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EVALUATION OF TRACE METAL CONTENTS IN MUSHROOM SAMPLES FROM AZDAVAY DISTRICT, KASTAMONU, TURKEY

Year 2022, , 76 - 80, 28.06.2022
https://doi.org/10.22531/muglajsci.1115724

Abstract

Mushrooms are a popular food because they are an important source of essential amino acids, proteins and dietary fibers, but they have a great capacity to accumulate metals from substrate. Due to this reason, the content of 5 trace metals (Fe, Cr, Zn, Pb, Se) of fruit bodies of 21 fungi species originally found in Azdavay, Kastamonu Region, Turkey were analyzed by atomic absorption spectroscopy. The contents of investigated trace metals in mushroom samples were found to be in the range of 4.6–3478.7 mg kg-1 for Fe, 5.1–19.9 mg kg-1 for Cr, 10.4–138.6 mg kg-1 for Zn, 5.8–28.0 mg kg-1 for Pb and 0.65–1.47 mg kg-1 for Se. The relative standard deviations (R.S.D.) were found below 10%. The accuracy of procedure was confirmed by CRMs (BCR 191 Brown bread, ERM-BD 151 Skimmed milk powder).

Thanks

The authors wish to thank Mugla Sitki Kocman University. The authors would like to thank to Dr. Ilgaz AKATA.

References

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  • El-Kady, A. A. and Abdel-Wahhab, M. A., “Occurrence of trace metals in foodstuffs and their health impact”, Trends in food science & technology, 75, 36-45, 2018.
  • Sevindik, M., ‘‘Mushrooms as natural antiviral sources and supplements foods against coronavirus (COVID-19)’’, Journal of Oral Microbiology, Open Access, 9, 73-76, 2021.
  • Baba, H., Sevindik, M., Dogan, M. and Akgul, H. “Antioxidant, antimicrobial activities and heavy metal contents of some Myxomycetes”, Fresenius Environmental Bulletin, 29, 09, 7840-7846, 2020.
  • Sevindik, M. and Akata, I. “Antioxidant, oxidant potentials and element content of edible wild mushroom Helvella leucopus”, Indian Journal of Natural Products and Resources, 10, 4, 266-271, 2020.
  • Manzi, P., Aguzzi, A. and Pizzoferrato, L., “Nutritional value of mushrooms widely consumed in Italy”, Food Chemistry, 73, 321-325, 2001.
  • Siwulski, M., Rzymski, P., Budka, A., Kalač, P., Budzyńska, S., Dawidowicz, L. and Niedzielski, P., “The effect of different substrates on the growth of six cultivated mushroom species and composition of macro and trace elements in their fruiting bodies”, European Food Research and Technology, 245,2, 419-431, 2019
  • Phillips, R. “Mushrooms: A comprehensive guide to mushroom identification”, Pan Macmillan, 2013.
  • Yilmaz, I., Akata, I., Bakirci, S. and Kaya, E. “Lepiota cristata does not contain amatoxins or phallotoxins”, Toxin Reviews, 37,2, 149-153, 2018.
  • Arora, D. “Mushrooms Demystified”, Ten Speed Press, 959 p., Berkeley, CA, 1986.
  • Breitenbach, J. and Kränzlin, F. “Fungi of Switzerland”, Vol: 3, Boletes and Agarics 1. Part, Verlag Mykologia CH-6000 Luzern 9, 361 p., Switzerland, 1991.
  • Kränzlin, F. “Fungi of Switzerland” Volume 6, Russulaceae 2. Verlag Mykologia, 319 p., Switzerland, 2005.
  • Zhang, W., Bau, T., Ohga, S., and Ozaki, Y. “Biological Characteristics and Cultivation of the Wild Edible Mushroom Pleurotus dryinus”, Journal of the Faculty of Agriculture, Kyushu University, 65, 1, 35-44, 2020.
  • Sarikurkcu, C., Yildiz, D., Akata, I., and Tepe, B.,“ Evaluation of the metal concentrations of wild mushroom species with their health risk assessments”, Environmental Science and Pollution Research, 28, 17, 21437-21454, 2021.
  • Kokkoris, V., Massas, I., Polemis, E., Koutrotsios, G., and Zervakis, G. I. “Accumulation of heavy metals by wild edible mushrooms with respect to soil substrates in the Athens metropolitan area (Greece)”, Science of The Total Environment, 685, 280-296, 2019.
  • Zheng, M., Tan, H., Xie, Z., Zhang, L., Jing, X. and Sun, Z., “Fast response and high sensitivity europium metal organic framework fluorescent probe with chelating terpyridine sites for Fe3+”ACS Applied Materials & Interfaces, 5, 3, 1078-1083, 2013.
  • Sarikurkcu, C., Akata, I., Guven, G., and Tepe, B. (2020). “Metal concentration and health risk assessment of wild mushrooms collected from the Black Sea region of Turkey”, Environmental Science and Pollution Research, 27, 21, 26419-26441. 2020.
  • Murati, E., Hristovski, S., Melovski, L., & Karadelev, M. (2015). Heavy metals content in Amanita pantherina in a vicinity of the thermo-electric power plant Oslomej, Republic of Macedonia. Fresenius Environmental Bulletin, 24(5), 1981-1984.
  • Turkekul, I., Elmastas, M. and Tüzen, M., “Determination of iron, copper, manganese, zinc, lead, and cadmium in mushroom samples from Tokat, Turkey”, Food Chemistry, 84, 3, 389-392, 2004.
  • Soylak, M., Saraçoğlu, S., Tüzen, M. and Mendil, D., “Determination of trace metals in mushroom samples from Kayseri, Turkey”, Food Chemistry, 92,4, 649-652, 2005.
  • Gençcelep, H., Uzun, Y., Tunçtürk, Y. and Demirel, K., “Determination of mineral contents of wild-grown edible mushrooms”, Food Chemistry, 113(4), 1033-1036, 2009.
  • Sarikurkcu, C., Sarikurkcu, R. T., Akata, I., & Tepe, B. (2020). Metal concentration and health risk assessment of fifteen wild mushrooms collected from the Ankara University Campus (Turkey). Environmental Science and Pollution Research, 27(26), 32474-32480.
  • Gupta, U. C. and Gupta, S. C., “Trace element toxicity relationships to crop production and livestock and human health: implications for management” Communications in Soil Science and Plant Analysis, 29, 11-14, 1491-1522, 1998.
  • Çayır, A., Coşkun, M. and Coşkun, M., “The heavy metal content of wild edible mushroom samples collected in Canakkale Province, Turkey”. Biological Trace Element Research, 134(2), 212-219, 2010.
  • Sarikurkcu, C., Copur, M., Yildiz, D. and Akata, I. "Metal concentration of wild edible mushrooms in Soguksu National Park in Turkey", Food Chemistry, 128, 3, 731-734, 2011.
  • Vetter, J., “Chromium and nickel contents of some common edible mushroom species”, Acta Alimentaria, 26, 2, 163-170, 1997.
  • Garcia, M. A., J. Alonso, and M. J. Melgar. "Bioconcentration of chromium in edible mushrooms: Influence of environmental and genetic factors", Food and Chemical Toxicology, 58, 249-254, 2013.
  • Alloway, B. J., “Soil factors associated with zinc deficiency in crops and humans. Environmental geochemistry and health” 31, 5, 537-548, 2009.
  • Admasu, D., Reddy, D. N. and Mekonnen, K. N., “Trace determination of zinc in soil and vegetable samples by spectrophotometry using pyridoxal thiosemicarbazone and 2-acetyl pyridine thiosemicarbazone”, Cogent Chemistry, 2(1), 1249602, 2016.
  • Kalač, P. and Svoboda, L. "A review of trace element concentrations in edible mushrooms", Food Chemistry, 69(3), 273-281, 2000.
  • Radulescu, C., Stihi, C., Busuioc, G., Gheboianu, A. I. and Popescu, I. V., “Studies concerning heavy metals bioaccumulation of wild edible mushrooms from industrial area by using spectrometric techniques”, Bulletin of Environmental Contamination and Toxicology, 84(5), 641-646, 2010.
  • Sesli, E. and Tüzen, M., “Levels of trace elements in the fruiting bodies of macrofungi growing in the East Black Sea region of Turkey”, Food Chemistry, 65, 4, 453-460, 1999.
  • Kalac, P., Svoboda, L. and Havlickova, B. "Contents of detrimental metals mercury, cadmium and lead in wild growing edible mushrooms: a review", Energy Education Science and Technology, 13, 31-38, 2004.
  • Avery, J. C. and Hoffmann, P. R. “Selenium, selenoproteins, and immunity. Nutrients” 10, 9, 1203, 2018.
  • Lu, Z., Wang, P., Teng, T., Shi, B., Shan, A., and Lei, X. G. “Effects of dietary selenium deficiency or excess on selenoprotein gene expression in the spleen tissue of pigs” Animals, 9, 12, 1122, 2019.
  • Atasoy, M. and Kula, İ., “Speciation and determination of inorganic selenium species in certain fish and food samples by gold-coated W-coil atom trap hydride generation atomic absorption spectrometry”, Food Chemistry, 369, 130938. 2022.
  • Atasoy, M., Yildiz, D., and Kula, İ. “Determination and speciation of selenium in water samples collected from Muğla (Turkey) province by hydride generation atomic absorption spectrometry”, Journal of the Indian Chemical Society, 100511, 2022.
  • Falandysz, J. “Selenium in edible mushrooms”, Journal of Environmental Science and Health Part C, 26(3), 256-299, 2008.
  • Costa-Silva, F., Marques, G., Matos, C. C., Barros, A. I. and Nunes, F. M., “Selenium contents of Portuguese commercial and wild edible mushrooms”. Food Chemistry, 126, 1, 91-96, 2011.
Year 2022, , 76 - 80, 28.06.2022
https://doi.org/10.22531/muglajsci.1115724

Abstract

References

  • Sevindik, M., “Antioxidant and Oxidant Potantials and Element Contents of Chroogomphus rutilus (Agaricomycetes)’’, Mantar Dergisi, 12, 1, 29-32, 2021.
  • El-Kady, A. A. and Abdel-Wahhab, M. A., “Occurrence of trace metals in foodstuffs and their health impact”, Trends in food science & technology, 75, 36-45, 2018.
  • Sevindik, M., ‘‘Mushrooms as natural antiviral sources and supplements foods against coronavirus (COVID-19)’’, Journal of Oral Microbiology, Open Access, 9, 73-76, 2021.
  • Baba, H., Sevindik, M., Dogan, M. and Akgul, H. “Antioxidant, antimicrobial activities and heavy metal contents of some Myxomycetes”, Fresenius Environmental Bulletin, 29, 09, 7840-7846, 2020.
  • Sevindik, M. and Akata, I. “Antioxidant, oxidant potentials and element content of edible wild mushroom Helvella leucopus”, Indian Journal of Natural Products and Resources, 10, 4, 266-271, 2020.
  • Manzi, P., Aguzzi, A. and Pizzoferrato, L., “Nutritional value of mushrooms widely consumed in Italy”, Food Chemistry, 73, 321-325, 2001.
  • Siwulski, M., Rzymski, P., Budka, A., Kalač, P., Budzyńska, S., Dawidowicz, L. and Niedzielski, P., “The effect of different substrates on the growth of six cultivated mushroom species and composition of macro and trace elements in their fruiting bodies”, European Food Research and Technology, 245,2, 419-431, 2019
  • Phillips, R. “Mushrooms: A comprehensive guide to mushroom identification”, Pan Macmillan, 2013.
  • Yilmaz, I., Akata, I., Bakirci, S. and Kaya, E. “Lepiota cristata does not contain amatoxins or phallotoxins”, Toxin Reviews, 37,2, 149-153, 2018.
  • Arora, D. “Mushrooms Demystified”, Ten Speed Press, 959 p., Berkeley, CA, 1986.
  • Breitenbach, J. and Kränzlin, F. “Fungi of Switzerland”, Vol: 3, Boletes and Agarics 1. Part, Verlag Mykologia CH-6000 Luzern 9, 361 p., Switzerland, 1991.
  • Kränzlin, F. “Fungi of Switzerland” Volume 6, Russulaceae 2. Verlag Mykologia, 319 p., Switzerland, 2005.
  • Zhang, W., Bau, T., Ohga, S., and Ozaki, Y. “Biological Characteristics and Cultivation of the Wild Edible Mushroom Pleurotus dryinus”, Journal of the Faculty of Agriculture, Kyushu University, 65, 1, 35-44, 2020.
  • Sarikurkcu, C., Yildiz, D., Akata, I., and Tepe, B.,“ Evaluation of the metal concentrations of wild mushroom species with their health risk assessments”, Environmental Science and Pollution Research, 28, 17, 21437-21454, 2021.
  • Kokkoris, V., Massas, I., Polemis, E., Koutrotsios, G., and Zervakis, G. I. “Accumulation of heavy metals by wild edible mushrooms with respect to soil substrates in the Athens metropolitan area (Greece)”, Science of The Total Environment, 685, 280-296, 2019.
  • Zheng, M., Tan, H., Xie, Z., Zhang, L., Jing, X. and Sun, Z., “Fast response and high sensitivity europium metal organic framework fluorescent probe with chelating terpyridine sites for Fe3+”ACS Applied Materials & Interfaces, 5, 3, 1078-1083, 2013.
  • Sarikurkcu, C., Akata, I., Guven, G., and Tepe, B. (2020). “Metal concentration and health risk assessment of wild mushrooms collected from the Black Sea region of Turkey”, Environmental Science and Pollution Research, 27, 21, 26419-26441. 2020.
  • Murati, E., Hristovski, S., Melovski, L., & Karadelev, M. (2015). Heavy metals content in Amanita pantherina in a vicinity of the thermo-electric power plant Oslomej, Republic of Macedonia. Fresenius Environmental Bulletin, 24(5), 1981-1984.
  • Turkekul, I., Elmastas, M. and Tüzen, M., “Determination of iron, copper, manganese, zinc, lead, and cadmium in mushroom samples from Tokat, Turkey”, Food Chemistry, 84, 3, 389-392, 2004.
  • Soylak, M., Saraçoğlu, S., Tüzen, M. and Mendil, D., “Determination of trace metals in mushroom samples from Kayseri, Turkey”, Food Chemistry, 92,4, 649-652, 2005.
  • Gençcelep, H., Uzun, Y., Tunçtürk, Y. and Demirel, K., “Determination of mineral contents of wild-grown edible mushrooms”, Food Chemistry, 113(4), 1033-1036, 2009.
  • Sarikurkcu, C., Sarikurkcu, R. T., Akata, I., & Tepe, B. (2020). Metal concentration and health risk assessment of fifteen wild mushrooms collected from the Ankara University Campus (Turkey). Environmental Science and Pollution Research, 27(26), 32474-32480.
  • Gupta, U. C. and Gupta, S. C., “Trace element toxicity relationships to crop production and livestock and human health: implications for management” Communications in Soil Science and Plant Analysis, 29, 11-14, 1491-1522, 1998.
  • Çayır, A., Coşkun, M. and Coşkun, M., “The heavy metal content of wild edible mushroom samples collected in Canakkale Province, Turkey”. Biological Trace Element Research, 134(2), 212-219, 2010.
  • Sarikurkcu, C., Copur, M., Yildiz, D. and Akata, I. "Metal concentration of wild edible mushrooms in Soguksu National Park in Turkey", Food Chemistry, 128, 3, 731-734, 2011.
  • Vetter, J., “Chromium and nickel contents of some common edible mushroom species”, Acta Alimentaria, 26, 2, 163-170, 1997.
  • Garcia, M. A., J. Alonso, and M. J. Melgar. "Bioconcentration of chromium in edible mushrooms: Influence of environmental and genetic factors", Food and Chemical Toxicology, 58, 249-254, 2013.
  • Alloway, B. J., “Soil factors associated with zinc deficiency in crops and humans. Environmental geochemistry and health” 31, 5, 537-548, 2009.
  • Admasu, D., Reddy, D. N. and Mekonnen, K. N., “Trace determination of zinc in soil and vegetable samples by spectrophotometry using pyridoxal thiosemicarbazone and 2-acetyl pyridine thiosemicarbazone”, Cogent Chemistry, 2(1), 1249602, 2016.
  • Kalač, P. and Svoboda, L. "A review of trace element concentrations in edible mushrooms", Food Chemistry, 69(3), 273-281, 2000.
  • Radulescu, C., Stihi, C., Busuioc, G., Gheboianu, A. I. and Popescu, I. V., “Studies concerning heavy metals bioaccumulation of wild edible mushrooms from industrial area by using spectrometric techniques”, Bulletin of Environmental Contamination and Toxicology, 84(5), 641-646, 2010.
  • Sesli, E. and Tüzen, M., “Levels of trace elements in the fruiting bodies of macrofungi growing in the East Black Sea region of Turkey”, Food Chemistry, 65, 4, 453-460, 1999.
  • Kalac, P., Svoboda, L. and Havlickova, B. "Contents of detrimental metals mercury, cadmium and lead in wild growing edible mushrooms: a review", Energy Education Science and Technology, 13, 31-38, 2004.
  • Avery, J. C. and Hoffmann, P. R. “Selenium, selenoproteins, and immunity. Nutrients” 10, 9, 1203, 2018.
  • Lu, Z., Wang, P., Teng, T., Shi, B., Shan, A., and Lei, X. G. “Effects of dietary selenium deficiency or excess on selenoprotein gene expression in the spleen tissue of pigs” Animals, 9, 12, 1122, 2019.
  • Atasoy, M. and Kula, İ., “Speciation and determination of inorganic selenium species in certain fish and food samples by gold-coated W-coil atom trap hydride generation atomic absorption spectrometry”, Food Chemistry, 369, 130938. 2022.
  • Atasoy, M., Yildiz, D., and Kula, İ. “Determination and speciation of selenium in water samples collected from Muğla (Turkey) province by hydride generation atomic absorption spectrometry”, Journal of the Indian Chemical Society, 100511, 2022.
  • Falandysz, J. “Selenium in edible mushrooms”, Journal of Environmental Science and Health Part C, 26(3), 256-299, 2008.
  • Costa-Silva, F., Marques, G., Matos, C. C., Barros, A. I. and Nunes, F. M., “Selenium contents of Portuguese commercial and wild edible mushrooms”. Food Chemistry, 126, 1, 91-96, 2011.
There are 39 citations in total.

Details

Primary Language English
Journal Section Journals
Authors

Muhammet Atasoy This is me 0000-0003-4312-1876

Dilek Yıldız 0000-0003-3341-8107

Publication Date June 28, 2022
Published in Issue Year 2022

Cite

APA Atasoy, M., & Yıldız, D. (2022). EVALUATION OF TRACE METAL CONTENTS IN MUSHROOM SAMPLES FROM AZDAVAY DISTRICT, KASTAMONU, TURKEY. Mugla Journal of Science and Technology, 8(1), 76-80. https://doi.org/10.22531/muglajsci.1115724
AMA Atasoy M, Yıldız D. EVALUATION OF TRACE METAL CONTENTS IN MUSHROOM SAMPLES FROM AZDAVAY DISTRICT, KASTAMONU, TURKEY. MJST. June 2022;8(1):76-80. doi:10.22531/muglajsci.1115724
Chicago Atasoy, Muhammet, and Dilek Yıldız. “EVALUATION OF TRACE METAL CONTENTS IN MUSHROOM SAMPLES FROM AZDAVAY DISTRICT, KASTAMONU, TURKEY”. Mugla Journal of Science and Technology 8, no. 1 (June 2022): 76-80. https://doi.org/10.22531/muglajsci.1115724.
EndNote Atasoy M, Yıldız D (June 1, 2022) EVALUATION OF TRACE METAL CONTENTS IN MUSHROOM SAMPLES FROM AZDAVAY DISTRICT, KASTAMONU, TURKEY. Mugla Journal of Science and Technology 8 1 76–80.
IEEE M. Atasoy and D. Yıldız, “EVALUATION OF TRACE METAL CONTENTS IN MUSHROOM SAMPLES FROM AZDAVAY DISTRICT, KASTAMONU, TURKEY”, MJST, vol. 8, no. 1, pp. 76–80, 2022, doi: 10.22531/muglajsci.1115724.
ISNAD Atasoy, Muhammet - Yıldız, Dilek. “EVALUATION OF TRACE METAL CONTENTS IN MUSHROOM SAMPLES FROM AZDAVAY DISTRICT, KASTAMONU, TURKEY”. Mugla Journal of Science and Technology 8/1 (June 2022), 76-80. https://doi.org/10.22531/muglajsci.1115724.
JAMA Atasoy M, Yıldız D. EVALUATION OF TRACE METAL CONTENTS IN MUSHROOM SAMPLES FROM AZDAVAY DISTRICT, KASTAMONU, TURKEY. MJST. 2022;8:76–80.
MLA Atasoy, Muhammet and Dilek Yıldız. “EVALUATION OF TRACE METAL CONTENTS IN MUSHROOM SAMPLES FROM AZDAVAY DISTRICT, KASTAMONU, TURKEY”. Mugla Journal of Science and Technology, vol. 8, no. 1, 2022, pp. 76-80, doi:10.22531/muglajsci.1115724.
Vancouver Atasoy M, Yıldız D. EVALUATION OF TRACE METAL CONTENTS IN MUSHROOM SAMPLES FROM AZDAVAY DISTRICT, KASTAMONU, TURKEY. MJST. 2022;8(1):76-80.

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