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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Chronic Impact Of Cerium Oxide Nanoparticles On Solanum Lycopersicum L. And Brassica Rapa L.

Wang, Qiang 01 August 2014 (has links)
Cerium Oxide Nanoparticles (CeO2-NPs) are commonly used in polishing, engine enhancement agents and many other commercial products. Increased applications and accidental release have raised concerns on the potential impact of CeO2-NPs on the environment. Most previous studies focused on the short term effect of CeO2-NPs. Information is severely lacking on the long-term impact of CeO2-NPs at environmentally relevant concentrations. The main goal of the current dissertation was to investigate the chronic phytotoxicity of CeO2-NPs on two plant species, tomato (Solanum lycopersicum L.) and Turnip mustard (Brassica rapa L.) fast growing variety, and the physiological and biochemical responses of these two plant species to CeO2-NPs. Four specific objectives were established. The first objective was to investigate the effects of combined CeO2-NPs and TiO2-NPs exposure on tomato plant growth and oxidative stress. The second objective was to investigate the impact of a lifecycle exposure to CeO2-NPs on wild type tomato growth and fruit yield and to evaluate the transgenerational effects of CeO2-NPs exposure on plant growth and the oxidative stress of the second generation tomato seedlings. The third objective was to compare the influence of CeO2-NPs and bulk CeO2 particles on plant growth and oxidative stress of standard fast growing Brassica rapa. The final objective was to evaluate the risks of CeO2-NPs exposure over three generations on Brassica plant growth, oxidative stress and reproduction. The results suggested that firstly, CeO2-NPs pre-exposure at concentrations of 4 and 40 mg/kg dry soil followed by 1000 mg/L of TiO2-NPs post-treatment increased H2O2 content and antioxidant proteins activities compared with CeO2-NPs alone and TiO2-NPs alone, and reduced biomass of the tomato plants compared with CeO2-NPs alone. Secondly, irrigation of CeO2-NPs at concentrations up to 10 mg/L stimulated wild type tomato plant growth, but exposure to CeO2-NPs over a lifecycle harmed plant growth and induced higher H2O2 content in tomato seedlings of the second generation. Thirdly, bulk CeO2 exposure at irrigation concentrations of 10, and 100 mg/L were more beneficial for Brassica rapa plant growth than CeO2-NPs at equivalent concentrations. CeO2-NPs irrigation at 10 and 100 mg/L increased H2O2 content and antioxidant proteins activities than bulk CeO2 at equivalent concentrations. However, the mustard plants treated by CeO2-NPs or bulk CeO2 showed changes of H2O2 content in different growth stages, which illustrated that CeO2-NPs and the bulk counterpart induced the change of H2O2 content differently. Finally, irrigating mustard plants with 10 to 1000 mg/L CeO2-NPs over three generations resulted in an inhibited plant growth, stronger oxidative stress, less seed yield and poorer reproduction of offspring plants. To our knowledge, this is the first report on the chronic (multigenerational) effects of CeO2-NPs on plant growth and oxidative stress of tomato and mustard plants grown in soil.
2

Cohabitation in Multigenerational Workplaces : Leader-Follower Relationships between Millennials and Baby Boomers

Herzig, Anne, Treffler, Jessica January 2018 (has links)
Due to a demographic change in today’s society, it often occurs that people from different generations cohabitate in workplaces with each other. Due to this change, we observe a re-orientation of society and its beliefs and values, which affects not only organizations themselves, but also the work relationship between younger and older generations and explicitly the relationship between a leader and a follower. Generational diversity evolves, which can have a positive but also a negative impact on the workforce in organizations. The aim of this master thesis is to give an insight of how generations experience their leader-follower relationships in multigenerational workplaces, on the example of Millennials and Baby Boomers. For this purpose, a tendency to an inductive research approach was chosen. Firstly, a theoretical background is comprised, which includes a description of generations as well as leader-follower relationships. Secondly, a qualitative empirical study was pursued, with interview participants of the Millennial as well as Baby Boomer generation, in either leading or following positions. Based on the empirical data, nine areas of experience were discovered. These include open communication connected with honesty, work climate, mindset towards change, learning from each other, appreciating each other, respect, trust, intensity of relationship and preconceptions. The experiences of Millennials and Baby Boomers in leading as well as following positions can be categorised in these areas. The findings shall serve as a contribution for leaders as well as followers who cohabitate with each other in multigenerational workplaces. The study provides an insight of what Millennials and Baby Boomers value and expect in their workplace today, with the help of which a positive work climate can be ensured.
3

Efeito do hormônio sintético 17α-etinilestradiol no invertebrado aquático Daphnia magna (Crustacea, Cladocera) / The effect of the synthetic hormone 17α-ethinyl estradiol on the aquatic invertebrate Daphnia magna (Crustacea, Cladocera)

Miguel, Mariana 12 February 2016 (has links)
Muitas substâncias descartadas no meio ambiente não são totalmente degradadas, podendo assim persistir no ambiente. Diversos compostos são continuamente introduzidos no ambiente podendo afetar a biota e inclusive o homem. Os fármacos são alguns desses compostos que depois de descartados podem chegar nos corpos de águas naturais, e dentre eles merecem especial atenção os hormônios sintéticos utilizados em larga escala por mulheres em todo o mundo, na forma de contraceptivos orais. O hormônio sintético 17α-etinilestradiol é um micropoluente no ambiente aquático, que pode causar distúrbios na reprodução de diversos organismos atuando como um desregulador endócrino. O presente estudo teve como objetivo principal analisar o efeito do hormônio sintético 17α-etinilestradiol sobre o cladócero Daphnia magna, por meio de testes ecotoxicológicos. Testes de toxicidade crônica foram realizados em duas gerações consecutivas deste microcrustáceo (F0 e F1). Para os testes utilizaram-se neonatas com menos de 24 horas de idade, 6 concentrações do hormônio e dois controles. Foram estabelecidas 10 réplicas com 1 indivíduo por réplica. O ensaio foi realizado em incubadora com temperatura de 25 ± 1°C e fotoperíodo de 12h claro:12h escuro, com duração de 11 (F0) e 13 dias (F1), com término coincidindo com o nascimento das neonatas da terceira ninhada no controle. Os resultados evidenciaram que a exposição ao hormônio diminuiu a fecundidade de Daphnia magna nas quatro maiores concentrações de etinilestradiol na F0 e na concentração de 1000 μg L-1 da F1, revelando maior resistência ao contaminante na segunda geração. Na maior concentração do composto, o tempo para a produção das duas primeiras ninhadas foi maior na geração F1, quando comparada ao controle. Na concentração de 250 μg L-1 verificou-se a ocorrência de um indivíduo intersexo, apresentando tanto características de macho como de fêmea. Os resultados deste estudo evidenciaram que o 17α-etinilestradiol afeta a reprodução de Daphnia magna, e que também pode afetar a reprodução de diferentes invertebrados aquáticos, o que, a longo prazo pode causar danos às populações e comunidades aquáticas, diminuindo as populações e podendo até extingui-las eventualmente. / Many substances are discarded in the environment and not completely degraded, thus persisting in the environment. Some of these are continuously introduced in the environment, affecting the biota, including man. Pharmaceutical drugs are some of these compounds that after discarded can occur in natural water bodies and among them the synthetic hormones deserve special attention for being used in large scale by women world widely, as oral contraceptives. The synthetic hormone 17α-ethinyl estradiol is therefore a micropoluent in the aquatic environment, i. e. found in low concentrations that can cause deleterious effects in the reproduction of many organisms, acting as an endocrine disruptor. The present study had as main objective to analyze the effect of the synthetic estrogen 17α-ethinyl estradiol on the cladoceran Daphnia magna, by carrying out ecotoxicological tests. Chronic toxicity tests were performed on two consecutive generations of this microcrustacean (F0 and F1). In order to perform the tests, neonates aged less than 24 hours, 6 hormones concentrations and two types of controls were used. Ten replicates were established with one individual each. The test was performed in a growth chamber at the constant temperature of 25 ± 1°C and 12 h light:12 h dark photoperiod, had the duration of 11 and 13 days for the F1 and F0 generations, respectively, coinciding with the birth of the third brood in the control. The results evidenced that the exposition to the hormone decreased D. magna fecundity in the four highest of ethinyl estradiol in F0, and in the concentration 1000 μg L-1 for the F1, indicating resistance increase in the second generation. In the highest concentration of this compound the time for the production of the first two broods were higher in the F1 generation as compared with the controls. In the hormone concentration of 250 μg L-1 the occurrence of an intersex individual was verified, simultaneously presenting characteristics of male and female. The results of this study evidenced the 17α-ethinyl estradiol affect the reproduction of Daphnia magna, and can affect the reproduction of other aquatic invertebrates that at long term can cause damages to aquatic populations and communities by diminishing populations and eventually leading them to the extinction.
4

Investigating the biological impacts of nanoengineered materials in Caenorhabditis elegans and in vitro

Contreras, Elizabeth 05 June 2013 (has links)
In nematode Caenorhabditis elegans, the chronic and multi-generational toxicological effects of commercially relevant engineered nanoparticles (ENPs), such as quantum dots (QDs) and silver (AgNP) caused significant changes in a number of physiological endpoints. The increased water-solubility of ENPs in commercial products, for example, makes them increasingly bioavailable to terrestrial organisms exposed to pollution and waste in the soil. Since 2008, attention to the toxicology of nanomaterials in C. elegans continues to grow. Quantitative data on multiple physiological endpoints paired with metal analysis show the uptake of QDs and AgNPs, and their effects on nematode fitness. First, C. elegans were exposed for four generations through feeding to amphiphilic polymer coated CdSe/ZnS (core-shell QDs), CdSe (core QDs), and different sizes of AgNPs. These ENPs were readily ingested. QDs were qualitatively imaged in the digestive tract using a fluorescence microscopy and their and AgNP uptake quantitatively measured using ICP-MS. Each generation was analyzed for changes in lifespan, reproduction, growth and motility using an automated computer vision system. Core-shell QDs had little impact on C. elegans due to its metal shell coating. In contrast, core QDs lacked a metal shell coating, which caused significant changes to nematode physiology. In the same way, at high concentrations of 100 ppm, AgNP caused the most adverse effect to lifespan and reproduction related to particle size, but its adverse effect to motility had no correlation to particle size. Using C. elegans as an animal model allowed for a better understanding of the negative impacts of ENPs than with cytotoxicity tests. Lastly, to test the toxicity of water-dispersed fullerene (nanoC60) using human dermal fibroblast cells, this thesis investigated a suite of assays and methods in order to establish a standard set of cytotoxicity tests. Ten assays and methods assessed nanoC60 samples of different purities to show differences in cytotoxic effects. Washed samples of fullerenes, with negligible traces of THF and other impurities, rendered the solution nontoxic. Even when exposed to UV-irradiation, washed nanoC60 were not photosensitized and did not cause cellular death. This work characterizes ENPs and investigates their impact in C. elegans and cells to assess toxicity risks to the environment and to human health.
5

Efeito do hormônio sintético 17α-etinilestradiol no invertebrado aquático Daphnia magna (Crustacea, Cladocera) / The effect of the synthetic hormone 17α-ethinyl estradiol on the aquatic invertebrate Daphnia magna (Crustacea, Cladocera)

Mariana Miguel 12 February 2016 (has links)
Muitas substâncias descartadas no meio ambiente não são totalmente degradadas, podendo assim persistir no ambiente. Diversos compostos são continuamente introduzidos no ambiente podendo afetar a biota e inclusive o homem. Os fármacos são alguns desses compostos que depois de descartados podem chegar nos corpos de águas naturais, e dentre eles merecem especial atenção os hormônios sintéticos utilizados em larga escala por mulheres em todo o mundo, na forma de contraceptivos orais. O hormônio sintético 17α-etinilestradiol é um micropoluente no ambiente aquático, que pode causar distúrbios na reprodução de diversos organismos atuando como um desregulador endócrino. O presente estudo teve como objetivo principal analisar o efeito do hormônio sintético 17α-etinilestradiol sobre o cladócero Daphnia magna, por meio de testes ecotoxicológicos. Testes de toxicidade crônica foram realizados em duas gerações consecutivas deste microcrustáceo (F0 e F1). Para os testes utilizaram-se neonatas com menos de 24 horas de idade, 6 concentrações do hormônio e dois controles. Foram estabelecidas 10 réplicas com 1 indivíduo por réplica. O ensaio foi realizado em incubadora com temperatura de 25 ± 1°C e fotoperíodo de 12h claro:12h escuro, com duração de 11 (F0) e 13 dias (F1), com término coincidindo com o nascimento das neonatas da terceira ninhada no controle. Os resultados evidenciaram que a exposição ao hormônio diminuiu a fecundidade de Daphnia magna nas quatro maiores concentrações de etinilestradiol na F0 e na concentração de 1000 μg L-1 da F1, revelando maior resistência ao contaminante na segunda geração. Na maior concentração do composto, o tempo para a produção das duas primeiras ninhadas foi maior na geração F1, quando comparada ao controle. Na concentração de 250 μg L-1 verificou-se a ocorrência de um indivíduo intersexo, apresentando tanto características de macho como de fêmea. Os resultados deste estudo evidenciaram que o 17α-etinilestradiol afeta a reprodução de Daphnia magna, e que também pode afetar a reprodução de diferentes invertebrados aquáticos, o que, a longo prazo pode causar danos às populações e comunidades aquáticas, diminuindo as populações e podendo até extingui-las eventualmente. / Many substances are discarded in the environment and not completely degraded, thus persisting in the environment. Some of these are continuously introduced in the environment, affecting the biota, including man. Pharmaceutical drugs are some of these compounds that after discarded can occur in natural water bodies and among them the synthetic hormones deserve special attention for being used in large scale by women world widely, as oral contraceptives. The synthetic hormone 17α-ethinyl estradiol is therefore a micropoluent in the aquatic environment, i. e. found in low concentrations that can cause deleterious effects in the reproduction of many organisms, acting as an endocrine disruptor. The present study had as main objective to analyze the effect of the synthetic estrogen 17α-ethinyl estradiol on the cladoceran Daphnia magna, by carrying out ecotoxicological tests. Chronic toxicity tests were performed on two consecutive generations of this microcrustacean (F0 and F1). In order to perform the tests, neonates aged less than 24 hours, 6 hormones concentrations and two types of controls were used. Ten replicates were established with one individual each. The test was performed in a growth chamber at the constant temperature of 25 ± 1°C and 12 h light:12 h dark photoperiod, had the duration of 11 and 13 days for the F1 and F0 generations, respectively, coinciding with the birth of the third brood in the control. The results evidenced that the exposition to the hormone decreased D. magna fecundity in the four highest of ethinyl estradiol in F0, and in the concentration 1000 μg L-1 for the F1, indicating resistance increase in the second generation. In the highest concentration of this compound the time for the production of the first two broods were higher in the F1 generation as compared with the controls. In the hormone concentration of 250 μg L-1 the occurrence of an intersex individual was verified, simultaneously presenting characteristics of male and female. The results of this study evidenced the 17α-ethinyl estradiol affect the reproduction of Daphnia magna, and can affect the reproduction of other aquatic invertebrates that at long term can cause damages to aquatic populations and communities by diminishing populations and eventually leading them to the extinction.
6

Syntaktick analza zaloen na multigenerovn­ / Parsing Based on Multigeneration

Kleiner, Milo January 2010 (has links)
Multygeneratic system is based on cooperation action of infinity count of context-free grammars. All this context free-grammars parallel and synchronous derivate individual sentential form. During generation came in each specific derivation step to checking of correction of each generated sentential forms. This checking can be made by different ways. Solution is then so-called multistring (vector of strings), so by the help of this is defined generated language.

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