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Impact of Tanning Industries on Groundwater Quality near a Metropolitan City in India

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Abstract

The present study was carried out with the objective of determining the extent of groundwater pollution caused by tanning industries in Chromepet area located south of Chennai, Tamil Nadu, India. Groundwater samples were collected during January and March 2008 from 36 wells and were analysed for the concentration of various major ions and chromium. Na-Cl was the dominant water type found in this area. Groundwater in this area is not suitable for drinking as it contains elevated concentration of most major ions and chromium. This is due to the recharge of partially treated effluent discharged by tanning industries into open drains. The concentration of chromium was above the permissible limit (0.05 mg/l) in 86% of the groundwater samples. The use of chemicals, such as sodium chloride, sodium sulphate, chromium sulphate etc. during the tanning processes is the major reason for the high concentration of major ions and chromium in groundwater. Hence it is important to regulate the industries and also take measures to reduce the total dissolved solids in the treated effluent before disposal. The groundwater quality of this region can also be improved by adopting rainwater harvesting thereby increasing groundwater recharge.

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References

  • Altaf MM, Masood F, Malik A (2008) Impact of long-term application of treated tannery effluents on the emergence of resistance traits in Rhizobium sp. isolated from Trifolium alexandrinum. Turk J Biol 32:1–8

    Google Scholar 

  • Anderson RA (1999) Chromium as an essential nutrient. The chromium file no. 6. International chromium development association. http://www.icdachromium.com/pdf/publications/crfile6sep99.htm. Accessed 18 October 2010

  • APHA (1985) Standard methods for the examination of water and wastewater, 16th edn. APHA, Washington DC, pp 1–50

    Google Scholar 

  • Assaf H, Saadeh M (2009) Geostatistical assessment of groundwater nitrate contamination with reflection on DRASTIC vulnerability assessment: the case of the Upper Litani Basin, Lebanon. Water Resour Manag 23(4):775–796

    Article  Google Scholar 

  • Belay AA (2010) Impacts of chromium from tannery effluent and evaluation of alternate treatment options. J Environ Protect 1:53–58

    Article  Google Scholar 

  • Bhattacharya S (2004) Pallavaram colony residents complain of water contamination. The Hindu. http://www.hinduonnet.com/thehindu/2004/05/21/stories/2004052111880300.htm. Accessed 13 October 2010

  • BIS (Bureau of Indian Standards) (1993) Indian Standard Drinking Water- Specification (First Revision), IS 10500: 1991, 1–8.

  • Cabeza LF, Taylor MM, DiMaio GL, Brown EM, Marmer WN, Carrio R, Celma PJ, Cot J (1998) Processing of leather waste: pilot scale studies on chrome shavings. Isolation of potentially valuable protein products and chromium. Waste Manag 8:211–218

    Article  Google Scholar 

  • CLRI (Central Leather Research Institute) (2008) Separation of chromium form chrome shavings to minimize the disposal problem of hazardous solid waste. www.cpcb.nic.in/oldwebsite/New%20Item/chromium/CLRI.doc. Accessed 18 October 2010

  • Davis SN, DeWiest RJM (1966) Hydrogeology. Wiley, New York, 463

    Google Scholar 

  • Dawoud MA, Raouf ARA (2009) Groundwater exploration and assessment in rural communities of Yobe State, Northern Nigeria. Water Resour Manag 23(3):581–601

    Article  Google Scholar 

  • Elango L, Manickam S (1986) Groundwater quality of Madras aquifer: a study on Panjetti-Ponneri-Minjur area. Indian Geogr J 61:41–49

    Google Scholar 

  • Elango L, Manickam S (1987) Hydrogeochemistry of the Madras aquifer, India - Spatial and temporal variation in chemical quality of groundwater. Geol Soc Hong Kong Bull 3:525–534

    Google Scholar 

  • Expósito JL, Esteller MV, Paredes J, Rico C, Franco R (2010) Groundwater protection using vulnerability maps and wellhead protection area (WHPA): a case study in Mexico. Water Resour Manag 24(15):4219–4236

    Article  Google Scholar 

  • Floqi T, Vezi D, Malollari I (2007) Identification and evaluation of water pollution from Albanian tanneries. Desalination 213:56–64

    Article  Google Scholar 

  • Freeze RA, Cherry JA (1979) Groundwater. Prentice Hall Inc, Englewood Cliffs, 604

    Google Scholar 

  • Giridharan L, Venugopal T, Jayaprakash M (2008) Evaluation of the seasonal variation on the geochemical parameters and quality assessment of the groundwater in the proximity of River Cooum, Chennai, India. Environ Monit Assess 143:161–178

    Article  Google Scholar 

  • Giridharan L, Venugopal T, Jayaprakash M (2009) Assessment of water quality using chemometric tools: a case study of River Cooum, South India. Arch Environ Contam Toxicol 56:654–669

    Article  Google Scholar 

  • Govil PK, Reddy GLN, Krishna AK, Seshu CLVNS, Satya Priya V, Sujatha D (2004) Inventorization of contaminated sites in India, NGRI technical report no: NGRI-2004-EG-421, 54–66

  • Govindasamy P, Madhavan S, Revathi S, Shanmugam P (2006) Performance evaluation of common effluent treatment plant for tanneries at Pallavaram CEPT. J Environ Sci Eng 48(3):213–220

    Google Scholar 

  • Gowd SS, Govil PK (2008) Distriburtion of heavy metals in surface water of Ranipet industrial area in Tamil Nadu, India. Environ Monit Assess 136:197–207

    Article  Google Scholar 

  • Gowd SS, Krishna AK, Govil PK (2005) Environmental risk assessment and remediation of soils contaminated due to waste disposal from tannery industries: a case study of Ranipet industrial area, Tamil Nadu, India. Geochimica et Cosmochimica Acta 69(10)1:A 427

  • Jha MK, Chikamori K, Kamii Y, Yamasaki Y (1999) Field investigations for sustainable groundwater utilization in the Konan Basin. Water Resour Manag 13(6):443–470

    Article  Google Scholar 

  • Jha MK, Chowdhury A, Chowdary VM, Peiffer S (2007) Groundwater management and development by integrated remote sensing and geographic information systems: prospects and constraints. Water Resour Manag 21(2):427–467

    Article  Google Scholar 

  • Kumar AR, Riyazuddin P (2010) Chromium speciation in groundwater of a tannery polluted area of Chennai city, India. Environ Monit Assess 160:579–591

    Article  Google Scholar 

  • Kumaresan M, Riyazuddin P (2006) Major ion chemistry of environmental samples around sub-urban of Chennai city. Curr Sci 91(12):1668–1677

    Google Scholar 

  • Machiwal D, Jha MK, Mal BC (2011) Assessment of groundwater potential in a semi-arid region of India using remote sensing, GIS and MCDM techniques. Water Resour Manag 25(5):1359–1386

    Article  Google Scholar 

  • Mohapatra SP, Mitchell A (2009) Groundwater demand management in the Great Lakes Basin—directions for new policies. Water Resour Manag 23(3):457–475

    Article  Google Scholar 

  • Mondal NC, Saxena VK, Singh VS (2005) Assessment of groundwater pollution due to tannery industries in and around Dindigul, Tamilnadu, India. Environ Geol 48:149–157

    Article  Google Scholar 

  • Ramesh R (1999) Groundwater quality management: pollution perspectives impacts of urban growth on surface water and groundwater quality (Proceedings of IUGG 99 Symposium HS5, Birmingham, July 1999). IAHS Publ. no. 259, 47–55

  • Ramesh R, Kumar KS, Eswaramoorthi S, Purvaja GR (1995) Migration and contamination of major and trace elements in groundwater of Madras City, India. Environ Geol 25:126–136

    Article  Google Scholar 

  • Rao VVSG, Thangarajan M (1999) Groundwater pollution due to discharge of tannery effluents in upper Palar basin, Tamiladu, India: an assessment through mass transport modeling. Environ Engg and Policy 1:208–210

    Google Scholar 

  • Ravichandran K (2009) Ground water pollution in Tamil Nadu. Proceedings of regional workshop on water quality and water use efficiency issues in Tamil Nadu. 1–12.

  • Rejani R, Jha MK, Panda SN (2009) Simulation-optimization modelling for sustainable groundwater management in a Coastal Basin of Orissa, India. Water Resour Manag 23(2):235–263

    Article  Google Scholar 

  • Sawyer CN, McCarty DL (1967) Chemistry of sanitary engineers, 2nd edn. McGraw-Hill, New York, 518

    Google Scholar 

  • Sekaran G, Shanmugasundaram KA, Mariappan M (1998) Characterization and utilization of buffing dust generated by the leather industry. J Hazard Mater 63:53–68

    Article  Google Scholar 

  • Somasundaram MV, Ravindran G, Tellam JH (1993) Ground-water pollution of the Madras urban aquifer, India. Ground Water 31:4–11

    Article  Google Scholar 

  • Soyaslan II, Karagüzel R (2008) Investigation of water pollution in the Yalvac basin into Egirdir Lake, Turkey. Environ Geol 55:1263–1268

    Article  Google Scholar 

  • Venugopal T, Giridharan L, Jayaprakash M (2008) Groundwater quality assessment using chemometric analysis in the Adyar River, South India. Arch Environ Contam Toxicol 55:180–190

    Article  Google Scholar 

  • WHO (World Health Organization) (1984) Guideline of drinking quality. WHO, Washington DC, pp 333–335

    Google Scholar 

  • Zahid A, Balke AD, Hassan MQ, Flegr M (2006) Evaluation of aquifer environment under Hazaribagh leather processing zone of Dhaka city. Environ Geol 50:495–504

    Article  Google Scholar 

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Acknowledgment

The analytical facilities created through support from DST-FIST (Department of Science and Technology-Funds for Improvement in Science and Technology) (Grant No. SR/FST/ESI-106/2010) and UGC-SAP (University Grants Commission-Special Assistance Programme) (Grant No. UGC DRS II F.550/10/DRS/2007(SAP-1)) are gratefully acknowledged.

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  1. Department of Geology, Anna University, Chennai, Tamil Nadu, India

    K. Brindha & L. Elango

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  1. K. Brindha
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  2. L. Elango
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Correspondence to L. Elango.

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Brindha, K., Elango, L. Impact of Tanning Industries on Groundwater Quality near a Metropolitan City in India. Water Resour Manage 26, 1747–1761 (2012). https://doi.org/10.1007/s11269-012-9985-4

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