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Nature Environment and Pollution Technology

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2013
2018

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Bhalla, Resham

Monitoring of Water Quality and Pollution Status of Godavari River in and Around Nashik Region, Maharashtra

Abstract Views :150 | PDF Views:0

Authors

Resham Bhalla ¹, B. B. Waykar ²

Affiliations
1 Department of Zoology, LVH Arts, Science & Commerce College, Panchavati, Nashik-422 003, Maharashtra, IN
2 Department of Zoology, Dr. Babasaheb Ambedkar Marathwada University, Aurangabad-431 004, Maharashtra, IN

Source

Nature Environment and Pollution Technology, Vol 12, No 1 (2013), Pagination: 125-129

Abstract

Rivers are currently degraded by both natural and anthropogenic activities, which deteriorate the water quality, affecting the ecological balance, pushing them to brink of extinction in the process of unplanned development, giving rise to planning for suitable conservation strategies. On this background to know the present status of sources and degree of pollution of Godavari river, the analysis was carried out in terms of physico-chemical and biological parameters like temperature, turbidity, pH, free carbon dioxide, sulphates, phosphates, chlorides, nitrates, nitrites, total dissolved solids, dissolved oxygen, biochemical oxygen demand, chemical oxygen demand, phytoplanktons, zooplanktons and metals like sodium, potassium, zinc, copper, iron and lead at five locations S1 to S5 during the year November 2008-October 2009. Based on the analysis, quality and quantity of pollution, Nashik Municipal Corporation is suggested to device strategies to arrest further pollution of Godavari river and use of river water for drinking purpose after conventional treatment and disinfection.

Keywords

Godavari River, Water Quality, Pollution Status, Heavy Metals.

Full Text

Effect of Heavy Metals on Antioxidant Biomarker Enzymes and Biochemical Constituents in Different Tissues of Lamelleidens marginallis in Different Reservoirs of Nasik District

Abstract Views :164 | PDF Views:0

Authors

Rahane Balasaheb ¹, Resham Bhalla ²

Affiliations
1 Department of Zoology, Swami Muktanand College of Science, Yeola, District Nasik, Maharashtra, IN
2 Department of Zoology, LVH Arts, Science & Commerce College, Panchavati, Nasik-422003, Maharashtra, IN

Source

Nature Environment and Pollution Technology, Vol 17, No 1 (2018), Pagination: 183-188

Abstract

Heavy metals are known inducers of oxidative stress by directly producing reactive oxygen species (ROS), which leads to formation of LPO and modulate the activities of antioxidant enzymes and causes disturbances in metabolic functions. The modulation of antioxidant enzyme system like superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GPx), glutathione S-transferase (GST) and concentration of reduced glutathione (GSH) are reported. Accumulated heavy metals also cause conflict in metabolic functions, trigger detoxifying enzymes, and antioxidant system damage leads to oxidative stress and causes damage to protein and other biochemical constituents. In the present investigation, the heavy metals Zn, Cu, Pb and Cd were determined in surface water and the freshwater bivalve Lamellidens marginalis collected from Girna, Ozarkhed, Chankapur and Gangapur reservoirs of Nasik district during summer, monsoon and winter seasons to study their effect on the activity of antioxidant enzymes and biochemical constituents like protein and ascorbic acid in soft body tissues of the bivalve.

Keywords

Heavy Metals, Antioxidant Biormarkers, Biochemical Constituents, Lamellidens marginallis, Reservoirs.

Full Text

References

Aebi, H. 1984. Catalase in vitro. Methods in Enzymol., 105: 121126.

Abdullah, A.M., El-Mogy, M.A., Farid, N.M and El-Sharabasy, M.M. 2004. Purification and characterization of glutathione transferases from Bulinus trancatus. J. of Genetic Eng. and Biotechnol. NRC, 2: 73-87.

Aksoy, A., Demirezen, D. and Duman, F. 2005. Bioaccumulation, detection and analysisof heavy metal pollution in Sultan Marsh and its environment. Water Air and Soil Pollution, 164: 241-255.

Boran, M. and Altýnok, N. 2010. A Review of heavy metals in water, sediment and living organisms in the black sea. Turkish Journal of Fisheries and Aquatic Sciences, 10: 565-572.

Bouraoui, Z., Banni, M., Ghedira, J., Clerandeau, C., Narbonne, J.F. and Boussetta, H. 2009. Evaluation of enzymatic biomarkers and lipoperoxidation level in Hediste diversicolor exposed to copper and benzo[a]pyrene. Ecotoxicol. Environ. Saf., 72: 1893-1898.

Box, A., Sureda, A., Galgani, F., Pons, A. and Deudero, S. 2007. Assessment of environmental pollution at Balearic Islands applying oxidative stress biomarkers in the mussel Mytilus galloprovincialis. Comparative Biochemistry and Physiology, Part C, 146: 531-539.

Boyne, A.F. and Ellman, G.L. 1972. A methodology for analysis of tissue sulfhydryl components. Anal. Biochem., 46: 639-653.

Deshmukh, G.M. 2013. Biomonitoring of heavy metal pollution of jayakwadi reservoir at Paithan by using bivalves as bioindicators. Ph.D. Thesis submitted to Dr.B.A.M. University, Aurangabad, (M.S.) India.

Duman, F., Aksoy, A. and Demirezen, D. 2007. Seasonal variability of heavymetals in surface sediment of Lake Sapanca, Turkey. Environ. Monit. Assess., 133: 277-283.

Faria, M., Huertas, D., Soto, D.X., Grimalt, J.O., Catalan, J., Riva, M.C. and Barata, C. 2010. Contaminant accumulation and multibiomarker responses in field collected zebra mussels (Dreissena polymorpha) and crayfish (Procambarus clarkii), to evaluate toxicological effects of industrial hazardous dumps in the Ebro river (NE Spain). Chemosphere, 78: 232-240.

Habig, W.J., Babst, M.J. and Jacoby, W.J. 1974. Glutathione s-transferase the first step in mercapturic acid formation. JBC, 249: 7130.

Han, E.S., Muller, F.L., Pérez, V.I., Qi, W., Liang, H., Xi, L., Fu, C., Doyle, E., Hickey, M. and Cornell, J. et al. 2008. The in vivo gene expression signature of oxidative stress. Physiol. Genomics, 34: 112-126.

Hargrave, B.T., Phillips, G.A., Vass, W.P., Bruecker, P., Welch, H.E. and Siferd, T.D. 2000. Seasonality in bioaccumulation of organochlorines in lower trophic level Arctic marine biota. Environmental Science and Technology, 34(6): 980-987.

Hermes-Lima, M., Willmore, W.G. and Storey, K.B. 1995. Quantification of lipid peroxidation in tissue extracts based on Fe(III) xylenol orange complex formation. Free Radic. Biol. Med., 19: 271-280.

Huang, H., Wu, J.Y. and Wu, J.H. 2007. Heavy metal monitoring using bivalved shellfish from Zhejiang Coastal water, East China Sea. Environ. Monit. Assess., 129: 315-320.

Lee, B.G., Grimscom, S.B., Lee, J.S., Choi, H.J., Koh, C.H., Luoma, S.N. and Fisher, N.S. 2000. Influences of dietary uptake and reactive sulfides on metal bioavailability from aquatic sediments. Science, 287: 282-284.

Lowry, O.M., Rosenbroughty, N.J., Farr, A.L. and Randall, R.F. 1951. Protein estimation with folin phenol reagent. J. Biol. Chem., 193: 265-275.

Nawale, S.P. 2008. Synergistic effect of caffeine (1,3,7-trymethylxanthine) and ascorbic acid on heavy metal induced alterations in an experimental model, Lamellidens corrianus (Lea). Ph.D. Thesis, Dr. Babasaheb Ambedkar Marathwada University, Aurangabad (M.S.) India.

O’Brien, M.L., Cunningham, M.L., Spear, B.T. and Glauert, H.P. 2001. Effects of peroxisome proliferators on glutathione and glutathione-related enzymes in rats and hamsters. Toxicol. Appl. Pharmacol., 171: 27-37.

Ohkawa, H., Ohishi, N. and Yagi, K. 1979. Assay for lipid peroxidation in animal tissues by thiobarbituric acid reaction. Annals of Biochemistry, 95: 351-358.

Osman, A., Heuvel, H. and Noort, P. 2007. Differential responses of biomarkers in tissues of a freshwater mussel, Dreissena polymorpha, to the exposure of sediment extracts with different levels of contamination.

Journal of Applied Toxicology, 27: 51-59.

Petushok, N., Gabryelak, T., Palecz, D., Zavodnik, L., Varga, I.S. and Deer, K.A. 2002. Comparative study of the xenobiotic metabolising system in the digestive gland of the bivalve mollusc in different aquatic ecosystems and in aquaria experiments. Aquatic Toxicology, 61: 65-72.

Rigollet, V., Sfriso, A., Marcomini, A. and De Casabianca, M.L. 2004. Seasonal evolution of heavy metal concentrations in the surface sediments of two Mediterranean Zostera marina L. beds at Thau lagoon (France) and Venice lagoon (Italy). Bioresource Technology, 95: 159-167.

Roe, J.H. 1967. Method of Biochemical Analysis. Glick Interscience, New York, 5: 44-45.

Rotruck, J.T., Pope, A.L., Ganther, H.E., Swanson, A.B., Hafeman, D.G. and Hoekstra, W.G. 1973. Science, 179: 588-590.

Satyaparameshwar, K., Reddy, T.R. and Kumar, N.V. 2006. Effect of chromium on protein metabolism of freshwater mussel, Lamellidens marginalis. J. Environ. Biol., 27: 401-403.

Schwarzenbach, R.P., Egli, T., Hofstetter, T.B., von Gunten, U. and Wehrli, B. 2010. Global water pollution and human health. Annual Review of Environment and Resources, 35: 109-136.

Shariati, S.R.P., Bonakdarpour, B., Zare, N. and Ashtiani, F.Z. 2011. The effect of hydraulic retention time on the performance and fouling characteristics of membrane sequencing batch reactors used for the treatment of synthetic petroleum refinery wastewater. Bioresour. Technol., 102(17): 7692-7699.

Siddiqui, A.A., Lhingneilam, J., Keishing, M., Nabi, T. and Shaikh, S.A. 2010. Copper sulphate and its effect on protein in some vital organs of freshwater crab, Barylelphusa gureini. J. Aqua. Biol., 25(1): 171-176.

Sies, H. 1999. Glutathione and its role in cellular functions. Free Radic. Biol. Med., 27: 916-921.

Tsukamoto, H. 2002. Redox regulation of cytokine expression in Kupffer cells. Antiox Redox Signal, 4: 741-748.

Vasseur, P. and Cossu-Leguille, C. 2003. Biomarkers and community indices as complementary tools for environmental safety. Environment International, 28: 711-717.

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