Browsing by Author "Pinar B."

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    Changes in PB, CR and CU concentrations in some bioindicators depending on traffic density on the basis of species and organs
    (2019-01-01) Sevik H.; Cetin M.; Ozturk A.; Ozel H.B.; Pinar B.
    The growing population and industrialization is causing air pollution. In some cities pollution has reached to a point where it is threatening human lives. Pollution has become one of the biggest issues of today’s world. Pollutants are produced by exhaust gases, car wheels, and vehicles. Heavy metals (HM) are one of the major culprits that cause air pollution. This is due to the fact that HM can exist in the environment for a long time without deterioration, and their concentration in the atmosphere is ever-growing. They also tend to bioaccumulate. Therefore, determining HM concentration levels is crucial in terms of identifying risk zones and levels. Bioindicators are the most important determinants that can indicate the change in the concentration of HM in the atmosphere. This study aims to monitor the changes in Pb, Cr and Cu concentrations in the leaves, seeds and branches of cherry plum (Prunus ceracifera), horse chestnut (Aesculus hippocastanum), Tilia (Tilia tomentosa), European ash (Fraxinus excelsior) and Norway maple (Acer platanoides) species, which can be used for monitoring the traffic-induced HM concentration. We observed that the concentration of all the elements increased according to the traffic density, this is especially visible in the case of Pb and Cr.
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    Determining toxic metal concentration changes in landscaping plants based on some factors
    (2019-08-15) Sevik H.; Cetin M.; Ozel H.; Pinar B.
    Toxic metals are one of the most culpable air pollutants. They do not dissolve naturally. Rather, they tend to be bioaccumulative, and some of them have toxic or carcinogenic effects even at low measures. Therefore, the ability to measure and monitor toxic metal concentrations in the air is vital in fighting pollution. To achieve this, bioindicators are widely used due to their efficiency and global availability. Bioindicators are plants that accumulate some of the toxic metals found in the soil or air. This study aims to determine the differences in toxic metal concentrations depending on plant species, plant organelles, and traffic density in certain landscaping plants grown in Kastamonu town center. The results showed that the elements subjected to the study varied significantly between the different species. The highest accumulation values of such metals were obtained in cherry plum (Prunus cerasifera), and the lowest values of all metals were found in the European ash (Fraxinus excelsior). Based on our observations in this study, we determined that the most suitable species used as biomonitor is the cherry plum (Prunus cerasifera). We noticed that the concentrations of the metals differed significantly according to the species. The biggest difference recorded was five times more in Ni metal concentration. The concentrations of the studied elements were also varied depending on organelles and on traffic density, which will be discussed in detail in this paper.