BIOACCUMULATOR CHARACTERISTICS FOR Pb-Zn OF PRUNUS ARMENIACA L. PLANT (YEŞİLYURT-GÖRGÜ), TURKEY

Öz

Biogeochemical studies have been carried out on Prunus armeniaca L. plant grown in and around Pb-Zn deposits in Gorgu village and on the soil samples grown on this plant. Chemical analyzes of plant and soil samples taken in the study area were carried out in the ACME analytical laboratory in Canada by ICP-MS method. The average Pb concentration of branch, leaf, fruit and soil of Prunus Armeniaca L. (P. Armeniaca) plant was (mg/kg), respectively; 15.1, 13.7, 3.5 and 1495.5, and Zn concentration, respectively (mg/kg); 29, 44.3, 36.4 and 1831.7. The average BAC (Bioaccumulation Coefficient) values calculated for the Pb element of the P. Armeniaca plant were BAC (branch/soil):0.01, BAC (leaf/soil):0.01 and BAC (fruit/soil):0.004 and the average BAC values calculated for the Zn element, BAC (branch/soil):0.04, BAC (leaf/soil):0.05 and BAC (fruit/soil):0.07. For this reason,    this plant is a medium accumulator plant in the locations determined for Cu, Mo and Zn elements.

Anahtar Kelimeler

• Accumulator Plant,BAC (Bioaccumulation Coefficient) Prunus armeniaca L,Pb-Zn,Yeşilyurt-Görgü

Kaynakça

1. 1. Adriano, D.C., Wenzel, W.W., Vangronsveld, J., and Bolan, N.S., (2004). Role of Assisted Natural Remediation in Environmental Cleanup, Geoderma. J., Vol. 122, no. 2-4, 121–142.
2. 2. Raicevic, S., Kaludjerovic-Radoicic, T., and Zouboulis, A.I., (2005). In Situ Stabilization of Toxic Metals in Polluted Soils Using Phosphates: Theoretical Prediction and Experimental Verification, J. Hazard, Mat. J., vol. 117, no. 1, pp, 41–53.
3. 3. Cheraghi, M., Lorestani, B., Khorasani, N., Yousefi, N., and Karami, M., (2011). Findings on the Phytoextraction and Phytostabilization of Soils Contaminated with Heavy Metals, Biol. Trace Elem. Res. 144:1133-1141.
4. 4. Nazır, R., Khan, M., Masab, M., Rehman, H.U., Rauf, N.U., Shahab, S., Ameer, N., Sajed, M., Ullah, M., Rafeeq, M., and Shaheen, Z., (2015). Accumulation of Heavy Metals (Ni, Cu, Cd, Cr, Pb, Zn, Fe) in the Soil, Water and Plants and Analysis of Physico-chemical Parameters of Soil and Water Collected from Tanda Dam Kohat, J. Pharm. Sci. & Res. Vol. 7(3), 89-97.
5. 5. Hall, J., (2002). Cellular Mechanisms for Heavy Metal Detoxification and Tolerance, J. Exp. Bot., 53, 1-11.
6. 6. Mehes-Smith, M., Nkongolo, K., and Cholewa, E., (2013). Coping Mechanisms of Plants to Metal Contaminated Soil, Environmental Change and Sustainability. http://dx.doi.org/10.5772/55124.
7. 7. Akın, E.V., Karabulut, I., and Topçu, A., (2008). Some Compositional Properties of Main Malatya Apricot (Prunus armeniaca L.) varieties, Food Chemistry, 107, 939-948.
8. 8. https://en.wikipedia.org/wiki/Apricot.

9. 9. http://tr.wikipedia.org/wiki/ Kayısı.
10. 10. Ozgul, N., (1976). Some Geological Aspects of the Taunts Orogenic Belt, Bulletin of the Geological Society of Turkey, v. 19, 65 – 78.
11. 11. Onal, M., Tuzcu, N. and Helvacı, C., 1990, Geological Setting, Mineralogy an Origin of the Cafana (Malatya) Zn-Pb Sulfide and Carbonate Deposit, E Anatolia, Turkey, in: Int. Earth Sci. Congress on Aegean Regions, Proceedings, ed: M.Y. Savasçın and A.H. Eronat, Izmir, D.E. University, v. 1, 52-58.
12. 12. Cengiz, R., Yılmaz, H., and Türkyılmaz, B., (1991). In the Near Malatya–Yeşilyurt–Cafana (Görgü) Interim Report License Areas Number ÖİR:671 and ÖİR:1714 Belonging Çinkur. Mineral Research & Exploration General Directorate, Ankara.
13. 13. Sagiroglu, A., (1988). Cafana (Gorgu) Malatya Carbonated Pb–Zn Deposit. C.Ü. Faculty of Engineering Journal, Series A Geosciences, C. 5(1), 3-13.
14. 14. Ceyhan, N., (2003). Lead Isotope Geochemistry of Pb-Zn Deposits from Eastern Taurides, Turkey. Middle East Technical University, Msc Thesis, pp., 105.
15. 15. Reichman, S.M., Asher, C.J., Mulligan, D.R., and Menzies, N.W., (2001). Seedling Responses of Three Australian Tree Species to Toxic Concentrations of Zinc in Solution Culture, Plant and Soil, 235, 151-158.
16. 16. Ernst, WHO., (1974). Schwermetallvegetation der Erde. Gustav Fischer, Stuttgart.
17. 17. Ernst, WHO., (1982). Schwermetallpflanzen. In: Kinzel H (ed) Pflanzen€okologie und Mineral-Stoffwechsel. Ulmer, Stuttgart, 472–506.
18. 18. Bothe, H., (2011). Plants in Heavy Metal Soils. Chapter 2, 35-57.
19. 19. Hassan, Z., Anwar, Z. Khattak, K.U., Islam, M., Khan, R.U., Khattak, J.Z.K.; et al., (2002). Civic Pollution and Its Effect on Water Quality of River Toi at District Kohat, NWFP, Research Journal of Environmental and Earth Sciences, Volume: 4, p.5.