INTERNATIONAL JOURNAL OF CHEMISTRY AND CHEMICAL PROCESSES (IJCCP )
E-I SSN 2545-5265
P- ISSN 2695-1916
VOL. 10 NO. 4 2024
DOI: 10.56201/ijccp.v10.no4.2024.pg47.55
B.B Yusif, M.I Fago, O.A Oyekunle, H. A. Adefisan, F.H Garba and A Antey
Danja is headquarter of Danja Local government area of Katsina state, most of the population depend on hand dug wells as primary source of water for domestic use, as such, there’s a need for a study to be carried out to assess the levels of some physicochemical parameters and some heavy metals in well water that is meant for drinking and domestic purposes. Twenty water samples were randomly collected from different sampling site and were analyzed. The results showed that the total mean Temperature is 29.32±0.213°C, pH 7.37±0.012, Turbidity had a mean level of 1.72±0.173 NTU, the TDS mean levels was 564.4±090.9 mg/l, EC have mean level of 634±34.7?S/cm while DO has mean levels of 5.6±0.203mg/L. All the physicochemical parameters tested are within the permissible limit except EC and Temperature. Heavy metals analyzed include Chromium which is within WHO upper limit except in location 3, Lead is only high in location 3 with (0.056mg/L), Cadmium is within the normal range, Iron is also within permissible limit except at location 6 with (0.42mg/L) while Zinc above limit at location 3 and 6 with (0.32 and 0.47 mg/L) respectively.
Basavaraja, Simpi, S. M., Hiremath, K. N. S. Murthy, K. N. Chandrashekarappa, Anil N.Patel,
E.T.Puttiah, (2011), Analysis of Water Quality Using Physico-Chemical Parameters
Hosahalli Tank in Shimoga District, Karnataka, India, Global Journal of Science Frontier,
Research, 1(3), pp 31-34.
Adeyeye EI, (1994), Determination of heavy metals in Illisha Africana, associated Water, Soil
Sediments from some fish ponds, International Journal of Environmental Study, 45, pp
231-240.3
Adefemi S. O. and E. E. Awokunmi, (2010), Determination of physico-chemical parameters and
heavy metals in water samples from Itaogbolu area of Ondo-State, Nigeria, African Journal
of Environmental Science and Technology, 4(3), pp 145-148.
Misra, S. G., Dinesh, D., (1991), Soil Pollution, Ashing Publishing House, New Delhi, India
Kulkarni, G. J., (1997), Water supply and sanitary engineering. 10th Ed. Farooq Kitabs Ghar.
Karachi, 497
Hari, O. S., Nepal, M. S. Aryo, and N. Singh. (1994), Combined effect of waste of distillery and
sugar mill on seed germination, seeding growth and biomass of okra. Journal of
Environmental Biology, 3(15), pp 171-175.
Riordan, O', E. G., Dodd, V. A., Tunney, H., Fleming, G. A, (1983), The chemical composition of
sewage sludges, Ireland Journal of Agriculture Research, 25, 239-49.
Quinn, B. F., Syers, J. K., (1978), Surface irrigation of pasture with treated sewage effluent, heavy
metal content of sewage effluent, sludge, soil and pasture, New Zealand Journal of
Agricultural Research. 21, pp 435-442. Gupta, D. P., Sunita and J. P. Saharan, (2009),
Physiochemical Analysis of Ground Water of Selected Area of Kaithal City (Haryana)
India, Researcher, 1(2), pp 1-5.
Agarwal, Animesh and Manish, Saxena, (2011), Assessment of pollution by Physicochemical
Water Parameters Using Regression Analysis: A Case Study of Gagan River at
Moradabad- India, Advances in Applied Science Research, 2(2), pp 185 -189.
Fakayode, (2005).Multivariant analysis of drinking water quality parameters of lake Pichhola in
Udaipur, India.m Biological Forum, Biological Forum- An International Journal, 1(2), pp
97-102.3
Robertson (1968) Coastal metabolism and the oceanic organic carbon balance, Reviews of
Geophysics, 31, pp 75-76.
(Duruibe 2019) Processing of liquid effluents of mineral processing industries, Intl Symposium
Environ Manag Mining Metallurgical Industries, 11-14 , Bhubaneshwar, pp 193- 212.
Karanth, K. R, (1987), Groundwater Assessment Development and Management Tata McGraw
Hill publishing company Ltd., New Delhi, pp 725-726
Navneet, Kumar, D. K. Sinha, (2010), Drinking water quality management through correlation
studies among various physicochemical parameters: A case study, International Journal of
Environmental Sciences, 1(2), pp 253-259..
ASTM International, (2003), Annual Book of ASTM Standards, Water and Environmental
Technology v. 11.01, West Conshohocken, Pennsylvania,pp 6-7.
Moss, B., (1972), Studies on Gull Lake, Michigan II. Eutrophication evidence and prognosis, Fresh
Water Biology, 2, pp 309-320.Kataria, H. C., Quershi, H. A., Iqbal, S. A. and Shandilya,
A. K, (1996),Assessment of water quality of Kolar reservoir in Bhopal (M.P.). Pollution
Research. 15(2), pp 191-193. APHA, (1985), Standard Methods For Examination of Water
and Wastewater, 20th Edition, American Public Health Association, Washington D. C
AOAC (1998). American Organisation of Analytical Chemistry; A guide to Chemical Analysis, 7
NEERI (1986). Manual on water and waste water analysis, National Environmental
Engineering Research Institute Publication, Nagpur-P-340.
Ellis, K.V., (1989), Surface water pollution and its control” Macmillan press Ltd, Hound mill,
Basingstoke, Hampshire RG 21 2xs and London, 3-18, pp 97,100,101 and 208. Aftab,
Begum, S. Y, Noorjahan, C. M., Dawood, Sharif, S, (2005), Physico-chemical and fungal
analysis of a fertilizer factory effluent, Nature Environment & Pollution Technology, 4(4),
529-531.Premlata, Vikal, (2009), Multivariant analysis of drinking water quality
parameters of lake Pichhola in Udaipur, India. Biological Forum, Biological Forum- An
International Journal, 1(2), pp 97-102.
Krishnamurthy, R., (1990), Hydro-biological studies of Wohar reservoir Aurangabad
(Maharashtra State) India, Journal of Environmental Biology, 11(3), 335-343
Adnan, Amin, Taufeeq, Ahmad, Malik, Ehsanullah, Irfanullah, Muhammad, Masror, Khatak and
Muhammad, Ayaz, Khan, (2010), Evaluation of industrial and city effluent quality using
physicochemical and biological parameters, Electronic Journal of Environmental,
Agricultural and Food Chemistry, 9(5), pp 931-939. water will be use as sample for
determination of heavy metals and physicochemical parameters