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Impact of thermal power plant emissions on vegetation and soil

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Abstract

Studies were made to assess the impact of a thermal power plant located at Obra on vegetation and soil in surrounding areas. Pollutant concentration in the area gradually decreased along a belt in the prevailing wind direction and a gradient of structural and functional changes in plants and soil was observed. Natural vegetation in the area varied significantly at different sites and on the basis of plant responses can be classified as insensitive, intermediate and sensitive.

The effect of the power plant emissions on soil and eco-physiological characteristics such as pH, organic matter and N, P, K and S concentrations in soil; leaf injury symptoms, number and distribution of plant species; chlorophyll content in leaves, percentages of photosynthetically active leaf area; accumulation of N, P, K, and S in leaves etc. seemed to be a function of the pollutant gradient existing in the area. There was a relationship between plant responses and changes in the chemical factors of soil and plants due to pollution. This study indicates possible elimination of plant species, first the trees then the shrubs and lastly the herbs and grasses from the environs of the thermal power plant. The increase in soil acidity in the area may cause cation-anion imbalance and microbe population reduction to affect soil fertility.

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References

  • Auden, J. B.: 1933, in Memoires of G.S.I., LXII, Part II.

  • Basu, S.: 1965, The Gazetteer of India, Vol. I. The Central Gazetter Unit, Govt. of India, Publication Division, New Delhi.

    Google Scholar 

  • Bennett, J. H. and Hill, A. C.: 1973, J. Environ. Qual. 2, 526.

    Google Scholar 

  • Brennan, E. and Leone, I. A.: 1968, Phytopathology 58, 1661.

    Google Scholar 

  • Daines, R. H.: 1968, J. Occupational Med. 10, 516.

    Google Scholar 

  • De Cormis, L.: 1969, In: Proceedings of the First European Congress on the Influence of Air Pollution on Plants and Animals, Wageningen 1968, p. 75.

  • Dugger, W. M. and Ting, I. P.: 1970, Ann. Rev. Plant Physiol. 21, 215.

    Google Scholar 

  • Gilbert, O. L.: 1968, New Phytol. 67, 15.

    Google Scholar 

  • Guderian, R.: 1977, Air pollution. Phytotoxicity of Acidic Cases and Its Significance in Air Pollution Control, Springer Verlag Berlin, Heidelberg, New York, p. 122.

    Google Scholar 

  • Heck, W. W.: 1968, Ann. Rev. Phytopathol. 6, 165.

    Google Scholar 

  • Heck, W. W., Dunnig, J. H., and Hindawi, I. J.: 1965, J. Air Pollut. Comr. Assoc. 19, 331.

    Google Scholar 

  • Hill, A. C. and Bennett, J. H.: 1970, Atmos. Environ. 4, 341.

    Google Scholar 

  • Jackson, M. L.: 1958, Soil Chemical Analyses, Asia Publ. House, Bombay, p. 498.

  • Knabe, W.: 1976, Ambio. 5, 213.

    Google Scholar 

  • Maclachlan, S. and Zalik, S.: 1963, Can. J. Bot. 41, 1053.

    Google Scholar 

  • Miller, P. R. and McBride, J. R.: 1975, in J. B. Mudd and T. T. Kozlowski (eds.), Responses of plants to air pollution. Acad. Press Inc. New York. p. 195.

    Google Scholar 

  • Pahlich, E.: 1973, Planta 110, 267.

    Google Scholar 

  • Patterson, G. D. Jr.: 1958, in Colorimetric Determination of Non-metals. Inter. Sc. Publ. Inc. New York. p. 261.

    Google Scholar 

  • Piper, C. S.: 1966, Soil and Plant Analysis, Inter. Sc. Publ. Inc. New York. p. 368.

    Google Scholar 

  • Rao, D. N. and LeBlanc, F.: 1966, Bryologist 69, 69.

    Google Scholar 

  • Rao, D. N. and LeBlanc, F.: 1967, Bryologist 70, 69.

    Google Scholar 

  • Reuss, J. O.: 1976, Proc. 1st International Symposium on Acid Precipitation and the Forest Ecosystem. USDA Forest Service, General Technical Report. NE-23. p. 791.

  • Shukla, A. N.: 1976, ‘Fungal Decomposition of Sal Leaf Litter in Chakia Forest of Varanasi’. Ph. D. Thesis. Banaras Hindu University, Varanasi, India.

    Google Scholar 

  • Syratt, W. J. and Wanstall, P. J.: 1969, Air Pollut. Proc. Ear. Congr. Influence Air Pollution Plants and Animals, Wageningen, Netherlands. p. 79.

    Google Scholar 

  • Tamm, C. O.: 1976, Ambio. 5, 235.

    Google Scholar 

  • Thomas, M. D.: 1951, Ann. Rev. Plant Physiol. 2, 293.

    Google Scholar 

  • Thomas, M. D., Hendricks, R. H., and Hill, G. R.: 1950, Ind. Eng. Chem. 42, 2231.

    Google Scholar 

  • Woodwell, G. M.: 1970, Science 168, 429.

    Google Scholar 

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  1. School of Environmental Sciences, Jawaharlal Nehru University, 110067, New Delhi, India

    Sachchinda Nand Pandey

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  1. Sachchinda Nand Pandey
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Pandey, S.N. Impact of thermal power plant emissions on vegetation and soil. Water Air Soil Pollut 19, 87–100 (1983). https://doi.org/10.1007/BF00176798

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  • DOI: https://doi.org/10.1007/BF00176798

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