Abstract
Present study is to reveal the seasonal variations in the river water quality by heavy metals contamination. To get the extent of heavy metals contamination, water samples was collected from 12 different locations along the course of the River Ganga and its tributaries in winter, summer, monsoon and post-monsoon seasons. The concentrations of trace metals such as Zn, Pb, Mn, Fe, Cu, Si, Al, Ni, Cd, Mg, and Co were determined using atomic absorption spectrophotometer (AAS). Most of the samples were found within the limit of standards i.e. Indian drinking water standard (IS: 10500). The data collected by on-site and lab analysis was used to calculate the heavy metal pollution index (HPI) of river water. During the study Ni showed the highest positive correlation value with Al and the highly negative was recorded with Mg. The values of HPI were 33.34, 26.12, 27.88 and 26.86 in respective seasons. These values are below the critical index limit (100) in all the seasons because of the sufficient flow in River System. So, the present study shows that the water quality of River Ganga is unpolluted with respect to heavy metals.
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References
Abowei JFN, George ADI (2009) Some physicochemical characteristics of Okpoka Creek, Niger Delta, Niger, Nigeria. Res J Environ Earth Sci 1(2):45–53
Ahluwalia RS, Rai SP, Jain SK, Dobhal DP, Kumar A (2015) Estimation of snow/glacier melt contribution in the upper part of the Beas river basin, Himachal Pradesh using conventional and SNOWMOD modeling approach. J Water Clim Change. https://doi.org/10.2166/wcc.2015.107
Ansari AA, Singh IB, Tobschall HJ (1999) Status of anthropogenically induced metal pollution in the Kanpur-Unnao industrial region of the Ganga plain, India. Environ Geol 38:25–33
APHA (2012) Standard methods for the examination of water and wastewater, 21st edn. American Public Health Association, Washington
Bhatia A, Singh SD, Kumar A (2015) Heavy metal contamination of soil, irrigation water and vegetables in peri urban agricultural areas and markets of Delhi. Water Environ Res 87(11):2027–2034
BIS (Bureau of Indian Standards) (2012) Specification for drinking water IS: 10500. New Delhi, India
Garzanti E, Ando S, France-lanord C, Censi P, Vignola P, Galy V, Lupker M (2011) Mineralogical and chemical variability of fluvial sediments 2. Suspended-load silt (Ganga–Brahmaputra, Bangladesh). Earth Planet Sci Lett 302:107–120
Goswami DN, Sanjay SS (2014) Determination of heavy metals, viz. cadmium, copper, lead and zinc in the different matrices of the Ganges river from Rishikesh to Allahabad through differential pulse anodic striping voltammetry. Int J Adv Res Chem Sci 1:7–11
Jain N, Johnson TA, Kumar A, Mishra S, Gupta N (2015) Biosorption of Cd(II) on jatropha fruit coat and seed coat. Environ Monit Assess 187:411
Karbassi AR, Monavari SM, Nabi Bidhendi GR, Nouri J, Nematpour K (2008) Metal pollution assessment of sediment and water in the Shur river. Environ Monit Assess 147(1–3):107
Kumar A, Mishra S, Kumar A, Singhal S (2017) Environmental quantification of soil elements in the catchment of hydroelectric reservoirs in India. Hum Ecol Risk Assess. https://doi.org/10.1080/10807039.2017.1309266
Matta G (2010) Freshwater: resources and Pollution. Environ Conserv J 11(3):161–169
Matta G (2014a) A study on physico-chemical Characteristics to assess the pollution status of River Ganga in Uttarakhand. J Chem Pharm Sci 7(3):210–217
Matta G (2014b) Water quality assessment of Ganga Canal system. J Adv Sci Res 5:4
Matta G (2015) Evaluation and prediction of deviation in physic-chemical characteristics of River Ganga. Int J Adv Res Technol 4(6):14–30
Matta G, Gjyli L (2016) Mercury, lead and arsenic: impact on environment and human health India. J Chem Pharm Sci 9(2):718–725
Matta G, Kumar A (2015) Monitoring and evaluation of River Ganga system in Himalayan region with reference to limnological aspects. World Appl Sci J 33(2):203–212
Matta G, Uniyal DP (2017) Assessment of species diversity and impact of pollution on limnological conditions of River Ganga. Int J Water 11(2):87–102
Matta G, Kumar A, Srivastava S, Singh V, Dhingra GK (2015a) Impact assessment on water quality of Ganga Canal system in Himalayan region. Int J Sci Eng Res 6(5):1524–1531
Matta G, Pandey RR, Saini KK (2015b) Assessment of pollution on water quality and phytoplankton diversity in canal system of River Ganga. World J Pharm Res 4(11):889–908
Matta G, Srivastava S, Pandey RR, Saini KK (2015c) Assessment of physicochemical characteristics of Ganga Canal water quality in Uttarakhand. Environ Dev Sustain. https://doi.org/10.1007/s10668-015-9735-x
Matta G, Kumar A, Uniyal DP, Singh P, Kumar A, Dhingra GK, Kumar A, Naik PK, Shrivastva NG (2017) Temporal assessment using WQI of River Henwal, a tributary of River Ganga in Himalayan region. ESSENCE Int J Env Rehab Conser VIII(1):187–204
Matta G, Kumar A, Naik PK, Tiwari AK, Berndtsson R (2018) Ecological analysis of nutrient dynamics and phytoplankton assemblage in the Ganga River System, Uttarakhand. Taiwan Water Conserv 66(1):762–768
Mohan SV, Nithila P, Reddy SJ (1996) Estimation of heavy metal in drinking water and development of heavy metal pollution index. J Environ Sci Health A 31(2):283–289
Pandey J, Shubhashish K, Pandey R (2009) Metal contamination of Ganga River (India) as influenced by atmospheric deposition. Bull Environ Contam Toxicol 83(2):204–220
Panwar S, Agarwal V, Chakrapani GJ (2017) Morphometric and sediment source characterization of the Alaknanda river basin, headwaters of river Ganga. Nat Hazards, India. https://doi.org/10.1007/s11069-017-2838-y
Pathak H, Pramanik P, Khanna M, Kumar A (2014) Climate change and water availability in Indian agriculture: impacts and adaptation. Ind J Agri Sci 84(6):671–679
Prasad B, Bose JM (2001) Evaluation of heavy metal pollution index for surface and spring water near a limestone mining area of the lower Himalayas. Environ Geol 41:183–188
Prasad B, Kumari S (2008) Heavy metal pollution index of ground water of an abandoned open cast mine filled with fly ash: a case study. Mine Water Environ 27(4):265–267
Prasad B, Mondal KK (2008) The impact of filling an abandoned opencast mine with fly ash on ground water quality: a case study. Mine Water Environ 27(1):40–45
Rafiei B, Bakhtiari Nejad M, Hashemi M, Khodaei AS (2010) Distribution of heavy metals around the Dashkasan Au mine. Int J Environ Res 4:647–654
Rai PK, Mishra A, Tripathi BD (2010) Heavy metal and microbial pollution of the river Ganga: a case study of water quality at Varanasi. Aquat Ecosyst Health Manag 13:352–361
Ramesh R, Ramanathan AL, Ramesh S, Purvaja R, Subramanian V (2000) Distribution of rare earth elements and heavy metals in the surficial sediments of the Himalayan river system. Geochem J 34:295–319
Reza R, Singh G (2010) Heavy metal contamination and its indexing approach for river water. Int. J Environ Sci Tech 7(4):785–792
Shahtaheri SJ, Abdollahi M, Golbabaei F, Rahimi-Froushani A, Ghamari F (2008) Monitoring of mandelic acid as a biomarker of environmental and occupational exposures to styrene. Int J Environ Res 2(2):169–176
Sharma YC, Prasad G, Rupainwar DC (1992) Heavy metal pollution of river Ganga in Mirzapur, India. Int J Environ Stud 40:41–53
Sharma A, Kumar A, Dhaka TS (2012) Impact on sugar factory effluent on chlorophyll and protein contents of Cicer arietinum and Tigonella foenum-gracecum. Curr Adv Agric Sci 4(1):62–63
Singh P (2010) Geochemistry and provenance of stream sediments of the Ganga river and its major tributaries in the Himalayan region, India. Chem Geol 269:220–236
Singh AK, Mondal GC, Kumar S, Singh TB, Tewary BK, Sinha A (2008) Major ion chemistry, weathering processes and water quality assessment in upper catchment of Damodar river basin, India. Environ Geol 54(4):745–758
Singh J, Rawat KS, Kumar A (2013) Mobility of cadmium in sewage sludge applied soil and its uptake by radish (Raphanus sativus L.) and spinach (Spinacia oleracea L.). Int J Agric Food Sci Technol 4(4):291–296
Sundaray SK, Panda UC, Nayak BB, Bhatta D (2006) Multivariate statistical techniques for the evaluation of spatial and temporal variation in water quality of Mahanadi river–estuarine system (India)—a case study. Environ Geochem Health 28(4):317–330
Thare V, Sinha R, Mathur RP, Behera S et al (2010) River Ganga at a glance: identification of issues and priority actions for restoration. Report code: 001_GBP_IIT_GEN_DAT_01_Ver 1
US EPA Method 200.2 (1999) Sample preparation procedure for spectrochemical determination of total recoverable elements. National Exposure Research Laboratory, Office of Water, US EPA, Cincinnati
Wong CSC, Li XD, Zhang G, Qi SH, Peng XZ (2003) Atmospheric deposition of heavy metals in the Pearl River Delta. China Atmos Environ 37(6):767–776
Yadav K, Gupta N, Kumar V, Khan SA, Kumar A (2018) A review of emerging adsorbents and current demand for defluoridation of water: bright future in water sustainability. Environ Inter 111:80–108
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The author gratefully acknowledge Department of Zoology and Environment Science, Gurukula Kangri University, Haridwar (India) for providing laboratory facilities to conduct the present research work.
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Matta, G., Kumar, A., Kumar, A. et al. Assessment of Heavy Metals Toxicity and Ecological Impact on Surface Water Quality Using HPI in Ganga River. INAE Lett 3, 123–129 (2018). https://doi.org/10.1007/s41403-018-0041-4
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DOI: https://doi.org/10.1007/s41403-018-0041-4