Roadside Plants as Bio-indicators of Urban Air Pollution

Authors

  • Dr. J. R. Mulay  Department of Botany New Arts, Commerce & Science College, Ahmednagar, India

DOI:

https://doi.org/10.32628/IJSRST1207482

Keywords:

APTI, chlorophyll, ascorbic acid, relative water content, Bougainvillea spectabilis

Abstract

This paper describes air pollution tolerance among roadside plants exposed to varying degrees of vehicular pollutants. Evaluation of air pollution tolerance index (APTI) of 10 selected wild plant species was carried out to assess their response to ambient levels of air pollutants along the busy roadways of Ahemadnagar Four parameters namely total chlorophyll, ascorbic acid, pH of leaf extract and relative water content were determined and computed together to signify air pollution tolerance index (APTI) of plants. The observed significant reduction in total chlorophyll, ascorbic acid and relative water content showed inverse relationship with traffic density. Similarly, pH of leaf extract followed an exponential decrease with increase in traffic density and drifted towards acidic range. Comparison of APTI values from control to polluted sites revealed maximum reduction in Bougainvillea spectabilis while least change was noted in Peltophorum pterocarpum. Among the plants studied maximum net per cent reduction of APTI over control was seen in Bougainvillea spectabilis and Ageratum conyzoides and are considered to be sensitive species. While Peltophorum pterocarpum and Portulaca oleraceae are tolerant species since they have shown least per cent reduction in APTI.

References

  1. M. Agrawal, Effects of air pollution on agriculture: An issue of national concern, National Academy Science Letter, 28, 2005, 93-106.
  2. S.R.K. Varshney, and C.K. Varshney, Response of peroxidase to low levels of SO2, Environmental and Experimental Botany, 25, 1985, 107-114.
  3. A. Rai, K. Kulshreshtha, P.K. Srivastava, and C.S. Mohanty, Leaf surface structure alterations due to particulate pollution in some common plants, Environmentalist, 30, 2009, 18-23.
  4. A.K. Dwivedi, and B.D. Tripathi, Pollution tolerance and distribution pattern of plants in surrounding area of coal-fired industries, Journal of Environmental Biology, 28(2), 2007, 257-263.
  5. A.K. Tripathi, and M. Gautam, Biochemical parameters of plant as indicators of air pollution, Journal of Environmental Biology, 28(1), 2007, 127-132.
  6. S.R. Oliva, B.V. Castrillon, M. Dolores, and M. Alvarez, Nerium oleander as a means to monitor and minimize the effects of pollution, Bocconea, 21, 2007, 379-384.
  7. S.K. Singh, and D.N. Rao, Evaluation of the plants for their tolerance to air pollution, Proceedings symposium on air pollution control held at IIT, Delhi, 1983, 218-224.
  8. S.K. Singh, D.N. Rao, M. Agrawal, J. Pandey, and Narayan, Air pollution tolerance index of plants, Journal of Environmental Management, 32, 1991, 45-55.
  9. S.H. Raza, and M.S.R. Murthy,Air pollution tolerance index of certain plants of Nacharam industrial area, Hyderabed, Indian Journal of Botany, 11(1), 1988, 91-95.
  10. D.I. Arnon, Copper enzyme in isolated chloroplasts, polyphenoloxidase in Beta vulgaris, Plant Physiology, 24, 1949, 1-15.
  11. B. Aberg, Ascorbic acid, in W.Ruhland (Ed.), Encyclopedia of Plant Physiology, 6, (New York: Springer-Berlin-Heidelberg,1958) 479-499.
  12. A. Singh, Practical plant Physiology (New Delhi: Kalyani Publishers, 1977).
  13. F. LeBlanc, and D.N. Rao, Reaction of several lichens and Epiphytic mosses to sulfur dioxide in Sudbury, Ontario, Bryologist, 69, 1966, 338-346.
  14. H. Ramakrishnaiah, and R.K. Somashekar, Higher plants as biomonitors of automobile pollution, Ecology, Environment and Conservation, 9(3), 2003, 337-343.
  15. J.S. Jyothi, and Jaya, Evaluation of air pollution tolerance index of selected plant species along roadsides in Thiruvananthapuram, Kerala, Journal of Environmental Biology, 31, 2010, 379-386.
  16. W. Dedio, Water Relations in wheat leaves as screening test for drought resistance, Canadian journal of Plant Sciences, 55, 1975, 369-378.
  17. A. Swami, D. Bhatt, and P.C. Joshi, Effects of automobile pollution on sal (Shorearobusta) and rohini (Mallotusphillipinensis) at Asarori, Dehradun, Himalayan Journal of Environment and Zoology, 18(1), 2004, 57-61.
  18. S.S. Malhotra, and A.A. Khan, Biochemical and biophysical impact of major pollutants, in Treshow M. (Ed.) Air pollution and plant life (New York: John Wiley and Sons, 1984) 113-157.
  19. AvnishChauhan, Tree as bio-indicator of automobile pollution in Dehradun city: a case study, New York science journal, 3(6), 2010, 88-95.
  20. P.O. Agbaire, Air pollution tolerance indices (APTI) of some plants around Erhoike-Kokori oil exploration site of Delta State, Nigeria, International Journal of Physical Sciences, 4(6), 2009, 366-368.
  21. P. Suvarna Lakshmi, K. LalithaSravanti, and N. Srinivas, Air pollution tolerance index of various plant species growing in industrial area, The Ecoscan, 2(2), 2008, 203-206.
  22. Abida Begum, and S. Harikrishna, Evaluation of some tree species to absorb air pollutants in three industrial locations of south Bengaluru, India, E-journal of chemistry, 7(S1), 2010, 151-156.
  23. D. SaralaThambavani, and M.A. Sabitha, Variation in air pollution tolerance index and anticipated performance index of plants near a sugar factory: implications for landscape-plant species selection for industrial areas,Journal of research in biology,1(7), 2011, 494-502

International Journal of Scientific Research in Science and Technology

Downloads

Published

2020-08-30

Issue

Volume 7, Issue 4, July-August-2020

Section

Research Articles

License

Copyright (c) IJSRST

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
Dr. J. R. Mulay "Roadside Plants as Bio-indicators of Urban Air Pollution" International Journal of Scientific Research in Science and Technology(IJSRST), Online ISSN : 2395-602X, Print ISSN : 2395-6011,Volume 7, Issue 4, pp.321-326, July-August-2020. Available at doi : https://doi.org/10.32628/IJSRST1207482