Investigating the Long-Term Annual and Seasonal Changes in River Quality (Case Study: Aleshtar River)

Sabzevari, Yaser; Heidari Motlgh, Aryan; Nasrolahi, Aliheidar

doi:10.22034/jewe.2019.179360.1315

Document Type : Research Paper

Authors

¹ M.Sc. Student, Water Engineering Department, Faculty of Agriculture, Lorestan University, Khorramabad, Iran

² Assist.Professor, Water Engineering Department, Faculty of Agriculture, Lorestan University, Khorramabad, Iran

https://doi.org/10.22034/jewe.2019.179360.1315

Abstract

The expansion of urbanization along with industrial and agricultural activities on the banks of the Alshar River and subsequent discharge of wastewater into water sources have caused water contamination by various pollutants. In this study, seasonal and annual changes in the long-term water quality changes in the Alshar River were evaluated. For this purpose, water quality data used were recorded at the Sarab Sayyed Ali hydrometric station located at the outlet of the Alshar River from 1970 to 2018. For analysis, 11 water quality variables were selected. Man-Kendall test was used to examine the trend of changes. The results showed that the patterns were similar for changes in parameters at both annual and seasonal scales, with decreasing concentrations of HCO₃, Na, pH and SAR and increasing concentrations of Mg, Ca, TH, TDS, EC, Cl, and SO₄. In the annual period, the trend of change of all qualitative parameters except Na was statistically significant at 99% level. During the summer seasons, there were more intense upward and slower downward trends, with the strongest increase in concentration during this season. However, in the winter, the results were in contrary with the summer. In most of the qualitative parameters, the decreasing and increasing trends were higher in spring than in autumn. The reason for this could be attributed to the fact that winter snow melting from the altitudes occurs in the spring, causing increased surface currents and a relative decrease in concentrations.

Keywords

References

Adeli B., Mohammadi Kongrani H., Sa'doddin A., Bazrafshan A. and Armin M. (2018). Qualitative and quantitative evaluation of groundwater aquifers using the WQI method and the Man-Kendall test (case study: Sarkhoon-Hormozgan province). Ecohydro. 5(3), 801-811 [In Persian].

Alizadeh A. (2009). Drip irrigation (principles and application). Second edition, Astan Quds Razavi Publishing House, Imam Reza University. 493 p. [In Persian].

Anderson H. B., Futter M., Oliver I., Redshaw J. and Harper A. (2010). Trends in Scottish river water quality. Scottish Environment Protection Agency. 178 p.

Behmanesh J., Samadi R. And Rezaei H. (2016). Investigating the process of underground leveling (A case study: Urmia Plain). J. Water Soil Conserv. Studies, 22(4), 67-84 [In Persian].

Boyacioglu H. and Boyacioglu H. (2008). Investigation of temporal trends in hydro chemical quality of surface water in western Turkey. Bull. Environ. Contam. Toxicol., 80, 469–474.

Deilam M. and Rouhani H. (2012). Trend of drought stress and water quality changes in Gorgan Rood River. Proc. 2012, 7^ed Int. Conf. on Engineering and Land Management Watershed Management. University of Isfahan Techno. 2012 [In Persian].

Dinpazhoh Y. (2016). Analyzing the chemical quality of water in the rivers of East Azarbaijan Province. J. Geog. Plan., 20(55), 124-105 [In Persian].

Hejam S., Skhoshkho Y. and Shams Al-Din Vrindi R. (2008). Analyzing the trend of seasonal and annual rainfall variations of several selected stations in the center of Iran using non-parametric methods. Geog. Res., 40(64), 168-157 [in Persian].

Kauffman G. J. and Belden A. C. (2010). Water quality trends (1970 to 2005) along Delaware streams in the Delaware and Chesapeake Bay watersheds, USA. Water Air Soil Pollut., 208, 345–375.

Khalili A. S. and Bazrafshan C. (2004). An analysis of the changes in annual, seasonal, and monthly rainings in five Iranian old stations in the past one seventeen and sixteen years, Desert, 9(1), 25-25 [In Persian].

Mei K., Liao L., Zhu Y., Lu P., Wang Z., Dahlgren R. A. and Zhang M. (2014). Evaluation of spatial-temporal variations and trends in surface water quality across a rural-suburban-urban interface. Envoiron. Sci. Pollut. Res., 21(13), 8036-8045.

Milovanovic M. (2007). Water quality assessment and determination of pollution sources along the Axios/Vardar River, Southeastern Europe. Desal., 213(1-3), 159-173.

Nazarian S. and FaridGiglo B. (2015). Chemical quality survey and trends of water quality parameters at nodeh station of Gorganroud River, Golestan Province of Iran. J. Irrig. Water Eng., 5(19), 81-91 [In Persian].

Nouri R., Kerachian R., Khodadadi Darban A. and Shakibaei Nia A. (2007). Assessment of importance of water quality monitoring stations using principal components analysis and factor analysis: a case study of the Karoon River. Water Wastewater, 18(3) 60-9 [In Persian].

Pasquini A. I., Lecomte K. L., Piovano E. L. and Depetris, P. J. (2006). Recent rainfall and runoff variability in central Argentina. Quat. Inter. 158(1), 127-139.

Rahbari K., Nabavi M. and Mobed P. (2006). Investigating different biological evaluation methods and biodiversity in water quality and calculating the variability indices of the Karun River bedding from Malasani to Darkhuin. Proc. 2066, 7^ed Int. Conf. on River Engineering, Shahid Chamran University of Ahvaz, 12 pages. [In Persian].

Shrestha S. and Kazama F. (2007). Assessment of surface water quality using multivariate statistical techniques: A case study of the Fuji river basin, Japan. Environ. Model. Software, 22(4), 464-475.

Soleimani Sardou M., Vali A. H., Gazavif R. and Saeedi G. (2012). Analyzing the process of water quality parameters. Case study of Chamanjir River, Khorramabad. Irrig. Water Eng., 12, 95-12 [In Persian].

Yue S., Pilon P. and Cavadias G. (2002). Power of the Mann-Kendall and Spearman's rho tests for detecting monotonic trends in hydrological series. J. Hydrol., 259, 254-271.

Zare Garazi A., Saad al-Din S. and Mahini A. S. (2011). Long term study of water quality variables in Chehel Chay River (Golestan Province). Iran. J. Water Res., 6(10), 155-165 [In Persian].

Environment and Water Engineering

Investigating the Long-Term Annual and Seasonal Changes in River Quality (Case Study: Aleshtar River)

References

References

Volume 5, Issue 4
December 2019
Pages 292-303

Investigating the Long-Term Annual and Seasonal Changes in River Quality (Case Study: Aleshtar River)

References

References

Volume 5, Issue 4December 2019Pages 292-303

Volume 5, Issue 4
December 2019
Pages 292-303