Summary
This study describes the atmospheric mercury (Hg) emissions from industrial sources in India for the years 2000 to 2004. In India emission inventories of Hg and other trace elements from anthropogenic sources have been largely neglected, although the GDP (Gross Domestic Products growth) has touched 9.6% at the beginning of the 21st century. In coal production India is the third largest in the world, whereas Indian cement and brick production have reached second place in the world. With increased industrial development, acute pollution problems have been identified in the subcontinent. There is no consistent earlier information for Hg emissions to the environment for any sectors of industry. This paper may be the first road map in which we have tried to find out the total emission of Hg from a wide range of sources, e.g. from coal combustion to clinical thermometers broken during production or packing. There is a lack of basic data and in an attempt to correct this, emission factors suitable for Asian countries have been selected to complete this study. Before this document, there were some efforts in Europe to develop emission inventories for Hg from coal combustion or chlor-alkali plants for India. In this study it was found that total atmospheric emission from industrial sources has decreased from 321 Mg in 2000 to 253 Mg in 2004 due to a switch for the membrane cell process in the chlor-alkali industry. In 2004 the largest part of the Hg emissions stemmed from coal combustion in thermal power plants. Hg-cell technology had been used earlier in chlorine and sodium hydroxide production, as a result of which Hg concentration in terrestrial and aquatic species are nowadays quite high in coastal areas. India can thus be referred to as a mercury “hot spot”. We have received limited information on emissions of Hg from industrial sources in India. Estimates are based on emission factors and the values taken from the literature. Against a background of limited data and information, this paper gives an overview of Hg emissions in India and of the recent steps undertaken by authorities to curb the emissions of Hg and its subsequent trans-boundary movement in the global environment.
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4.12 References
AMA (Alkali Manufactures Association) 2007. http://www.ama-india.org/
Banic, C.M., Beauchamp, S.T., Tordon, R.J., Schroeder, W.H., Steffen, A., Anlauf, K.A., Wong, H.K.T. 2003. Vertical dstribution of gaseous elemental mercury in Canada. J Geophys. Res. 108, ACH 61 – 613.
Bhatt, B.P., Sachan, M.S. 2004. Firewood consumption along an altitudinal gradiant in mountain village of India. Biomass and Bioenergy 27, 69 – 75.
BHEL. 2004. Report No. PCI/001/2004 “Assessment and development of environmental standards of heavy metals and trace elements emissions from coal based thermal power plant. Pollution control Research Institute, Bharat Heavy Electricals., Haridwar, India.
Choi, Y.J. 2003. Recent development in India's IT industry and its implications. KIEP Publications, Seoul, Korea, 73 pp.
CPCB, 2000. Status of municipical solid waste generation collection and disposal in Class 1-cities. Central Pollution Control Board, Ministry of Environment & Forests, new Delhi.India
CSE (Center for Science and Environment), 2005. The mercurial menace. CSE, Delhi 3 (3), 1-11.
Das, D., Srinivasu, M. and Bandyopadhyay, M. 1998. Solid state acidification of vegetable waste. Indian Journal of Environmental Health 40(4): 333 – 342.
Downs, S.G., Macleod, C.L. and Lester, J.N. 1998. Mercury in precipitation and its relation to bioaccumulation in fish: A literature review. Water, Air, & Soil Pollut. J. 108 (1-2), 149 – 187.
Drasch, G., Horvart, M., Stoeppler, M. 2004. Mercury. In: Merian E., Anke, M., Ihnat, M., Stoeppler, M. (eds.) Elements and their compounds in the environment. 2nd ed., Wiley-VCH, Weinheim, 931 – 1005.
Dvonch, J.T., Graney, J.R., Marsik, F.J., Keeler, G.J., Stevens, R.K. 1998. An investigation of source-receptor relationships for mercury in South Florida using event precipitation data. Sci. Total Environ. 213, 95 – 108.
Ebinghaus, R., Kock, H.H., Temme, C., Einax, J.W. et al. 2002. Antarctic Springtime Depletion of Atmospheric Mercury. Environ. Sci. Technol. 36, 1238 – 1244.
EPTRI 1995. Status of solid waste disposal in metropolis Hyderabad. Environment Protection, Training & Research Institute.
Feng, X., Li, G., Qiu, G. 2004. A preliminary study of mercury contaminations to the environment from artisanal zinc smelting using indigenous method in Hezhang county, Guizhou, China. Part 1 mercury emissions from zinc smelting and its influences on the surface water. Atmospheric Environ. 38, 6223 – 6230.
Friedli, H.R., Arellano, A. F., Jr., Cinnirella, S., Pirrone, N. 2008. Mercury emissions from global biomass burning: Spatial and temporal distribution. In: Mercury fate and transport in the global atmosphere: Measurements, models and policy implications (Pirrone N. and Mason, R. Eds.) UNEP, Chapter 8.
Garg, A., Shukla, P.R. and Kapshe, M. 2006. The sectoral trends of multi gas emissions inventory of India. Atmos. Environ. 40, 4608 – 4620.
GOI, 2006. Coal directory of India, Part 1b, Coal Statistics, Ministry of Coal Controllers Organization, Kolkata, p. VII 5, IV6.
Gustin, M.S., Biester, H. and Kim, C.S. 2002. Investigation of the light-enhanced emission of mercury from naturally enriched substances. Atmos. Environ. 36, 3241 – 3254.
Hylander, L.D., Meili, M. 2003. 500 years of mercury production: global annual inventory by region until 2000 and associated emissions. Sci. Total Environ. 304 (1 – 3), 13 – 27.
Jaffe, D., Prestbo, E., Swartzendruber, P., Weiss-Penzias, P., et al. 2005. Export of atmospheric mercury from Asia. Atmos. Environ. 39, 3029 – 3038.
Kabata-Pendias, A., Pendias, H. 2001. Trace elements in soils and plants. 3rd Ed., CRC Press, Boka Raton, FL.
Karunasagar, D., Balaram Krishna, M.V., Anjaneyulu, Y. and Arunachalam, J. 2006. Studies of mercury pollution in a lake due to thermometer factory situated in a tourist resort: Kodaikkanal, India. Environ. Pollut. 143: 153 – 158.
Kolker, A., Senior, C.L. and Quick, J.C. 2006. mercury in coal and the impact of coal quality on mercury emissions from combustion systems. Appl. geochem. 21, 1821 – 1836.
Kumar, P.B.A.N., Dushenkov, V., Motto, H. and Raskin, I. 1995. Phytoextraction: The use of plants to remove heavy metals from soils. Environ. Sci. Technol. 29, 1778 – 1783.
Li, G., 2007. Mercury emission from Zink Smelting in China and environmental impacts. PhD theses, Institute of Geochemistry, Chinese Academy of Sciences, 1 – 110.
Lindberg, S., Bullock, R., Ebinghaus, R. et. al. 2007. A synthesis of progress and uncertainties attributing the sources of mercury in deposition. Ambio 36 (1), 19 – 32.
Lindqvist, O., Johansson, K., Aastrup, M., Andersson, A., Bringmark, L., Hovesenius, G., Hakonson, L., Iverfeldt, A. et al. 1991. Mercury in the Swedish environment: Recent research on causes, consequences and corrective methods. Water, Air & Soil Pollution, 55, 261 pp.
Loewen, M., Subodh, S., Gregg, T., Feiyue, B., Frank, W. (2005) Persistent organic pollutants and mercury in the Himalaya. Aquatic Ecosystem Health & Management, 8 (3), 223 - 233.
Maithel, S., Uma, R. 2000. Environmental regulations and the Indian Brick Industry. Environ. Practice 2 (3), 230 – 231
Mine Closure 2005. 2nd Indo-US Coal Working Group Meeting, Washington, November 2005.
Mukherjee, A.B., Melanen, M., Ekqvist, M., Verta, M. 2000. Assessment of atmospheric mercury emissions in Finland. Sci Total Environ 259, 73 – 83.
Mukherjee, A.B., Zevenhoven, R. 2006. Mercury in coal ash and its fate in the Indian subcontinent: A synoptic review. Sci. Tot. Environ. 368, 323 – 334.
Mukherjee, A.B., Zevenhoven, R., Bhattacharya, P., Sajwan, K.S. and Kikuchi, R. 2008. Mercury flow via coal and coal utilization by-products: A global perspective. Res., Conserv. Recycl. 52, 571 – 591.
Munthe, J., Kindbom, K., Kruger, O., Peterson, G., Pacyna, J. and Iverfeldt, Å. 2001. Examining source-receptor relationships for mercury in Scandinavia. Water, Air, Soil Pollut. Focus 1, 99 – 110.
Nriagu, J.O. and Pacyna, J.M. 1988. Quantitative assessment of worldwide contamination of air, water and soils by trace metals. Nature 333, 134 – 139.
Pacyna, E.G., Pacyna, J.M. 2000. Global emission of mercury from anthropogenic sources in 1995. Water, Air, Soil, Pollut. 137 (1-4), 149 – 165.
Pacyna, J.M., Pacyna, E.G. 2001. Assessment of global and regional emissions of trace metals to the atmosphere from anthropogenic sources worldwide. Environ. Rev., 9(4), 269 - 298.
Pacyna, J.M., Pacyna, E.G. 2002. Global emission of mercury from anthropogenic sources in 1995. Water, Air, Soil Pollut. 137, 149 – 165.
Pacyna, J.M., Pacyna, E.G., Steenhuisen, F., Wilson, S. 2003. Mapping 1995 global anthropogenic emissions of mercury. Atmos Environ 37-S, 109 – 117.
Pacyna, E.G., Pacyna, J.M., Fudala, J. et al. 2006a. Mercury emissions to the atmosphere from anthropogenic sources in Europe in 2000 and their scenarios until 2020. Sci. Total Environ., 370, 147 – 156.
Pacyna, E.G., Pacyna, J.M., Steenhuisen, F., Wilson, S. 2006b. Global anthropogenic mercury emission inventory for 2000. Atmos. Environ. 40, 4048 – 4063.
Pandey, G.K. 2006. Initiatives taken for estimation and control of mercury from various sources in India. Ministry of Environment & Forests, Government of India, New Delhi. Paper presented in BAQ (Better Air Quality) 2006, Indonesia.
Patel, K.S. 2003. Health impacts of mercury cycling in contaminated environment of central India.
Pirrone, N., Keeler, G.J. and Nriagu, J.O. 1996. Regional differences in worldwide emissions of mercury to the atmosphere. Atmos. Environ. 30(17), 2981 – 2987.
Pirrone, N., Allegrini, I., Keeler, G.J., Nriagu, J.O., Rossmann, R., Robbins, J.A. 1998. Historical atmospheric mercury emissions and depositions in North America compared to mercury accumulations in secondary records. Atmos. Environ. 32 , 929 – 940.
Pirrone, N. and Mahaffey, K.R. (eds.) 2005. Dynamics of mercury pollution in regional and global scale: Atmospheric process and Human Exposures around the World. Springer-Verlag, New York, 748 pp.
Qi, X.F., Lin, Y.H., Chen, J.H. 2000. An evaluation of mercury emissions from the chlo-alkali industry in China. J Environ Sci-China, 12, 24 – 30 (Sup.)
Reddy, M.S., Venkataraman, C. 2002. A 0.25° X 0.25° inventory aerosol and sulfur dioxide emissions from India: II. Biomass combustion. Atmos Environ 36, 699 – 712.
Rohde, H. 1996. Plenary Season Speech., 4th International Conference on Mercury as a Global Pollutant, Hamburg, September 1996.
Rohde, H. 1996. Plenary Season Speech: The global mercury cycle – how large is the human impact ? 4th International Conference on Mercury as a Global Pollutant. Congress Center Hamburg, Germany, Aug 4 – 8, 1996, p. 2.
Sarkar, A. 2007. E-waste in India: Environmental health perspective and possible actions. In: Rajeshwari, K.V., Basu, S. & Johri, R. (eds.) Tackling E-waste: towards efficient management techniques. TERI Press, New Delhi, India, 19 – 34.
Senior, C., Saroflim, A., Eddings, E. 2003. Behavior and measurement of mercury in cement kilns. Presented in: IEEE-IAS/PCA 45th Cement Industry Technical Conference, May 2003, Dallas, Texas 233 – 248.
Sharholy, M., Ahmed, K., Vaishya, R.C., Gupta, R.D. 2007. Municipal solid waste characteristics and management in Allahabad, India. Waste Management 27: 490 – 496.
Singhal, S. and Pandey, S. 2001 Solid waste management in India: Status and future directions. TERI Information Monitor on Environmental Science. 6(1), 1 – 4.
Sinha, R.K., Sinha, S.K., Kedia, D.K., Kumar, A., Rani, N., Sharma, G., Prasad, K. 2007. A holistic study on mercury pollution in the Ganga River system at Varanasi, India. Current Science 92 (9), 1223 – 1228
Srivastava, R.C. 2003. Guidance and awareness raising materials under the UNEP Mercury Program (Indian Scenario), UN Chemicals.
Streets, D.G., Bond, T.C., Carmichael, G.R., Fernandes, S.D., Fu, Q., He, D. et al. 2003. An inventory of gaseous and primary aerosol emissions in Asia in the year 2000. J. Geophys. Res., 108(D21), 8809.
Subramianium, V., Madhavan, N., Saxena, R. and Lundin, L.C. 2003. Nature of distribution of mercury in the sediments of the River Yamuna (tributary of the Ganges), India. J. Environ. Monit., 5, 427 – 434.
Sunderland, E.M., Chmura, G.L. 2000. The history of mercury emission from fuel combustion in Maritine Canada. Environ Pollut 110, 297 – 306.
UN ECE 2000. Joint EMEP/CORINAIR atmospheric emission inventory guidebook. Geneva, Switzerland. The United Nations Economic Commissions for Europe, 2000.
UNEP, 2002. Global mercury assessment, (United Nations Environmental Programme – Chemicals), Geneva, Switzerland.
UNEP, 2005. Toolkit for identification and qualification of Hg release.
USEPA 1997. Mercury study report, Vol II, (U.S. Environmental Protection Agency) EPA-452/R – 97 – 004, Washington, DC.
Veiga, M.M., Meech, J.A. 1994. Mercury pollution from deforestation. Nature 368, 816 – 817.
Venkataraman, C., Habib, G., Kadamba, D., Shrivastava, M., Leon, J.-F., Crouzile, B., Boucher, O., Streets, D.G. 2006. Emissions from open biomass burning in India: Integrating the inventory approach with high-resolution Moderate Resolution Imaging Spectroradiometer (MODIS) active-fire and land cover data. Global Biogeochemical Cycles, 20, GB2013, 1 – 12.
Visvanathan, C. 2006. Medical waste management issues in Asia. Presented in the International Conf “Asia 3R Conference”, 30 October – 1 November, 2006, Tokyo, Japan.
WCC 2007. Chloralkali partnership data – 2006, World Chlorine Council Bruxelles
Weiss-Penzias, P., Prestbo, E.M. and Landis, M.S. 2003. Gaseous elemental mercury in marine boundary layer: Evidence for rapid removal in anthropogenic pollution. Environ. Sci. Techno. 37, 3755 – 3763.
Wong, Coby, S.C., Duzgoren-Aydin, N.S., Aydin, A. and Wong, M.H. 2006. Sources and trends of environmental mercury emissions in Asia. Sci. Total Environ. 368, 649 – 662.
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Mukherjee, A.B., Bhattacharya, P., Sarkar, A., Zevenhoven, R. (2009). Mercury emissions from industrial sources in India and its effects in the environment. In: Mason, R., Pirrone, N. (eds) Mercury Fate and Transport in the Global Atmosphere. Springer, Boston, MA. https://doi.org/10.1007/978-0-387-93958-2_4
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