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Impact of Fly Ash on Soil Properties

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Abstract

Management of fly ash is a major environmental and economic concern for the coal fired power generators all over the world. Fly ash is rich in many macro and micro plant nutrients. Present study was conducted to evaluate the impact of fly ash incorporation on physico–chemical properties of soil for agricultural purposes. Pot culture experiments were conducted to find out the most suitable level of fly ash for soil amendment that can improve the fertility of soil leading to higher productivity of the test crop. 40% fly ash was found most suitable for growth and yield of test crop. The amended soil was analyzed for different physico–chemical properties. It was observed that fly ash altered the soil texture, decrease bulk density, increase water holding capacity, soil porosity, pH, electrical conductivity and organic carbon values of the soil. A marginal increase was also observed in the concentration of P, K, S, Fe, Zn, Mn, B, Ca and Mg elements in the fly ash amended soil. However, there was marked decrease in N content of the soil.

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References

  1. Mittra BN, Karmakar S, Swain DK, Ghosh BC (2003) Fly ash: a potential source of soil amendment and a component of integrated plant nutrient supply system. International Ash Utilization Symposium, 2003, October 20–22, Centre for Applied Energy Research, University of Kentucky

  2. Kumar V, Goswami G, Zacharia KA (1998) Fly ash use in agriculture: issues and concerns. Proceedings of International Conference on fly ash disposal and utilization, vol 1, January 20–22, FAM and CBIP, New Delhi

  3. Misra R (1968) Ecology workbook. Oxford and IBH Publishing Co., New Delhi

    Google Scholar 

  4. Jackson ML (1973) Soil chemical analysis. Prentice Hall of India Pvt. Ltd, New Delhi

    Google Scholar 

  5. Kalra N, Jain MC, Joshi HC, Choudhary R, Harit RC, Vatsa BK, Sharma SK, Kumar V (1998) Fly ash as a soil conditioner and fertilizer. Bioresour Technol 64(3):163–167

    Article  Google Scholar 

  6. Karmakar S, Mittra BN, Ghosh BC (2009) Influence of industrial solid wastes on soil-plant interactions in rice under acid lateritic soil. World of Coal Ash Conference, May 4–7, Lexington, KY, USA

  7. Fail JL Jr, Wochok ZS (1977) Soybean growth on fly ash amended strip mine spoils. Plant Soil 48:473–484

    Article  Google Scholar 

  8. Capp JP (1978) Power plant fly ash utilization for land reclamation in the eastern United States in reclamation of drastically disturbed lands. In: Schaller FW, Sutton P, (eds). Sol Sci Soc Am, Madison, WI, pp 339

  9. Sharma S (1989) Fly ash dynamics in soil water systems. Crit Rev Environ Control 19(3):251–275

    Article  Google Scholar 

  10. IIT Kharagpur (1999) Draft report of Fly Ash Mission sponsored project. Utilisation of Fly Ash and Organic Wastes in Restoration of Crop Land Ecosystem, submitted to Fly Ash Mission

  11. Chang AC, Lund LJ, Page AL, Worneke JE (1977) Physical properties of fly ash amended soils. J Environ Qual 6(3):267–270

    Article  Google Scholar 

  12. Page AL, Elseewi AA, Straughan IR (1979) Physical and chemical properties of fly ash from coal-fired power plants with special reference to environmental impacts. Residue Rev. 71:83–120

    Google Scholar 

  13. Page AL, Elseewi AA, Lund LJ, Bradford GR, Mattigod S, Chang AC, Bingham FT (1980) Consequences of trace element enrichment of soils and vegetation from the combustion of fuels used in power generation. University of California, Riverside, p 158

    Google Scholar 

  14. Yeledhalli NA, Prakash SS, Ravi MV, Narayanarao K (2008) Long-term effect of fly ash on crop yield and soil properties. Karnataka J Agric Sci 21(4):507–512

    Google Scholar 

  15. Adriano DC, Page L, Elseewi AA, Chang AC, Strunghan IR (1980) Utilization and disposal of fly ash and other coal residues in terrestrial ecosystems: a review. J Envrion Qual 9:333–344

    Article  Google Scholar 

  16. Aitken RL, Campbell DJ, Bell LC (1984) Properties of Australian fly ash relevant to their agronomic utilization. Aust J Soil Res 22:443–453

    Article  Google Scholar 

  17. Ghodrati M, Sims JL, Vasilas BL (1995) Evaluation of fly ash as a soil amendment for the Atlantic coastal plain: soil hydraulic properties and elemental leaching. J Water Soil Air Pollut 81:349–361

    Article  Google Scholar 

  18. Campbell DJ, Fox WE, Aitken RL, Bell LC (1983) Physical characteristics of sands amended with fly ash. Aust J Soil Res 2:147–154

    Article  Google Scholar 

  19. Brady NC, Well RR (1996) Architecture and physical properties. In: Carnis M (ed) The nature and properties of soils. Prentice Hall, Upper Saddle River, pp 99–141

    Google Scholar 

  20. Gangloff WJ, Ghodrati M, Sims JT, Vasilas BL (2000) Impact of fly ash amendment and incorporation method on hydraulic properties of a sandy soil. Water Air Soil Pollut 119:231–245

    Article  Google Scholar 

  21. Singh D, Kansal BD (1994) Changes in physico-chemical properties of soils on addition of flyash. In: Extended summaries. National Seminar on Developments in Soil Science organised by Indian Society of Soil Science, November 28th, December 1st, pp 202–203

  22. Punjab Agriculture University (1993) Utilization of fly ash in agriculture and revegetation of dumping sites. Annual Progress Report, 1993

  23. RRL, Bhopal (1999) Interim report of Fly Ash Mission sponsored Project. Long term effect of fly ash on soil fertility and crop yield, submitted to Fly Ash Mission

  24. Adriano DC, Weber JT (2001) Influence of fly ash on soil physical properties and turfgrass establishment. J Envrion Qual 30(2):596–601

    Article  Google Scholar 

  25. Hodgson L, Dyer D, Brown DA (1982) Neutralization and dissolution of high calcium fly ash. J Environ Qual 11:93–98

    Article  Google Scholar 

  26. Wong JWC, Wong MH (1990) Effects of fly ash on yield and elemental composition of two vegetables, Brassica parachinensis and B chinensis. Agric Ecosys Environ 30:251–264

    Article  Google Scholar 

  27. Kalra N, Joshi HC, Chaudhary A, Chaudhary R, Sharma SK (1997) Impact of fly ash incorporation in soil on germination of crops. Bioresour Technol 61:39–41

    Article  Google Scholar 

  28. Kumar V, Zacharia KA, Goswami G (2000) Fly ash use in agriculture: a perspective. In: Proceeding of 2nd International Conference on Fly ash disposal and Utilization, vol I, February 2–4, FAM and CBIP, New Delhi

  29. Elseewi AA, Bingham FT, Page AL (1978a) Availability of sulphur in fly ash to plants. J Environ Qual 7:69–73

    Article  Google Scholar 

  30. Elseewi AA, Bingham FT, Page AL (1978b) Growth and mineral composition of lettuce and Swiss chard grown on fly ash amended soils. In: Adriano DC, Brisbin IL (eds). Environmental chemistry and cycling processes. Conf-760429, US Department of Commerce, Springfield

  31. Phung HT, Lund LJ, Page AL (1978) Potential use of fly ash as a liming material. In: Adraino DC, Brisbin IL (eds). Environmental chemistry and cycling processes. Conf-760429, US Department of Commerce, Springfield

  32. Jastrow JD, Zimmerman CA, Dvorak AJ, Hinchman RR (1979) Comparison of lime and fly ash as amendments acidic coal mine. Refuse growth responses and trace elements uptake of two grasses. Argonne National Laboratory, Argonne, p 43

    Google Scholar 

  33. Gupta DK, Rai UN, Tripathi RD, Inouhe M (2002) Impacts of fly ash on soil and plant responses. J Plant Res 115:401–409

    Article  Google Scholar 

  34. Hodgson DR, Holliday R (1966) The agronomic properties of pulverized fuel ash. Chem Ind 20:785–790

    Google Scholar 

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Acknowledgments

The authors are highly thankful to the National capital power plant, Dadri (Gautam Budh Nagar) for supplying fly ash for the present study.

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Authors and Affiliations

  1. Department of Botany, Agra College, Agra, 282001, India

    Ashish Tejasvi

  2. Department of Botany, Kisan P.G. College, Simbhaoli, 245207, India

    Sudhir Kumar

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  1. Ashish Tejasvi
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  2. Sudhir Kumar
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Correspondence to Ashish Tejasvi.

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Tejasvi, A., Kumar, S. Impact of Fly Ash on Soil Properties. Natl. Acad. Sci. Lett. 35, 13–16 (2012). https://doi.org/10.1007/s40009-011-0002-x

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