REPRINT ' Triveni Enterprises, Lucknow (India) J. Environ. Biol. ISSN : 0254-8704 28(1), 127-132 (2007) http : //www.geocities.com/j_environ_biol/ j_environ_biol@yahoo.com Biochemical parameters of plants as indicators of air pollution A. K. Tripathi and Mukesh Gautam* Ecology and Environment Division, Forest Research Institute, Dehradun-248 006, India (Received: August 5, 2005 ; Revised received: December 22, 2005; Accepted: January 14, 2006) Abstract: In the present study, species like Mangifera indica, Linn., Cassia fistula, Linn., and Eucalyptus hybrid were exposed to different air pollution load for short duration (active biomonitoring). Variation in biochemical parameters like chlorophyll, protein, soluble sugar, free amino acid, ascorbic acid, nitrate reductase, superoxide dismutase and peroxidase in the leaves were found to be pollution load dependent. These variations can be used as indicators of air pollution for early diagnosis of stress or as a marker for physiological damage to trees prior to the onset of visible injury symptoms. Just by analyzing these biochemical indicators air quality can also be assessed. Key words: Bioindicators, Superoxide dismutase, Nitrate reductase, Peroxidase Introduction Air pollution is one of the severe problems world facing today. It deteriorates ecological condition and can be defined as the fluctuation in any atmospheric constituent from the value that would have existed without human activity. Various efforts have been done for environmental restoration in India but still it seems to be a formidable task. Dehradun valley is no exception. Its environment has undergone irreparable damage due to the population growth and its subsequent requirements in terms of housing and traffic density. Continuously increasing road traffic is a primary culprit. The changed ambient environment due to the air pollutants in urban area of Dehradun has exerted a profound influence on the morphological, biochemical and physiological status of plants, and therefore its responses. To assess the seriousness of the air pollution threat and to take effective actions, the components of an urban air quality management should also include a biological monitoring to complement the instrumental air quality monitoring. It will provide the necessary feedback information about receptor conditions in the face of regional pollutant emissions. National Forest Policy, 1988 clearly directs that forests be managed first as an ecological necessity, second as a source of goods for local populations and only third as a wood for industries. Since plants and trees are the ecological necessity and air pollutants cause large scale damage to these, therefore policy makers must consider the sensitivity of the plant receptors before prescribing the standards or framing the emission control policies in Indian air quality management system. Until now, data on pollutant effects on biological parameters at any level have almost never been used to set allowable levels of emissions in air quality monitoring programmes in Dehradun valley. Research needs to be expanded to encompass a greater variety of plant responses to interactive stresses caused by air pollutants in more realistic field conditions. *Corresponding author: E-mail: tripathiak@icfre.org, Tel.: 0135-2752674(O), 2750449 (R), Fax: 0135-2756865 The main focus of this work is to provide an assessment of the use of biochemical parameters of plants as indicators of air pollution so that these biochemical indicators can be used for air quality monitoring in urban areas of Dehradun, the capital of Uttaranchal. The proposed study will provide a technical support to the air quality management in the city of Dehradun. The data generated will help us to find out the exact position i.e. success or failure of the regulatory measures which have been taken and also the corrective measures which are required to take up to bring the system to its normal or pristine stage. Materials and Methods Method selection: Active and passive biomonitoring are the two methods which can be applied to evaluate the applicability of the biochemical parameters of plants as indicators of air pollution. Here active biomonitoring method was opted which consists of exposing potted test plants to the polluted areas for short duration i.e. for three months (Klumpp, 2003). Species selection: Species were selected on the basis of air pollution tolerance index (APTI). Species having APTI less than 10 are termed as sensitive species and can be used for the biomonitoring of air pollutants (Agrawal et al. , 1991). APTI of five forest tree species (Mangifera indica , Linn., Cassia fistula , Linn., Eucalyptus hybrid, Grevillea robusta, A. Cunn. and Dalbergia sissoo, Roxb. ) was calculated by using the method given by Singh and Rao (1983). Mangifera indica , Linn (APTI 8.10), Cassia fistula , Linn. (APTI 7.56) and Eucalyptus hybrid (APTI 8.69) were selected to use their biochemical parameters as bio indicators of air pollution and were grown in polybags for one year. Four plants of each species were exposed to air pollution for three months (October to December, 2004) at selected bioindicator stations.