological effects using a rapid, sensitive and cost effective method can indicate specific information on ecotoxicity assessment. Recently, different biological assays for toxicity assessment based on higher and lower organisms such as fish, invertebrates, plants and algal cells, and microbial bioassays have been used. This review focuses on microbial biosensors as an analytical device for environmental, food, and biomedical applications. Different techniques which are commonly used in microbial biosensing include amperometry, potentiometry, conductometry, voltammetry, microbial fuel cells, fluorescence, bioluminescence, and colorimetry. Examples of the use of different microbial biosensors in assessing a variety of environments are summarized.
Highlights Toxicity assessment is a very important for environmental monitoring. Different bioassays for toxicity assessment have been discussed. This review focuses on microbial biosensors as an analytical device for environmental, applications. Examples of different microbial biosensors in assessing a variety of environments are summarized.
Toxicity assessment using different bioassays and microbial biosensors
Abstract Toxicity assessment of water streams, wastewater, and contaminated sediments, is a very important part of environmental pollution monitoring. Evaluation of biological effects using a rapid, sensitive and cost effective method can indicate specific information on ecotoxicity assessment. Recently, different biological assays for toxicity assessment based on higher and lower organisms such as fish, invertebrates, plants and algal cells, and microbial bioassays have been used. This review focuses on microbial biosensors as an analytical device for environmental, food, and biomedical applications. Different techniques which are commonly used in microbial biosensing include amperometry, potentiometry, conductometry, voltammetry, microbial fuel cells, fluorescence, bioluminescence, and colorimetry. Examples of the use of different microbial biosensors in assessing a variety of environments are summarized.
Highlights Toxicity assessment is a very important for environmental monitoring. Different bioassays for toxicity assessment have been discussed. This review focuses on microbial biosensors as an analytical device for environmental, applications. Examples of different microbial biosensors in assessing a variety of environments are summarized.
Toxicity assessment using different bioassays and microbial biosensors
Hassan, Sedky H.A. (Autor:in) / Van Ginkel, Steven W. (Autor:in) / Hussein, Mohamed A.M. (Autor:in) / Abskharon, Romany (Autor:in) / Oh, Sang-Eun (Autor:in)
Environmental International ; 92-93 ; 106-118
05.03.2016
13 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
GC , gas chromatography , HPLC , high performance liquid chromatography, , AAS , atomic absorption spectroscopy. , LC , lethal concentration , ATP , adenosine triphosphate , EC<inf>50</inf> , the effective concentration , NOEC , no observed effect concentration , MFC , microbial fuel cell , BOD , biological oxygen demand , BTE , benzene, toluene, ethylbenzene , IDE , interdigitated electrode. , SOB , sulfur-oxidizing bacteria. , Ppb , part per pillion , HRT , hydraulic retention time , EC , electrical conductivity , EDC , endocrine disrupting compounds , <italic>Gfp</italic> , green fluorescent protein , <italic>PSI</italic>I , photosystem II , FMNH2 , flavin mononucleotide , RCHO , long-chain fatty aldehyde , BTEX , benzene, toluene, ethyl benzene, and xylene , Bioassay , Toxicity assessment , Microbial biosensors , Environmental pollution
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