# INTRODUCTION Author ? : Asst.professor, Dept.of Chemistry R.G.M Engg. College (Autonoumous), Nandyal,Kurnool. District : Andhra Pradesh. E-mail : d.rafi9985687679@yahoo.com Author ? : Assoc.Professor, Dept.of Basic Sciences G.P.R. Engg. College (Autonomous), Kurnool. Author ? : professor,HoD , Dept.of Chemistry R.G.M Engg . College (Autonoumous), Nandyal,Kurnool. District :Andhra Pradesh II. # MATERIALS AND METHODS # a) Sample collection The drinking water samples were collected in prewashed (with detergent, diluted HNO3 and doubl y de-ionized distilled water, respectively) polyethylene bottles. pH and conductivity of the samples were measured while collecting the samples. Each water sample was taken four times at four different sampling periods approximately three month apart. Samples were collected in January, April,July and October ;2009.The determinations of the physical and other chemical properties of the water samples were performed on the same day of sampling. For surface water sampling, the bottles and caps were rinsed three times with water to be sampled during sampling and for ground water, the samples were obtained directly from the water pump after allowing the water to run for at least five minutes and each sample bottle and its cap rinsed three times. These samples were subsequently stored at 4 °C for as short a time as possible before analysis to minimize physicochemical changes (Anonymous, 1996).Because very little particulate matter was present in the sample, filtration was not considered necessary. # b) Methodology Analytical water test tablets (photometer grade) reagents for specific test were used for the preparation of all solutions. Each sample was analysis for , Fe, Cu,Mn, Zn, Al, NO3-, SO4 2-, and F-using procedure s outline in the Palintest Photometer Method (Palintest Photometer 5000) for the examination of water and ood drinking water quality is essential for the well being of all people. Unfortunately in many countries around the world, including India, some drinking water supplies have become contaminated, which has impacted on the health and economic status of the populations Contaminants such as bacteria, viruses, heavy metals, nitrates and salt have found their way into water supplies as a result of in adequate treatment and disposal of waste industrial discharges, and over-use of limited water resources Even other Chemicals to be harmful to human health. Unfortunately, this problem arose because the G detailed chemical investigation. The natural water analyses for physical and chemical properties including trace element contents are very important for public health studies. These studies are also a main part of pollution studies in the environment (Kot., et al,. 2000; Soylak. et al., 2002 a). According to our literature review Some physical and chemical properties of the samples were determined by using standard analytical methods. groundwater was extracted for drinking without a Mohemmad Rafi.K ? III. # Results & Discussion The average physical and chemical properties of the drinking water samples including pH, electrical conductivity, turbidity, fluoride, nitrate ,sulphate from these sample points (1,2,3,4,5,6,7,8,9,10) were given in Table 1. The pH values were in the range of 5.47 to 7.39. Minimum pH (5.47) was observed from an well in Panyam rural area(1) and a maximum of (7.39) was observed from the Panyam stream(2) at Nandyal Rural area. The pH levels were lower than permissible limit (6.5-8.5) in 10% villages, the rest were within optimum limit. The recommended permissible limit for electrical conductivity (EC) is 300 ?s/cm. By analyzing the results 80% villages showed EC lower than permissible limit The value for EC ranged from 49 to 275 ?s/cm, except that of the groundwater samples from Konidedu(4) and Alamur( 7) which recorded 963 ?s/cm and 1168 ?s/ cm respectively. Turbidity is a measure of the cloudiness of water. It has no health effects. However,turbidity can interfere with disinfection and provide a medium for microbial growth. Turbidity may indicate the presence of disease causing organisms. These organisms include bacteria, viruses, and parasites that can cause symptoms such as nausea, cramps, diarrhea, and associated headaches . All the samples have turbidity values greater than the WHO permissible value of 10 JTU except that of the groundwater sample from Neravada (5) and Kowluru (6) villages which recorded values of 5.38 JTU and 4.68 JTU respectively. Fluoride (F-) varied from 0.54 to 1.29 mg/L.Minimum (0.54 mg/L) and maximum (1.29 mg/L) concentration of F-was observed from Odugandla (9) and Balapanuru (10) villages respectively (Table 1). Permissible limit for F concentration is 1-1.5 mg/L according to WHO (2003).The data revealed that 50 % villages are with in limit.. Nitrate in the investigated samples were found to be in a range of 11.19 to 39.76 mg/L .The range of sulphate (SO42-) in the samples was 41.2 to 73.0 mg/L but was negligible at Maddur (8) The concentrations of the major ions were below the permissible limits given by the WHO. The concentrations of trace metals (Cu, Fe, Zn, Al and Mn) ions in the drinking water samples are presented in Table 2. The lowest and the highest levels of trace metals detected ranged between 0.004 mg/L -0.016mg/l for manganese in the sample from Konidedu and 2.96 mg/L for copper from the K.c.canal at Maddur villages. The highest level of total trace metals ions were found in the water sample from K.C Canal at Maddur Average copper concentrations in the drinking water samples were in the range of 1.25 to 2.96 mg/L. The levels in all the stations were above the limit of 1.0 mg/L permitted by WHO in drinking water. This indicates that the local mineral deposit in the catchment area studied may have high levels of copper. Copper is an essential nutrient, but at high doses it has been shown to cause stomach and intestinal distress, liver and kidney damage, and anemia (US EPA, 2003). The highest iron level was found in the sample from Kowlur as 0.94 mg/L and the lowest in Panyam as 0.08 mg/L, almost all the samples contain higher amount of iron except in Panyam where it was below the acceptance limit of iron which is 0.1 mg/ L permitted by the WHO. The levels of zinc in the samples were in the range of 5 mg/L to 19 mg/L . 80% village are between limit according to WHO . Average manganese levels were found to be in the range of 0.042 mg/L to 0.63 mg/L. 70% villages water samples were with in the WHO permitted limit Aluminum concentration in the drinking water samples were in the range from a limit which is 0.05 mg/L. Aluminum concentration in the drinking water samples were in the range from a minimum of 0.07 mg/L from Panyam stream canal stream at Balapanur to a maximum of 0.18 mg/L from the river at Nandyal rural area. Aluminum was considerable below the limit of 0.5 mg/L permitted by WHO in drinking water. A linear regression correlation test was performed to investigate correlations between metal concentrations. The whole data were subjected to statistical analysis and correlation matrices were produced to examine the interrelationships between the investigated metal concentrations. Correlations between metal concentrations in water samples have been widely studied by a number of authors (Mohmood,et al, 1998 andAsubiojo, et al, 1997). # AREA vs Fe # DISCUSSION AND COLCLUSION In conclusion, the concentrations of the investigated major ions and trace metal ions in the drinking water samples from these communities in the Nandyal region, Iddia were found below the guidelines for drinking waters given by the World Health Organization (WHO). Further research on other communities in this region for drinking water analyses is required as levels of contaminants may vary due to different soil types, water chemistry and different human activities. No correlations were found between metal concentrations in the drinking water samples. 56![Figure: 5: Graphical representation between Area Vs Observed Nitrates](image-2.png "Figure: 5 :Figure: 6 :") 1The physical and chemical parameters of the drinking water samplesSampling siteSample site codeWater TypepHEC ?s/cmPanyam Rural area1Surface6.7867Panyam Stream2Surface7.37129Panyam Lake3Surface7.17184Konidedu4Ground5.47963Neravada5Ground6.23213Kowlur6Ground6.68198Alamur7Ground7.121168Maddur8Tap Water7.4395Odiguntla9Tap Water7.29102Balapanur10Tap Water7.09116 2Sampling siteSample site codeWater TypeTurb. NTUF (mg/l)Panyam Rural area1Surface36.01.03Panyam Stream2Surface43.671.18Panyam Lake3Surface51.530.99Konidedu4Ground62.980.68Neravada5Ground5.350.92Kowlur6Ground4.680.74Alamur7Ground73.341.05Maddur8Tap Water32.761.23Odiguntla9Tap Water26.880.54Balapanur10Tap Water29.01.29 3Sampling siteSample site codeWater TypeNO 3 -(mg/l)2-SO 4 (mg/l)Panyam Rural area1Surface11.1941.9Panyam Stream2Surface18.1254.5Panyam Lake3Surface27.0741.2Konidedu4Ground24.3759.2Neravada5Ground32.4968.7Kowlur6Ground19.4553.4Alamur7Ground22.5652.9Maddur8Tap Water39.76--Odiguntla9Tap Water32.8873.0Balapanur10Tap Water29.6948.4 4Sampling siteSample site codeWater TypeCuZnPanyam Rural area1Surface1.258Panyam Stream2Surface1.765Panyam Lake3Surface1.987Konidedu4Ground1.4712Neravada5Ground2.3816Kowlur6Ground2.6711Alamur7Ground2.1219Maddur8Tap Water2.969Odiguntla9Tap Water1.988Balapanur10Tap Water2.2513 5Sampling siteSample site codeWater TypeMnFePanyam Rural area1Surface0.0420.08Panyam Stream2Surface0.0540.12Panyam Lake3Surface0.230.25Konidedu4Ground0.0580.76Neravada5Ground0.630.68Kowlur6Ground0.080.94Alamur7Ground0.390.89Maddur8Tap Water0.0660.27Odiguntla9Tap Water0.4140.34Balapanur10Tap Water0.3130.48 6Sampling siteSample site codeWater TypeAlPanyam Rural area1Surface0.10Panyam Stream2Surface0.07Panyam Lake3Surface0.09Konidedu4Ground0.08Neravada5Ground0.11Kowlur6Ground0.15Alamur7Ground0.14Maddur8Tap Water0.12Odiguntla9Tap Water0.16Balapanur10Tap Water0.18 © 2011 Global Journals Inc. (US) ## ACKNOWLEDGEMENT The authors are grateful for the financial support of the Environmental Research Area, Head Administrative Staff college of India (ASCI). Hyderabad,A.P, and The Pincipal, RGM College of Engineering & Technology ,Nandyal for providing the necessary facilities. * International Reference Centre for Community Water Supply and Sanitation 1986 * Interwater Directory of Sources of Information and Documentation on Community Water Supply and Sanitation (ref TD 327 I58) * Groundwater quality in rural areas of western Africa Langenegger 1987 Abidjan, Ivory Coast World Bank Regional Water and Sanitation Group * The pollution hazard to village water supplies in eastern Botswana WJLewis JLFarr SS DFoster Proceedings of the Institute of Civel Engineers. Part2 the Institute of Civel Engineers. 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