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Erschienen in: Environmental Earth Sciences 5/2017

01.03.2017 | Original Article

Spatial and temporal variations of physicochemical and heavy metal pollution in Ramganga River—a tributary of River Ganges, India

verfasst von: Mohd Yawar Ali Khan, Khalid Muzamil Gani, Govind Joseph Chakrapani

Erschienen in: Environmental Earth Sciences | Ausgabe 5/2017

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Abstract

The River Ganges being the most sacred river and lifeline to millions of Indians in serving their water requirements is facing excessive threat of pollution. Under various river management and conservation strategies for its protection, the assessment of water quality of its main tributary Ramganga River is lacking. This study focuses on assessment of physicochemical and heavy metal pollution of the Ramganga River by application of multivariate statistical techniques. Sampling of Ramganga River at sixteen sampling sites was carried out in three seasons (summer, monsoon and winter) of 2014. The collected water samples were analyzed for physicochemical parameters and heavy metals. Results from cluster analysis (CA) of the data divided the whole stretch of the river into three clusters as elevation from 1304 to 259 m as less polluted, from 207 to 154 m as moderately polluted and from elevation 154 to 139 m as high-polluted stretches with anthropogenic as main sources of pollution in high-polluted stretch. Principal component analysis of the seasonal dataset resulted in three significant principal components (PC) in each season explaining 72–8% of total variance with strong loadings (>0.75) of PC1 on fluoride (F), chloride (Cl), sodium (Na+), calcium (Ca2+), magnesium (Mg2+), bicarbonate (HCO3 ), total dissolved solids and electrical conductivity. Temporal variation by one-way ANOVA (Analysis of Variance) showed significant seasonal variation was in the pH, chemical oxygen demand, biochemical oxygen demand, turbidity, HCO3 , F, Zn, cadmium (Cd) and Mn (p < 0.05). Turbidity showed approximately a twofold increase in monsoon season due to rainfall in the catchment area and subsequent flow of runoff into the river. Concentration of HCO3 , F and pH also showed similar increase in monsoon. The concentration of Zn, Cd and Mn showed an increasing trend in summers compared to monsoon and winter season due to dilution effect in the monsoon season and its lasting effect in winters.

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Literatur
Zurück zum Zitat APHA (1998) Standard methods for the examination of water and wastewater (1998), 20th edn. American Public Health Association, Washington, DC APHA (1998) Standard methods for the examination of water and wastewater (1998), 20th edn. American Public Health Association, Washington, DC
Zurück zum Zitat Bhardwaj V, Singh DS, Singh AK (2010) Water quality of the Chhoti Gandak River using principal component analysis, Ganga Plain, India. J Earth Syst Sci 119(1):117–127CrossRef Bhardwaj V, Singh DS, Singh AK (2010) Water quality of the Chhoti Gandak River using principal component analysis, Ganga Plain, India. J Earth Syst Sci 119(1):117–127CrossRef
Zurück zum Zitat CWC (2012) Environmental evaluation study of Ramganga major irrigation project. Central Water Commission 1:16 CWC (2012) Environmental evaluation study of Ramganga major irrigation project. Central Water Commission 1:16
Zurück zum Zitat Daityari S, Khan MYA (2017) Temporal and spatial variations in the engineering properties of the sediments in Ramganga River, Ganga Basin, India. Arab J Geosci. doi:10.1007/s12517-017-2915-2 Daityari S, Khan MYA (2017) Temporal and spatial variations in the engineering properties of the sediments in Ramganga River, Ganga Basin, India. Arab J Geosci. doi:10.​1007/​s12517-017-2915-2
Zurück zum Zitat Dixon W, Chiswell B (1996) Review of aquatic monitoring program design. Water Res 30:1935–1948CrossRef Dixon W, Chiswell B (1996) Review of aquatic monitoring program design. Water Res 30:1935–1948CrossRef
Zurück zum Zitat Finnveden G, Hauschild MZ, Ekvall T, Guinée J, Heijungs R, Hellweg S, Koehler A, Pennington D, Suh S (2009) Recent developments in life cycle assessment. J Environ Manag 91(1):1–21CrossRef Finnveden G, Hauschild MZ, Ekvall T, Guinée J, Heijungs R, Hellweg S, Koehler A, Pennington D, Suh S (2009) Recent developments in life cycle assessment. J Environ Manag 91(1):1–21CrossRef
Zurück zum Zitat Fučík P, Kvítek T, Lexa M, Novák P, Bílková A (2008) Assessing the stream water quality dynamics in connection with land use in agricultural catchments of different scales. Soil Water Res 3(3):98–112 Fučík P, Kvítek T, Lexa M, Novák P, Bílková A (2008) Assessing the stream water quality dynamics in connection with land use in agricultural catchments of different scales. Soil Water Res 3(3):98–112
Zurück zum Zitat Helena B, Pardo R, Vega M, Barrado E, Fernandez JM, Fernandez L (2000) Temporal evolution of groundwater composition in an alluvial aquifer (Pisuerga River, Spain) by principal component analysis. Water Res 34:807–816CrossRef Helena B, Pardo R, Vega M, Barrado E, Fernandez JM, Fernandez L (2000) Temporal evolution of groundwater composition in an alluvial aquifer (Pisuerga River, Spain) by principal component analysis. Water Res 34:807–816CrossRef
Zurück zum Zitat Jarvie HP, Whitton BA, Neal C (1998) Nitrogen and phosphorus in east coast British Rivers: speciation, sources and biological significance. Sci Total Environ 210(211):79–110CrossRef Jarvie HP, Whitton BA, Neal C (1998) Nitrogen and phosphorus in east coast British Rivers: speciation, sources and biological significance. Sci Total Environ 210(211):79–110CrossRef
Zurück zum Zitat Kazi TG, Arain MB, Jamali MK, Jalbani N, Afridi HI, Sarfraz RA, Baig JA, Shah AQ (2009) Assessment of water quality of polluted lake using multivariate statistical techniques: a case study. Ecotoxicol Environ Saf 72:301–309CrossRef Kazi TG, Arain MB, Jamali MK, Jalbani N, Afridi HI, Sarfraz RA, Baig JA, Shah AQ (2009) Assessment of water quality of polluted lake using multivariate statistical techniques: a case study. Ecotoxicol Environ Saf 72:301–309CrossRef
Zurück zum Zitat Kazmi AA, Hansen IS (1997) Numerical models in water quality management: a case study for the Yamuna River (India). Water Sci Technol 36(5):193–200 Kazmi AA, Hansen IS (1997) Numerical models in water quality management: a case study for the Yamuna River (India). Water Sci Technol 36(5):193–200
Zurück zum Zitat Khan MYA, Chakrapani GJ (2016b) Particle Size Characteristics of Ramganga Catchment Area of Ganga River. In: Geostatistical and Geospatial Approaches for the Characterization of Natural Resources in the Environment. Springer International Publishing, pp 307–312 Khan MYA, Chakrapani GJ (2016b) Particle Size Characteristics of Ramganga Catchment Area of Ganga River. In: Geostatistical and Geospatial Approaches for the Characterization of Natural Resources in the Environment. Springer International Publishing, pp 307–312
Zurück zum Zitat Khan MYA, Muzamil K, Chakrapani GJ (2016c) Assessment of surface water quality and its spatial variation. A case study of Ramganga River, Ganga Basin, India. Arab J Geosci 9(1):1–9 Khan MYA, Muzamil K, Chakrapani GJ (2016c) Assessment of surface water quality and its spatial variation. A case study of Ramganga River, Ganga Basin, India. Arab J Geosci 9(1):1–9
Zurück zum Zitat Khan MYA, Khan B, Chakrapani GJ (2016d) Assessment of spatial variations in water quality of Garra River at Shahjahanpur, Ganga Basin, India. Arab J Geosci 9(8):1–10CrossRef Khan MYA, Khan B, Chakrapani GJ (2016d) Assessment of spatial variations in water quality of Garra River at Shahjahanpur, Ganga Basin, India. Arab J Geosci 9(8):1–10CrossRef
Zurück zum Zitat Kvítek T, Žlábek P, Bystřický V, Fučík P, Lexa M, Gergel J, Novák P, Ondr P (2009) Changes of nitrate concentrations in surface waters influenced by land use in the crystalline complex of the Czech Republic. Phys Chem Earth Parts A/B/C 34(8):541–551CrossRef Kvítek T, Žlábek P, Bystřický V, Fučík P, Lexa M, Gergel J, Novák P, Ondr P (2009) Changes of nitrate concentrations in surface waters influenced by land use in the crystalline complex of the Czech Republic. Phys Chem Earth Parts A/B/C 34(8):541–551CrossRef
Zurück zum Zitat Liu CW, Lin KH, Kuo YM (2003) Application of factor analysis in the assessment of groundwater quality in a blackfoot disease area in Taiwan. Sci Total Environ 313:77–89CrossRef Liu CW, Lin KH, Kuo YM (2003) Application of factor analysis in the assessment of groundwater quality in a blackfoot disease area in Taiwan. Sci Total Environ 313:77–89CrossRef
Zurück zum Zitat Mathur A, Shrama YC, Rupainwar DC, Murthy RC, Chandra S (1987) A study of river Ganga at Varanasi with special emphasis on heavy metal pollution. Poll Res 6(1):37–44 Mathur A, Shrama YC, Rupainwar DC, Murthy RC, Chandra S (1987) A study of river Ganga at Varanasi with special emphasis on heavy metal pollution. Poll Res 6(1):37–44
Zurück zum Zitat McKenna JE Jr (2003) An enhanced cluster analysis program with bootstrap significance testing for ecological community analysis. Environ Mode Softw 18:205–220CrossRef McKenna JE Jr (2003) An enhanced cluster analysis program with bootstrap significance testing for ecological community analysis. Environ Mode Softw 18:205–220CrossRef
Zurück zum Zitat Mishra S, Kumar A, Shukla P (2016) Study of water quality in Hindon River using pollution index and environmetrics, India. Desalination Water Treat 57(41):19121–19130CrossRef Mishra S, Kumar A, Shukla P (2016) Study of water quality in Hindon River using pollution index and environmetrics, India. Desalination Water Treat 57(41):19121–19130CrossRef
Zurück zum Zitat MoEF (2009) Status paper on River Ganga, State of Environment and Water Quality, National River Conservation Directorate Ministry of Environment and Forests, Government of India MoEF (2009) Status paper on River Ganga, State of Environment and Water Quality, National River Conservation Directorate Ministry of Environment and Forests, Government of India
Zurück zum Zitat Otto M (1998) Multivariate methods. In: Kellner R, Mermet JM, Otto M, Widmer HM (eds) Analytical chemistry. Wiley/VCH, Weinheim, p 916 Otto M (1998) Multivariate methods. In: Kellner R, Mermet JM, Otto M, Widmer HM (eds) Analytical chemistry. Wiley/VCH, Weinheim, p 916
Zurück zum Zitat Parmar KS, Bhardwaj R (2015) Statistical, time series, and fractal analysis of full stretch of River Yamuna (India) for water quality management. Environ Sci Pollut Res 22(1):397–414CrossRef Parmar KS, Bhardwaj R (2015) Statistical, time series, and fractal analysis of full stretch of River Yamuna (India) for water quality management. Environ Sci Pollut Res 22(1):397–414CrossRef
Zurück zum Zitat Sarbu C, Pop HF (2005) Principal component analysis versus fuzzy principal component analysis. A case study: the quality of Danube water (1985–1996). Talanta 65:1215–1220CrossRef Sarbu C, Pop HF (2005) Principal component analysis versus fuzzy principal component analysis. A case study: the quality of Danube water (1985–1996). Talanta 65:1215–1220CrossRef
Zurück zum Zitat Sharma D, Kansal A, Pelletier G (2015) Water quality modeling for urban reach of Yamuna River, India (1999–2009), using QUAL2Kw. Appl Water Sci 1–25 Sharma D, Kansal A, Pelletier G (2015) Water quality modeling for urban reach of Yamuna River, India (1999–2009), using QUAL2Kw. Appl Water Sci 1–25
Zurück zum Zitat Simeonov V, Simeonova P, Tsitouridou R (2004) Chemometric quality assessment of surface waters: two case studies. Chem Eng Ecol 11:449–469 Simeonov V, Simeonova P, Tsitouridou R (2004) Chemometric quality assessment of surface waters: two case studies. Chem Eng Ecol 11:449–469
Zurück zum Zitat Singh N (2010) Physicochemical properties of polluted water of River Ganga at Varanasi. Int J Energy Environ 1(5):823–832 Singh N (2010) Physicochemical properties of polluted water of River Ganga at Varanasi. Int J Energy Environ 1(5):823–832
Zurück zum Zitat Singh O, Sharma MK (2015) Measurement of dissolved oxygen and biochemical oxygen demand for the Hindon River, India. J Indian Water Resour Soc 35(1):42–50 Singh O, Sharma MK (2015) Measurement of dissolved oxygen and biochemical oxygen demand for the Hindon River, India. J Indian Water Resour Soc 35(1):42–50
Zurück zum Zitat Singh KP, Malik A, Mohan D, Sinha S (2004) Multivariate statistical techniques for the evaluation of spatial and temporal variations in water quality of Gomti River (India): a case study. Water Res 38:3980–3992CrossRef Singh KP, Malik A, Mohan D, Sinha S (2004) Multivariate statistical techniques for the evaluation of spatial and temporal variations in water quality of Gomti River (India): a case study. Water Res 38:3980–3992CrossRef
Zurück zum Zitat Singh KP, Malik A, Sinha S (2005) Water quality assessment and apportionment of pollution sources of Gomti River (India) using multivariate statistical techniques- a case study. Anal Chim Acta 538:355–374CrossRef Singh KP, Malik A, Sinha S (2005) Water quality assessment and apportionment of pollution sources of Gomti River (India) using multivariate statistical techniques- a case study. Anal Chim Acta 538:355–374CrossRef
Zurück zum Zitat Stoate C, Báldi A, Beja P, Boatman ND, Herzon I, Van Doorn A, De Snoo GR, Rakosy L, Ramwell C (2009) Recent developments in life cycle assessment ecological impacts of early 21st century agricultural change in Europe—a review. J Environ Manag 91(1):22–46CrossRef Stoate C, Báldi A, Beja P, Boatman ND, Herzon I, Van Doorn A, De Snoo GR, Rakosy L, Ramwell C (2009) Recent developments in life cycle assessment ecological impacts of early 21st century agricultural change in Europe—a review. J Environ Manag 91(1):22–46CrossRef
Zurück zum Zitat Tiemeyer B, Kahle P, Lennartz B (2006) Nutrient losses from artificially drained catchments in North-Eastern Germany at different scales. Agric Water Manag 85(1):47–57CrossRef Tiemeyer B, Kahle P, Lennartz B (2006) Nutrient losses from artificially drained catchments in North-Eastern Germany at different scales. Agric Water Manag 85(1):47–57CrossRef
Zurück zum Zitat Tyagi VK, Bhatia A, Gaur RZ, Khan AA, Ali M, Khursheed A, Kazmi AA (2013) Impairment in water quality of Ganges River and consequential health risks on account of mass ritualistic bathing. Desalin Water Treat 51(10–12):2121–2129CrossRef Tyagi VK, Bhatia A, Gaur RZ, Khan AA, Ali M, Khursheed A, Kazmi AA (2013) Impairment in water quality of Ganges River and consequential health risks on account of mass ritualistic bathing. Desalin Water Treat 51(10–12):2121–2129CrossRef
Zurück zum Zitat Vega M, Pardo R, Barrado E, Deban L (1996) Assessment of seasonal and polluting effects on the quality of river water by exploratory data analysis. Water Res 32:3581–3592CrossRef Vega M, Pardo R, Barrado E, Deban L (1996) Assessment of seasonal and polluting effects on the quality of river water by exploratory data analysis. Water Res 32:3581–3592CrossRef
Zurück zum Zitat Wunderlin DA, Diaz MP, Ame MV, Pesce SF, Hued AC, Bistoni MA (2001) Pattern recognition techniques for the evaluation of patial and temporal variations in water quality. A case study: Suquia River basin (Cordoba, Argentina). Water Res 35(12):2881–2894CrossRef Wunderlin DA, Diaz MP, Ame MV, Pesce SF, Hued AC, Bistoni MA (2001) Pattern recognition techniques for the evaluation of patial and temporal variations in water quality. A case study: Suquia River basin (Cordoba, Argentina). Water Res 35(12):2881–2894CrossRef
Metadaten
Titel
Spatial and temporal variations of physicochemical and heavy metal pollution in Ramganga River—a tributary of River Ganges, India
verfasst von
Mohd Yawar Ali Khan
Khalid Muzamil Gani
Govind Joseph Chakrapani
Publikationsdatum
01.03.2017
Verlag
Springer Berlin Heidelberg
Erschienen in
Environmental Earth Sciences / Ausgabe 5/2017
Print ISSN: 1866-6280
Elektronische ISSN: 1866-6299
DOI
https://doi.org/10.1007/s12665-017-6547-3

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