Progress of Cryogenics and Isotopes Separation

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The National Conference with international participation on New Cryogenic and Isotope Technologies for Energy and Environment - EnergEn 2018 is organized by the National Research-Development Institute for Cryogenic and Isotopic Technologies - ICSI Rm. Valcea with the scientific participation of the University of Pitesti and the University of Craiova and will be held at Baile Govora, in 2018.

DISTRIBUTION OF HEAVY METALS IN WATER AND SEDIMENTS FROM LAKES OF THE OLT WATERSHED Print

 

DISTRIBUTION OF HEAVY METALS IN WATER AND SEDIMENTS FROM LAKES OF THE OLT WATERSHED

Claudia Sandru*, Mihaela Iordache, Andreea Maria Radulescu, Ramona Ionela Zgavarogea, Roxana Elena Ionete

 

National Research and Development Institute for Cryogenics and Isotopic Technologies – ICSI Rm. Valcea, 4 Uzinei Street, P.O. Box Râureni 7, 240050, Rm. Valcea, Romania

 


ABSTRACT

Knowledge on heavy metals accumulation level from surrounding sources around a watershed is of fundamental concern to mitigate the impact of anthropogenic activities on water ecosystems. Therefore, eight heavy metals with toxic potential and their accumulation in surface water and sediments, sampled in 22 lakes/dams along the Olt River (Romania), were investigated in this work. To compare the total content of metals at the sampling locations a metal pollution index (MPI) was calculated and the level of partitioning the metals between the surface water and sediments in the area was assessed using partition coefficients (Kd) between the metal pairs in both media. MPI in water varied from excellent quality at sampling point Dragasani Lake to very high degree of pollution at Govora Lake (situated in close proximity of a chemical platform), while in sediment was found from low degree of pollution at Arcesti Lake to extremely high degree of pollution at Ramnicu Valcea Lake. The higher values (log Kd >1) recorded for Cr, Cd, As, and Hg imply low solubility and greater retention of these metals on the sediment and the lower log Kd values recorded for Cu, Zn, Pb, Ni suggest lower affinity of organic sediments to adsorb metals. In sediment samples the “strong” correlations were found for the following pairs of metals: Cu-Zn (r=0.89), Ni-Zn (r=0.80), Cd-Zn (r=0.77), Ni-Cr (r=0.76), Ni-Cu (r=0.95), Cd-Cu (r=0.78), Cd-Ni (r=0.77) and Cd-Pb (r=0.96); in water samples the “strong” correlations were found for Ni-Cr (r=0.92), Pb-As (r=0.77), Ni-As (r=0.77) and Ni-Pb (r=0.76).

 

Keywords: sediment, surface water, heavy metals, metal pollution index.


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*Corresponding authors: Claudia Sandru, e-mail: This e-mail address is being protected from spambots. You need JavaScript enabled to view it , Phone: 0250 732 744