Browsing by Author "Czinnerová Marie"
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- ItemBiodegradation of High Concentration of Aliphatic Hydrocarbons in Soil from a Petroleum Refinery: Implications for Applicability of New Actinobacterial Strains(2018-01-01) Hrabák Pavel; Czinnerová Marie; Ševců Alena; Kakosová Eva
- ItemDynamics of organohalide-respiring bacteria and their genes following in-situ chemical oxidation of chlorinated ethenes and biostimulation(2016-01-01) Dolinová Iva; Czinnerová Marie; Dvořák Lukáš; Stejskal Vojtěch; Ševců Alena; Černík Miroslav
- ItemEffects of various chemical oxidation agents on soil microbial communities(ELSEVIER SCIENCE SA, 2017-01-01) Hrabák Pavel; Černík Miroslav; Novotný Vít; Czinnerová Marie
- ItemIn situ pilot application of nZVI embedded in activated carbon for remediation of chlorinated ethene-contaminated groundwater: effect on microbial communities.(Springer Open, 2020-01-01) Czinnerová Marie; Nguyen Nhung Anh Huynh; Němeček Jan; Mackenzie Katrin; Boothman Christopher; Lloyd Jonathan; Laszlo Tamas; Špánek Roman; Černík Miroslav; Ševců Alena
- ItemINFLUENCE OF CHEMICAL OXIDATION AGENTS ON SOIL MICROBIAL COMMUNITIES AND ALIPHATIC HYDROCARBONS REMOVAL FROM HEAVILY CONTAMINATED SOIL(Vodní zdroje Ekomonitor. spol. s.r.o., 2015-01-01) Kakosová Eva; Hrabák Pavel; Czinnerová Marie; Novotný Vít; Černík Miroslav; Trögl Josef; Popelka Jan; Kuráň Pavel; Filuzstková Eva; Matějíčková Tereza; Zoubková Lenka; Vrtoch Luboš
- ItemNanofibre Biomass Carriers as a Valuable Tool for Analysis of Microbial Community At Polluted Locality(Institute of Chemical Technology, 2014-01-01) Dolinová Iva; Czinnerová Marie; Ševců Alena; Lederer Tomáš
- ItemRemediation of Chlorinated Ethenes Using Reactive Iron Barrier and Its Impact on Indigenous Bacteria(International ASET Inc, 2014-01-01) Czinnerová Marie; Ševců Alena; Dolinová Iva; Votrubová MartinaChlorinated ethenes are among the most often detected organic contaminants ingroundwater. Under anaerobic conditions, tetrachloroethene (PCE) and trichloroethene (TCE) can be degraded by the sequence of reductive dechlorination steps through the intermediate products cis-dichloroethene (cis-DCE) and vinyl chloride (VC) to ethene. This process is driven either by specific microorganisms or by reductive agents, such as nano or microscale zero-valent iron particles (nZVI or mZVI). Apermeable reactive barrierwas prepared by applying a mixture of nZVI and mZVI to the series of wells downstream fromthe source of the contamination. Polymerase chain reaction (PCR) and real-time PCR analysis of microbial composition of groundwater upstream and downstream of the barrier revealed strong influence of iron-driven dechlorination on the recovery of microbial colonization of groundwater including bacteria capable of degrading chlorinated ethenes.
- ItemTowards combined abiotic/biological decontamination technologies: Effect of various chemical oxidations on the soil microbial communities(Moskva, 2015-01-01) Kakosová Eva; Czinnerová Marie; Hrabák Pavel; Černík Miroslav; Trögl Josef; Popelka Jan; Kuráň Pavel; Filuzstková Eva; Matějíčková Tereza; Břečková Alice