Browsing by Author "Ghoma W.E.O., Sevik H., Isinkaralar K."

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    Comparison of the rate of certain trace metals accumulation in indoor plants for smoking and non-smoking areas.
    (2023-05-25T00:00:00Z) Ghoma, Wasem Esmael Omer, Sevik, Hakan, Isinkaralar, Kaan; Ghoma, WEO, Sevik, H, Isinkaralar, K
    Tobacco smoke causes to release severe toxic metals into the environment. It is recognized as the most significant issue in indoor air quality. Pollution and toxic substances in smoke quickly spread and penetrate the indoor environment. Environmental tobacco smoke is responsible for lowering indoor air quality. There is much evidence that poor air quality occurs with inadequate ventilation conditions in indoor environments. The plants have been observed to absorb the smoke in the environment into their own body like a sponge. The plant species in this study can be used easily in almost every office, home, or other indoor areas. Using indoor plants is very beneficial in biomonitoring and absorbing these trace metals. Some indoor plants have shown successful performance as biomonitors for health-damaging pollutants. The study aims to determine the concentration of three trace metals (Cu, Co, and Ni) using five indoor ornamentals frequently used in smoking areas, namely D. amoena, D. marginata, F. elastica, S. wallisii, and Y. massengena. The Ni uptake and its accumulation in S. wallisii, and Y. massengena increased in correlation with smoke areas. However, the rate of accumulation of Co and Cu was found to be independent due to consideration of the environmental emissions. Consequently, our results suggest that F. elastica is more resistant to smoking, whereas S. wallisii would be a better choice as a biomonitoring plant of tobacco smoke.
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    Publication
    Using indoor plants as biomonitors for detection of toxic metals by tobacco smoke
    (2022-03-01) Ghoma W.E.O., Sevik H., Isinkaralar K.; Ghoma, WEO, Sevik, H, Isinkaralar, K
    Clean air is an indispensable resource for modern world. Many people are indifferent to the seriousness of air pollution or have only recently realized the problem. The air pollution continues deteriorating with several emissions every year on global scale. Beside various sources, tobacco smoke has caused the indoor air pollution. One of the most important of these factors is smoking. Especially indoor air pollution occurs depending on tobacco use. Exposure to cigarette smoke is recognized as the most significant health problem in indoor air. The study aims to evaluate the toxic metal accumulation due to tobacco smoke indoors by using some indoor ornamental plants. In this study, Dieffenbachia amoena, Dracena marginata, Ficus elastica, Spathiphyllum wallisii, and Yucca massengena were used houseplants as biomonitors. Accumulation of some toxic metals can be easily seen in indoor plants. Cadmium (Cd), chrome (Cr), and lead (Pb) were selected that high emissions from tobacco smoke. They were determined by taking the leaves of the plant species and analyzed with inductively coupled plasma-optical emission spectrometry (ICP-OES). The Cd, Cr, and Pb concentrations (Pb > Cr > Cd) were higher with tobacco than non-tobacco in all species. The results showed that Spathiphyllum wallisii was selected to be most suitable as biomonitor.