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Study of the use of crops for phytoremediation of contaminated soil by pharmaceuticals
Hamplová, Marie ; Zlámalová Gargošová, Helena (referee) ; Mravcová, Ludmila (advisor)
Pharmaceuticals leaking into the environment from wastewater and livestock farms raise concerns about the impact on the ecosystem and human health. Residues of pharmaceuticals present in soil are subject to a number of biotic and abiotic processes, including uptake, translocation and accumulation by plants. The ability of plants to accumulate or degrade pharmaceuticals could have potential applications in the process of 'phytoremediation', where plants and their associated micro-organisms are used to stabilise, degrade or remove contaminants from the environment. In the framework of this thesis, experiments on phytoremediation of drug-contaminated soil by the cover crop oilseed radish (Raphanus sativus L. var. Oleiformis) under controlled conditions were conducted. Soil samples were extracted by ultrasonic extraction, plant samples by QuEChERS method and the final analysis of drugs was performed by UPLC-MS/MS. Oilseed radish produced a large amount of aboveground biomass compared to the other two crops and the presence of drugs had no negative effect on its growth. However, the determined levels of each drug in the soil and in the crop showed insufficient effectiveness of phytoremediation. The accumulation of drugs by the crop was low except for residues of the antidepressant venlafaxine. Therefore, according to these results, oilseed radish is not a suitable crop for phytoremediation of drug-contaminated soil. Experiments were also carried out with the root vegetable radish (Raphanus sativus L. var. Sativus) and carrot (Daucus carota L.) to assess the risk to human health associated with the accumulation of drugs in vegetable roots. The risk has not been demonstrated in terms of the amount of established drugs in the roots. Only the metabolite clofibric acid accumulated to a higher extent and the antibiotic trimethoprim was the most translocated to the aerial parts of the crop. The rate of uptake and translocation of drugs by the plant depended on many factors, as their content varied considerably between drug groups and between parts and types of crops.
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Study of the medium influence on the pollutants sorption on microplastics
Hamplová, Marie ; Kučerík, Jiří (referee) ; Mravcová, Ludmila (advisor)
With the increasing production of plastic waste, the pollution of the environment by persistent microplastics is increasing simultaneously. Other environmental pollutants, such as various pharmaceuticals, can be sorbed on microplastics. This increases the toxicity of microplastics and their risk to living organisms. Nowadays, the use of so-called biodegradable polymers, which are supposed to degrade spontaneously, is expanding. However, their degradation can also produce microplastics. Therefore, this bachelor thesis deals with the sorption of drugs onto microplastics from biodegradable polyhydroxybutyrate (PHB) and with the influence of the surrounding aqueous environment on the rate and mechanism of sorption. Sorption of drugs onto microplastics made of synthetic polyethylene terephthalate (PET) was also carried out for comparison. The quantity of drugs was analysed by UPLC-ESI-TQ. Sorption was observed from the drug mixture for antibiotics tetracyclines. The pH value of the surrounding environment influenced the sorption rate of tetracyclines, the highest sorption occurred at acidic pH 4. According to the results of evaluation of sorption by Langmuir and Freundlich adsorption isotherms, PHB microplastics have a higher sorption capacity than PET microplastics. Therefore, PHB microplastics could be a risk for living organisms.
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Study of the medium influence on the pollutants sorption on microplastics
Hamplová, Marie ; Kučerík, Jiří (referee) ; Mravcová, Ludmila (advisor)
With the increasing production of plastic waste, the pollution of the environment by persistent microplastics is increasing simultaneously. Other environmental pollutants, such as various pharmaceuticals, can be sorbed on microplastics. This increases the toxicity of microplastics and their risk to living organisms. Nowadays, the use of so-called biodegradable polymers, which are supposed to degrade spontaneously, is expanding. However, their degradation can also produce microplastics. Therefore, this bachelor thesis deals with the sorption of drugs onto microplastics from biodegradable polyhydroxybutyrate (PHB) and with the influence of the surrounding aqueous environment on the rate and mechanism of sorption. Sorption of drugs onto microplastics made of synthetic polyethylene terephthalate (PET) was also carried out for comparison. The quantity of drugs was analysed by UPLC-ESI-TQ. Sorption was observed from the drug mixture for antibiotics tetracyclines. The pH value of the surrounding environment influenced the sorption rate of tetracyclines, the highest sorption occurred at acidic pH 4. According to the results of evaluation of sorption by Langmuir and Freundlich adsorption isotherms, PHB microplastics have a higher sorption capacity than PET microplastics. Therefore, PHB microplastics could be a risk for living organisms.
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Electrical properties of nanoscale heterojunctions formed between GaN and ZnO nanorods
Tiagulskyi, Stanislav ; Yatskiv, Roman ; Grym, Jan ; Schenk, Antonín ; Roesel, David ; Vaniš, Jan ; Hamplová, Marie
Vertical periodic arrays of ZnO nanorods are prepared by hydrothermal growth on GaN templates patterned by focused ion beam. Electro-physical properties of a single vertically-oriented ZnO nanorod are investigated by measuring the current-voltage characteristics using a nanoprobe in a scanning electron microscope. This technique enables to observe the surface morphology of ZnO nanorods simultaneously with their electrical characterization in vacuum. The vacuum chamber rejects the impact of gas adsorption and light irradiation, which both affect the properties of ZnO nanorods. Moreover, mechanical damage and strain induced during the nanorod transfer are eliminated. Nonlinear current-voltage characteristics under the forward bias are explained by the tunneling-recombination process and by the space charge limited current. The high reverse bias current in the p-n heterojunction is attributed to direct tunneling via a narrow tunnel barrier
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Culture and Modification of Human Body: Female Genital Mutilation in Kurdistan
Hamplová, Marie ; Soukup, Martin (advisor) ; Soukup, Václav (referee)
The subject of the work is a theoretical and empirical analysis and interpretation of female circumcision. This distinct phenomenon is systematically analyzed with particular regard to the cultural area of Kurdistan. The work is divided into five separate chapters, and is partly based on the results of two field studies which the author carried out in Kurdistan. The aim is to contribute to the exploration of the issue of female circumcision with particular reference to Kurdistan. Keywords: Circumcision, FGM, Culture, Religion, Ritual
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