Research Article Open Access

Chemical and Statistical Analyses of Elements in River Water of Morava e Binces

Fatbardh Gashi1, Naser Troni1, Fatmir Faiku1, Fisnik Laha1, Arben Haziri1, Ilir Kastrati1, Etrit Beshtica1 and Mehdi Behrami1
  • 1 University of Pristina, Kosovo

Abstract

The objective of this research was assessment of environmental toxic elements downstream the river of Morava e Binces (Kosovo) and this study is a continuation of earlier studies of surface waters in our country. The sampling and analysis are conducted in accordance with EU and WHO standards. This study uses both quantitative and qualitative analysis to assess the water quality in several points along river. The concentration of major and minor elements was determined by Inductively Coupled Plasma Mass Spectroscopy (ICP-MS). The concentration of toxic elements which we received from surface waters are compared with the results received for the source where anthropogenic effects aren’t present (the part of river in the source). The study firstly shows that Morava e Binces River is considerably polluted. Results obtained by the box plot method showed the regions with determined anomalous element concentration values in water River of Morava e Binces. This study strongly recommends the immediate correction of these issues to protect the health of population from water borne diseases.

American Journal of Environmental Sciences
Volume 9 No. 2, 2013, 142-155

DOI: https://doi.org/10.3844/ajessp.2013.142.155

Submitted On: 31 May 2012 Published On: 8 April 2013

How to Cite: Gashi, F., Troni, N., Faiku, F., Laha, F., Haziri, A., Kastrati, I., Beshtica, E. & Behrami, M. (2013). Chemical and Statistical Analyses of Elements in River Water of Morava e Binces. American Journal of Environmental Sciences, 9(2), 142-155. https://doi.org/10.3844/ajessp.2013.142.155

  • 4,726 Views
  • 3,961 Downloads
  • 4 Citations

Download

Keywords

  • Chemical and Statistical Analyses
  • Morava e Binces
  • River Water
  • Anomalies
  • Pollution Assessment
  • ICP/MS