Authors
1
School for Environmental Sciences, Babasaheb Bhimrao Ambedkar (Central) University, Lucknow. 226 025. India. * Corresponding author's E-mail: qayoommir@rediffmail.com
2
Department of Pharmacognosy and Phytochemistry, Faculty of Pharmacy, Jamia Hamdard, New Delhi. 110062.India.
3
School for Environmental Sciences, Babasaheb Bhimrao Ambedkar (Central) University, Lucknow. 226 025. India.
Abstract
Present transplant study was carried out across Lucknow, the capital of Utter Pardesh using two medicinally important plants viz., ?Catharanthus roseus L.? and ?Ocimum sanctum L.? to assess whether certain ecophysiological responses (change in total flavonoids and total phenolics) in these two plants may serve as the biomarkers of auto exhaust pollution. Samples were taken from five different sites which differed from each other in terms of the number and type of vehicles plying over and were loaded with different concentrations of air pollutants (such as, SO2, NO2, SPM, RSPM). During the study, it was observed that the concentration of the different air pollutants across the sites correlated with the number and type of vehicles. Total flavonoids and total phenolics in both plants increased by increasing pollution loads across the sites, hence, this validates their role as biomarkers of auto exhaust pollution.
REFERENCES
Agrawal, M. and Deepak, S.S. (2003) Physiological and biochemical response of two cultivars of wheat to elevated levels of CO2 and SO2 singly and in combination. Environ. Pollut. 121, 189-197.
Census, (2001) Dissemination of Census - 2001 results by Directorate of Census Operation, (U.P.), Lucknow. One-day workshop at BBAU Lucknow on 4th Jan. 2008.
Chang, C., Yang, M., Wen, H. and Chern, J. (2002) Estimation of total flavonoid content in propolis by two complementry colorimetric methods. J. Food Drug Analysis. 10, 178-182.
Centre for Science and Environment (2001) 'A Special Presentation by CSE to the Committee on Auto Fuel Policy (Mashelkar Committee), New Delhi.
Central Pollution Control Board (2002) 'Benzene in Air and its Effects on Human Health. Parivesh Newsletter. CPCB Ministry of Environment and Forests, New Delhi, Government of India.
Faiz, A., Weaver, C., Sinha, K., Walsh, M. and Carbajo, J. (1992) Air pollution from motor vehicles: issues and options for developing countries. The World Bank, Washington, DC, 280 p.
Giertych, M.J., Karolewski, P. and De Temmerman, L.O. (1999) Foliage age and pollution alter content of phenolic compounds and chemical elements in Pinus nigra needles. Water, Air and Soil Pollution. 110, 363-377.
Gupta, A.K., Karar, K., Ayoob, S. and John, K. (2007) Spatio-temporal characteristics of gaseous and particulate pollutants in an urban region of Kolkata, India. Atmos. Res. Qayoom Mir et al., 15 doi: 10.1016/j.atmosres. 2007, 07-008.
Howell, R.K. (1974) Phenols, ozone and their involvement in the physiology of plant injury. In: M. Dugger (Ed.), Air Pollution Related to Plant Growth, A.C.S. Symposium Series 3. Washington D C, pp. 94-105.
Jacobs, M.B. and Hochheiser, S. (1958) Continuous sampling and ultra micro determination of nitrogen dioxide in air. Anal. Chem. 30, 426-428.
Jafary, Z.A. and Faridi, I.A. (2006) Air pollution by roadside dust and automobile exhaust at busy road-crossings of Lahore. Pak J. Physiol. 2, 31-34.
Joshi, P.C. and Swami, A. (2007) Physiological response of some tree species under roadside automobile pollution stress around city of Haridwar, India. Environmentalist. 27, 365-374.
Kammerbauer, J. and Dick, T. (2000) Monitoring of urban traffic emission using some physiological indicators in Ricinus comm.- unis L. Plants. Environ. Cont. and Toxicol. 39, 161-166.
Kanoun, M., Goulas, M.J.P.and Biolley, J.P. (2001) Effect of chronic and moderate ozone pollution on the phenolic pattern of bean leaves (Phaseolus vulgaris L. cv. Nerina): relations with visible injury and biomass production. Biochem. Syst. Ecol. 29, 443-457.
Krywult, M., Karolak, A. and Bytnerowicz, A. (1996) Nitrate reductase activity as an indicator of ponderosa pine response to atmospheric nitrogen deposition in the San Bernardino Mountains. Environ. Pollut. 93, 141-146.
Kumar, P. and Bhathacharya, S. (1999) Down to Earth. 7, 32-40.
Loponen, J., Lempa, K., Ossipov, V., Kozlov, M.V., Girs, A., Hangasmaa, K., Haukioja, E., Pihlaja, K. (2001) Patterns in content of phenolic compounds in leaves of mountains birches along a strong pollution gradient. Chemosphere. 45, 291-301.
Loponen, J., Ossipov, V., Koricheva, J., Haukioja, E. and Pilhlaja, K. (1997) Low molecular mass phenolics in foliage of Betula pubescens Ehrh. in relation to aerial pollution. Chemosphere. 34, 687-697.
Loponen, J., Ossipo, V., Lempa, K., Haukioja, E. and Pilhlaja, K. (1998) Concentrations and among-compound correlation of individual phenols in white birch leaves under air pollution stress. Chemosphere. 37, 1445-1456.
Mage, D., Ozolins, G., Peterson, Y., Webster, A., Orthofer, R., Vandeweerd, R. and Gwyane, R. (1996) Urban Air Pollution in Mega City of the World. Atmospheric Environment. 30, 681-686.
Mandavilli, S., Rys, M.J. and Russell, E.R. (2007) Environmental impact of modern roundabouts. Int. J. Ind. Ergonomics doi: 10/j. ergon. 2006, 11-003.
McDonald, S., Prenzler, P.D., Autolovich, M. and Robards, K. (2001) Phenolic content and antioxident activity of olive extracts. Food Chemistry. 73, 73-78.
Mayer, H. (1999) 'Air Pollution in Cities.' Atmospheric Environment. 33, 4029-4037.
Nikolova, M.T. and Ivancheva, S.V. (2005) Quantitative flavonoid variations of Artemisia vulgaris L. and Veronica chamaedrys L. in relation to altitude and polluted environment. Acta. Biol. Szeged. 49, 29- 32.
Pandey, V., Kumar, A., Pal, A., Singh, N. and Yunus, M. (1999) Status of ambient air quality in Lucknow city. Ind. J. Env. Prot. 19, 181-184.
Pasqualini, V., Robles, C., Garzino, S. Greff, S., Bousquet-Melou, A. and Bonin, G. (2003) Phenolic compounds content in Pinus halepensis Mill. needles: a bioindicator of air pollution. Chemosphere. 52, 239-248.
Rai, R., Agrawal, M. and Agrawal, S.B. (2007) Assessment of yield losses in tropical wheat using open top chambers. Atmospheric Research. 41, 9543-9554.
Singh, N., Yunus, M. Srivastava, K., Singh, S. N., Pandey, V., Misra, J. and Ahmad, K. J. (1995) Monitiring of auto exhaust pollution by road side plants. Environmental Monitoring and Assessment. 34, 13-25.
Verma, A. and Singh, S.N. (2006) Biochemical and ultra structural changes in plant foliage exposed to automobile pollution. Environmental Monitoring and Assessment. 120, 585-602.
Walsh, M.P. (1994) Trends in automotive transport: implications for environmental protection, energy efficiency and sustainnable development. Paper presented at the International Conference Toward Clean Transport: Fuel Efficient and Clean Motor Vehicles, Mexico City, March, pp. 28-30.
West, P.W. and Gaeke, G.C. 1956. Fixation of sulfur dioxide as sulfitomercurate (II) and subsequent colorimetric estimation. Anal. Chem. 28, 1816-1819.
Yunus, M., Singh, N. and Iqbal, M. (1996) Global status of air pollution: An overview. In Plant Response to Air Pollution. Yunus, M. and Iqbal, M. (Eds.), John Wiley and Sons. pp. 1-34.
Zobel, A.M. (1996) Phenolic compounds in defense against air pollution. In: Yunus, M., Iqbal, M. (Eds.), Plant Response to Air Pollution. John Wiley, Chichester, pp. 241- 266.
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