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    DETERMINATION OF MICROBIOLOGICAL QUALITY AND HEAVY METAL RESIDUAL LEVELS IN BOTTLED SPRING AND NATURAL MINE L WATERS
    (Parlar Scientific Publications (P S P), 2021) Akhan, Meryem; Akkaya, Esra; Ergun, Ozer; Hampikyan, Hamparsun; Colak, Hilal; Bingol, Enver Baris
    Water is a vital food material for humans and other living things to survive. Recent developments in various industrial sectors, urbanization and the spread of agriculture based on modern techniques have resulted in increased contamination of water with heavy metals and microbial agents. This study was conducted to investigate the concentrations of selected heavy metals in spring and natural mineral waters and to determine the microbiological qualities of them. For this purpose, 200 spring and 200 natural mineral waters were collected and analyzed microbilogically and chemically for the residual quantities of Pb, As, Hg, Cd, Cu using 1CP-MS technique. Pb, As and Cu concentrations were higher to the limit values of the regulations in 13 (6.5%) of spring and in 72 (36%) of natural mineral waters. Moreover, TVBC was found to be above the limit values in 33 (8.25%) of the analyzed samples, while any conforms, fecal coliforms or E.coli were detected. As a result, it's important to carry out routine microbiological screening of waters on the basis of welding, filling units and filling containers, continuously monitoring of heavy metals in water samples and to take preventive measures to prohibit environmental pollution by heavy metals' contamination in order to protect the public health.
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    Öğe
    Monitoring of Ochratoxin A Occurrence and Dietary Intake in Tarhana, a Fermented Cereal-Based Product
    (MDPI, 2025) Akkaya, Esra; Akhan, Meryem; Sancar, Burcu Cakmak; Hampikyan, Hamparsun; Engin, Ayse Seray; Cetin, Omer; Bingol, Enver Baris
    The aim of this study was to determine the mold and ochratoxin A (OTA) contamination of tarhana, a traditional product widely consumed in Turkish cuisine. For this purpose, a total of 350 tarhana samples (homemade and industrially produced) were randomly collected from retail stores, markets, and bazaars in different regions of T & uuml;rkiye and analyzed by means of LC-MS/MS for the occurrence of OTA. According to the results, OTA was detected in 36 of 150 (24%) industrially produced tarhana samples, with a concentration range of 0.12-2.34 mu g/kg, while 118 of 200 (59%) homemade tarhana samples contained OTA, with the range from 0.16 to 4.15 mu g/kg. Only 8 of 350 (4%) homemade tarhana samples were found to be above the maximum permissible limit (3.0 mu g/kg) for OTA. The mold contamination was found to be higher in homemade tarhana (3.756 log CFU/g) than in the industrially produced samples (2.742 log CFU/g). The estimated weekly intake values of OTA with tarhana consumption were well below the provisional tolerable weekly intake values for both industrially produced and homemade tarhana samples, even when consumed every day of the week, indicating that dietary intake of OTA through tarhana consumption does not pose a health risk. In conclusion, optimizing the fermentation and drying conditions applied during tarhana production and ensuring proper hygiene conditions can help to reduce the risk of OTA contamination. Moreover, monitoring and testing the OTA levels in tarhana on a regular basis can also ensure the food safety of this product.