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Evaluation of Physico-chemical Parameters of the Lumëbardhi of Deçani River and Radoniqi Lake, Kosova

Year 2016, Volume: 11 Issue: 4, 384 - 390, 30.12.2016

Abstract

Rivers and lakes are the most valuable natural
resources for human beings. Unfortunately despite of its importance, fresh
water resources are being polluted by disposable of sewerage, industrial
effluents, municipal waste, mining activity, agricultural activity and other
different types of waste into the river/lakes. The objective of this study was
to assess physico-chemical parameters of the Lumëbardhi of Deçani River as a
main water supplier of Radoniqi Lake during the year, 20015. The variations of
water quality parameters along the river courses (upper, middle and lower
course), between seasons and in lake were examined. The majority of the
parameters showed that there is significant variations of the water quality
parameters between the winter and summer seasons. However, the variations along
the river courses sampling site (upper, middle and lower course) were higher at
the middle sampling site in urban areas. This implies that the water quality is
influenced more by anthropogenic impacts in the middle course of the river. The
physicochemical parameters analyzed in Radoniqi Lake lie within the permissible
range and it is a good quality for drinking after treatment, irrigation and
fish culture purposes.

References

  • APHA, (2005) American Public Health Association. Standard Methods for the Examination of Water and Wastewater, 21st Ed. Washington, DC.
  • Brewer G, (2009) Risks of Copper and Iron Toxicity during Aging in Humans, Chem. Res. Toxicol, 2, 319-326.
  • Budget US, Verma AK, (1985) Limnological studies on J.N.U. Lake, New Delhi, India. Bull. Bot. Soc. Sugar, 32, 16-23.
  • Carr GM, Neary JP, (2006) Water Quality for Ecosystem and Human Health. United Nations Environment Program Global Environment Monitoring System/Water Program. Burlington, Ontario, Canada.
  • Chapman D, (1996) Water Quality Assessment-A guide to use of biota, sediments and water environmental monitoring 2nd Ed. EPFN Spon, London.
  • Colter & Mahler, (2006) Iron in Drinking Water. University of Idaho. A Pacific Northwest Extension.
  • El-Jabi N, Daniel C, Noyan T, (2014) Water Quality Index Assessment under Climate Change. J. of Water Resource and Protection, 6, 533-542.
  • EU's drinking water standards, Council Directive 98/83/EC on the quality of water intended for human consumption, Adopted by the Council, 3 Nov., 1998.
  • Garrels RM, Mackenzie FT, Hunt C, (1975) Chemical Cycle and the Global Environment, William Kaufman, New York.
  • Jackson RB, Carpenter SR, Dahm CN, McKnight DM, Naiman RJ, Postel SL, Running SW, (2001) Water in a Changing World, Issues in Ecology, The Ecological Society of America, Washington, 9, 1-16.
  • King JM, Scheepers ACT, Fisher RC, Reinecke MK, Smith LB, (2003) River Rehabilitation: Literature Review, Case studies and Emerging Principles. WRC Report No. 1161/1/03.
  • Piska RS, (2000) Concepts of Aquaculture, Lahari Publications, Hyderabad.
  • Solanki HA, (2012) Status of soils and water reservoirs near industrial areas of Baroda: pollution and soil - water chemistry. Lap Lambert Academic Publishing, Germany. Teng Z, Fujita K, Takizawa S, (2001) Manganese removal by hollow fiber micro-filter. Membrane separation for drinking water, Desalination, 139, 411-418.
  • Uduma AU, (2014) Physico-chemical analysis of the quality of sachet water consumed in Kano metropolis. Am. J. Environ., Energy & Power Res., 2, 1-10.
  • Vega M, Pardo R, Barrato E, Deban L, (1998) Assessment of seasonal and polluting effects on the quality of river water by exploratory data analysis. Water Research, 32, 3581-3592.
  • WHO (World Health Organization) 2008. Guidelines for drinking-water quality. V. 1, Recommendations 3rd Ed., incorporating first and second addenda, Geneva.
  • WHO (1997) Basic Environmental Health, World Health Organization Geneva.
Year 2016, Volume: 11 Issue: 4, 384 - 390, 30.12.2016

Abstract

References

  • APHA, (2005) American Public Health Association. Standard Methods for the Examination of Water and Wastewater, 21st Ed. Washington, DC.
  • Brewer G, (2009) Risks of Copper and Iron Toxicity during Aging in Humans, Chem. Res. Toxicol, 2, 319-326.
  • Budget US, Verma AK, (1985) Limnological studies on J.N.U. Lake, New Delhi, India. Bull. Bot. Soc. Sugar, 32, 16-23.
  • Carr GM, Neary JP, (2006) Water Quality for Ecosystem and Human Health. United Nations Environment Program Global Environment Monitoring System/Water Program. Burlington, Ontario, Canada.
  • Chapman D, (1996) Water Quality Assessment-A guide to use of biota, sediments and water environmental monitoring 2nd Ed. EPFN Spon, London.
  • Colter & Mahler, (2006) Iron in Drinking Water. University of Idaho. A Pacific Northwest Extension.
  • El-Jabi N, Daniel C, Noyan T, (2014) Water Quality Index Assessment under Climate Change. J. of Water Resource and Protection, 6, 533-542.
  • EU's drinking water standards, Council Directive 98/83/EC on the quality of water intended for human consumption, Adopted by the Council, 3 Nov., 1998.
  • Garrels RM, Mackenzie FT, Hunt C, (1975) Chemical Cycle and the Global Environment, William Kaufman, New York.
  • Jackson RB, Carpenter SR, Dahm CN, McKnight DM, Naiman RJ, Postel SL, Running SW, (2001) Water in a Changing World, Issues in Ecology, The Ecological Society of America, Washington, 9, 1-16.
  • King JM, Scheepers ACT, Fisher RC, Reinecke MK, Smith LB, (2003) River Rehabilitation: Literature Review, Case studies and Emerging Principles. WRC Report No. 1161/1/03.
  • Piska RS, (2000) Concepts of Aquaculture, Lahari Publications, Hyderabad.
  • Solanki HA, (2012) Status of soils and water reservoirs near industrial areas of Baroda: pollution and soil - water chemistry. Lap Lambert Academic Publishing, Germany. Teng Z, Fujita K, Takizawa S, (2001) Manganese removal by hollow fiber micro-filter. Membrane separation for drinking water, Desalination, 139, 411-418.
  • Uduma AU, (2014) Physico-chemical analysis of the quality of sachet water consumed in Kano metropolis. Am. J. Environ., Energy & Power Res., 2, 1-10.
  • Vega M, Pardo R, Barrato E, Deban L, (1998) Assessment of seasonal and polluting effects on the quality of river water by exploratory data analysis. Water Research, 32, 3581-3592.
  • WHO (World Health Organization) 2008. Guidelines for drinking-water quality. V. 1, Recommendations 3rd Ed., incorporating first and second addenda, Geneva.
  • WHO (1997) Basic Environmental Health, World Health Organization Geneva.
There are 17 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Nushe Lajçi

Blerim Baruti This is me

Florent Dobroshi This is me

Ali Sadiku This is me

Publication Date December 30, 2016
Acceptance Date December 19, 2016
Published in Issue Year 2016 Volume: 11 Issue: 4

Cite

APA Lajçi, N., Baruti, B., Dobroshi, F., Sadiku, A. (2016). Evaluation of Physico-chemical Parameters of the Lumëbardhi of Deçani River and Radoniqi Lake, Kosova. Journal of International Environmental Application and Science, 11(4), 384-390.
AMA Lajçi N, Baruti B, Dobroshi F, Sadiku A. Evaluation of Physico-chemical Parameters of the Lumëbardhi of Deçani River and Radoniqi Lake, Kosova. J. Int. Environmental Application & Science. December 2016;11(4):384-390.
Chicago Lajçi, Nushe, Blerim Baruti, Florent Dobroshi, and Ali Sadiku. “Evaluation of Physico-Chemical Parameters of the Lumëbardhi of Deçani River and Radoniqi Lake, Kosova”. Journal of International Environmental Application and Science 11, no. 4 (December 2016): 384-90.
EndNote Lajçi N, Baruti B, Dobroshi F, Sadiku A (December 1, 2016) Evaluation of Physico-chemical Parameters of the Lumëbardhi of Deçani River and Radoniqi Lake, Kosova. Journal of International Environmental Application and Science 11 4 384–390.
IEEE N. Lajçi, B. Baruti, F. Dobroshi, and A. Sadiku, “Evaluation of Physico-chemical Parameters of the Lumëbardhi of Deçani River and Radoniqi Lake, Kosova”, J. Int. Environmental Application & Science, vol. 11, no. 4, pp. 384–390, 2016.
ISNAD Lajçi, Nushe et al. “Evaluation of Physico-Chemical Parameters of the Lumëbardhi of Deçani River and Radoniqi Lake, Kosova”. Journal of International Environmental Application and Science 11/4 (December 2016), 384-390.
JAMA Lajçi N, Baruti B, Dobroshi F, Sadiku A. Evaluation of Physico-chemical Parameters of the Lumëbardhi of Deçani River and Radoniqi Lake, Kosova. J. Int. Environmental Application & Science. 2016;11:384–390.
MLA Lajçi, Nushe et al. “Evaluation of Physico-Chemical Parameters of the Lumëbardhi of Deçani River and Radoniqi Lake, Kosova”. Journal of International Environmental Application and Science, vol. 11, no. 4, 2016, pp. 384-90.
Vancouver Lajçi N, Baruti B, Dobroshi F, Sadiku A. Evaluation of Physico-chemical Parameters of the Lumëbardhi of Deçani River and Radoniqi Lake, Kosova. J. Int. Environmental Application & Science. 2016;11(4):384-90.

“Journal of International Environmental Application and Science”