Master Degree / Yüksek Lisans Tezleri
Permanent URI for this collectionhttps://hdl.handle.net/11147/3008
Browse
2 results
Search Results
Master Thesis Microbial Mapping in Air and Surface Samples Collected From Schools(Izmir Institute of Technology, 2022) Alkan, Kutlu Şafak; Ökten, Hatice Eser; Sezgin, EfeIndoor environmental quality has gained attention in the past decades due to the increased periods of time spent enclosed in buildings. Parameters such as ventilation, water damage, type of paints used, use of carpets, etc. affect the indoor air quality significantly. With the rising concern regarding outbreaks and pandemic, it is important to investigate the microbial load and consortium structure in schools. This thesis aims at determining the microbial loads in three selected schools in the Balçova District of İzmir, Türkiye. Two sampling campaigns were conducted, one in the winter break (February 2022) and one in the spring semester (May 2022). Surface swab samples and settle-plate air samples were collected from pre-defined spots at schools. Surface swab samples and settle-plate air samples were examined via both classical microbial culture methods and modern DNA analysis methods. Via classical microbial culture methods, culture comparison from the database, fungi cultures were dedicated up to genus level. Via modern DNA analysis method, Sanger sequencing, bacterial cultures were dedicated up to genus level too. All the results indicated that three schools were hosting possibly dangerous genera of both fungi and bacteria. But, this also showed that genus-level discrimination is still not enough to utter exact indoor air quality from the perspective of indoor microbiota to the identification of possible health risks for occupants. For further studies, microbial mapping should discriminate up to species level to demonstrate exact indoor air quality and indoor microbiota vie high throughput sequencing methods.Master Thesis Effects of Oxygenation in Stratified Reservoirs on Concetrations of Manganese and Iron in Bottom Sediments(Izmir Institute of Technology, 2019) Vural Aydın, Buse; Elçi, Şebnem; Ökten, Hatice EserIron and manganese accumulation in drinking water reservoirs is a challenging issue and should be controlled in order to prevent their adverse effects on human health. Accumulation of these elements not only clogs pipeline systems but also causes stains on fixtures and laundry. In addition, high concentrations of iron and manganese may lead to various health problems when ingested. This study focuses on the release mechanism of iron and manganese from sediments to water column and investigates methods to prevent this release. Effects of lack of hypolimnetic aeration, acid-base condition and thermal stratification on iron and manganese concentrations at water column were investigated through laboratory experiments. Experiments showed that total iron (Fe) and ferrous iron (Fe2+) concentrations in the water column decreased gradually following aeration in hypoxia conditions. A similar behavior was also observed for manganese concentrations. However, the concentration of dissolved manganese (Mn) in alkaline water condition is observed to be less than the aerated water case. This is an indication that iron and manganese react differently under different acidity of water in consideration.