Physiochemical Investigation of River Kabul at Michini, Khyber Pakhtunkhwa, Pakistan

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Research Paper 01/09/2015
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Physiochemical Investigation of River Kabul at Michini, Khyber Pakhtunkhwa, Pakistan

Muhammad Rauf, Naeem-Ud-Din, Sana Ullah, Abdul Haseeb, Hussain Shah, Faiz ur Rehman, Mushtaq Khan
J. Bio. Env. Sci.7( 3), 280-291, September 2015.
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Abstract

The present study was conducted on River Kabul at Michini, Khyber Pakhtunkhwa, Pakistan from 25th June to 15th October 2011 in order to assess its water quality by studying its Physico-Chemical parameters. The studied physical and chemical parameters were falling in different ranges during the study period. The mean values for temperature (°C), pH, electrical conductivity (µS/cm), turbidity (NTU), total suspended solids (mg/l), total dissolved solids (mg/l), total solids (mg/l) and river depth (meters) were 18.44±2.46, 8.17±0.673, 212.62±47.299, 509.53±322.037, 1255.07±742.45, 136.13±30.25, 1391.19±714.124 and 1.91±0.645. The mean values for total hardness as CaCO3 (mg/l), Calcium hardness as CaCO3 (mg/l), Magnesium hardness as CaCO3 (mg/l), total alkalinity (mg/l), Chloride (mg/l), Sodium (mg/l), Potassium (mg/l), Nitrite (mg/l), Nitrate (mg/l), Phosphate (mg/l), Ammonia (mg/l) and Sulfate (mg/l) were 138.93±14.004, 85.6±16.83, 53.6±11.79, 101.93±12.763, 12.99±5.675, 8.15±2.5, 4.98±0.85, 0.0557±0.0192, 3.03±0.91, 0.438±0.299, 0.458±0.21 and 80.94±16.49 respectively. All the physical parameters except total suspended solids and turbidity were falling in the safer range. Among the chemical parameters water hardness were slightly higher but were still falling within the suggested permissible limits of World Health Organization. Awareness should be created amongst the villagers residing on the banks to not use river banks as a disposal site for their sewage and garbage.

VIEWS 8

Ullah S. 2015. Protective role of Vitamin C against Cypermethrin induced toxicity in Labeo rohita (Ham.): Biochemical Aspects. M.Phil Thesis submitted to Department of Animal Sciences, Quaid-i-Azam University Islamabad, Pakistan.

Ullah S, Javed MW, Shafique M, Khan SF. 2014a. An integrated approach for quality assessment of drinking water using GIS: A case study of Lower Dir. Journal of Himalayan Earth Sciences 47(2), 163-174.

Ullah S, Ullah N, Rahman K, Khan TM, Jadoon MA, Ahmad T. 2014b. Study on Physicochemical Characterization of Konhaye Stream District Dir Lower, Khyber Pakhtunkhwa Pakistan. World Journal of Fish and Marine Science 6(5), 461-470.

Ullah S, Javed MW, Rasheed SB, Jamal Q, Aziz F, Ullah S. 2014c. Assessment of groundwater quality of district Dir Lower Pakistan. International Journal of Biosciences 4(8), 248-255.

Ullah S, Zorriehzahra MJ. 2014. Ecotoxicology: A review of Pesticides induced toxicity in fish. Advances in Animal and Veterinary Sciences 3(1), 40-57.

Ullah S. 2014. GIS integrated approach for assessing drinking water quality. Lap Lambert Academic Publishing, Heinrich-Böcking-Str. 6-8, 66121, Saarbrücken, Germany.

Deshpande SM, Aher KR. 2012. Evaluation of Groundwater Quality and Its Suitability for Drinking and Agriculture Use in Parts of Vaijapur District Aurangabad, MS, India. Research Journal of Chemical Sciences 2(1), 25-31.

Malik GM, Joshi MP, Zadafiya SK, Raval VH. 2012. Study on Physico Chemical Characterization of Some Lotic System of South Gujarat, India. Research Journal of Chemical Sciences 2(1), 83- 85.

Khan AM, Shakir HA, Khan MN, Abid M, Mirza MR. 2009. Ichthyofaunal survey of some freshwater reservoirs in Punjab. The Journal of Animal and Plant Sciences 18, 151-154.

APHA/AWWA. 1998. Standard Methods for the examination of water, and waste water, 20th edition. American Public Health Association, Washington DC, USA.

Gupta SK, Gupta PC. 2006. General and applied Ichthyology (Fish and Fisheries).First Edition. S. Chand and Company Ltd India.

Khan SA, Khan M. 1997. Water quality characteristics of the Kabul river in Pakistan under high flood conditions. Journal of Chemical Society of Pakistan 19(3), 205-210.

Ali SS. 1993. An Introduction to Freshwater Fishery and Biology.First Edition.University grants commission, H-9 Islamabad, Pakistan.

Nafees M, Ghulam K, Khan S. 2002. Investigation of chemical and ecological evaluation of Adezai river. PUTAJ Sciences 9, 77-82.

Yousafzai AM, Khan AR, Shakoori AR. 2008. An Assessment of chemical pollution in river Kabul and its possible impacts on fisheries. Pakistan Journal of Zoology 40(3), 199-210.

Wright DA, Welbourn P. 2002. Environmental toxicology, Cambridge environmental chemistry series 11, University press, Cambridge, UK.

Chhatwal R. 1989. Dictionary of Environmental Chemistry. IB Publication, New Delhi.

WHO. 2011.World Health Organization, Standard water quality parameters for aquatic life. Geneva, Switzerland.

Petrucio MM, Esteves FA. 2000. Uptake Rates of Nitrogen and Phosphorus in the Water by Eichhornia Crassipes and Salvinia Auriculata. Journal of Water Hyacinth for improving eutrophic lake water 60(2), 229 – 236.

Hiscock P. 2000.A practical guide to creating and maintaining water quality. Published in United Kingdom.

Amjad M. 1996. Quantitative and Qualitative Analysis of Suspended Sediment for Rivers of NWFP. M.Phil Thesis, National Center of Excellence in Geology, University of Peshawar.

Welch PS. 1952. Lymnologi. Mc. Graw – Hill publication. New York.

IUCN Pakistan. 1994. Pollution and the Kabul river. International Union of Conservation of Nature and Environmental Planning and Management. Khyber Press, Peshawar, Pakistan.

Xue D, Botte J, De Baets B, Accoe F, Nestler A, Taylor P, Van Cleemput O, Berglund M, Boeckx P. 2009. Present limitations and future prospects of stable isotope methods for nitrate source identification in surface- and groundwater. Water Research 43, 1159-1170.

Ward AD, Elliot WJ. 1995. Environmental Hydrology. Boca Raton, FL, CRC Press.

Das NK, Sinha RK. 1993. Assessment of water quality of Ganga river, Patna, India. Environmental Ecology 11, 829-832.

Chapman D. 1992. Water Quality Assessments – A Guide to Use of Biota, Sediments and Water in Environmental Monitoring. Published by E&FN Spon, an imprint of Chapman & Hall and University Press, Cambridge, Great Britain.

Chapman D, Kimstach V. 1996. Selection of water quality variables. In: Water Quality Assessments – A Guide to Use of Biota, Sediments and Water in Environmental Monitoring (2nd Edition). Published by E&FN Spon, an imprint of Chapman & Hall and University Press, Cambridge, Great Britain.