Research Journal of Recent Sciences ______ ______________________________ ______ ____ ___ ISSN 2277 - 2502 Vol. 1( 4 ), 9 - 13 , April (201 2 ) Res.J. Recent Sci. International Science Congress Association 9 Impact of Air - Pollution on pH of soil of Saran, Bihar, India Srivastava K.P.* and Singh Vikash Kumar Ganga Singh College, Jai Prakash University, Chapra - 841 301, Bihar, INDIA Available online at: www.isca.in (Received 21 st January 2012 , revised 29 th March 2012 , accepted 30 th March 2012 ) Abstract The pH of the upper and lower layers of soil of selected places of Saran district of Bihar was determined to access the soil - pollution due to interaction of brick chimneys smoke with soil. It was observed that the soils located near the brick chimney plants are highly polluted. Keywords : Air - pollution, s oil - pollution, pH, s moke interaction, brick c himney plants. Introduction The earth is surrounded by the air constituting the environment up to about 1600 kilometers from its surface 1 .The atmosphere is a reservoir of several elements essential to life and it serves many purposes and fun ctions. It contains life saving gases like oxygen for human beings and animals, and carbon dioxide for plants to perform the process of photosynthesis. As per a rough estimate it has 5× 10 18 cubic meters of air and contains oxygen (21%), nitrogen (78%), ca rbon dioxide (0.3%), and hydrogen (0.7%) in a fixed proportion. However, anthropogenetic activities on the surface of the earth are causing an increase in the proportion of gases except O 2 in our atmosphere, thereby polluting the air which is so precious f or life. There are many types of causative agents called pollutants creating air pollution. The pollutants exert different types of visible and invisible biological effects. Hence, it is necessary to have an equal understanding of both environment and orga nisms 2 . For our better living standards we need pure clean air, pure water, nutritious foods, clothes and space etc. which are the basic needs for life. But the quality of air and water is likely to deteriorate because of population explosion, rapid indus trialization and urbanization. Environmental pollution and human efforts for the betterment of living standards are the two sides of the same coin. In the wake of rapid industrialization, consequent urbanization and ever increasing population, the basic a menities of life, viz. air, water and land, are being populated continuously. Industrial complexes have become the focus of environmental pollution. Air may be regarded as polluted when it is changed in its quality and composition as a result of human activities. The release of low amount of pollutants into the air does not lead to any serious effects because the atmosphere has a considerable absorptiv e capacity. Various industrial installations such as asphalt plants, brick chimney plants, boiling and heating installations, cement manufacturing, fertilizer manufacturing, mineral acid manufacturing, paper and pulp manufacturing, thermal and nuclear po wer plants, sewage treatment plants, engineering workshops etc. form the stationary sources of the urban air pollution. The automobiles such as cars, scooters, motors, trucks and buses moving on the urban roads form the mobile sources of air pollution. Saran district in North Bihar (INDIA) has various temporary as well as permanent brick chimney plants surrounding the district head quarter Chapra town. All the brick chimneys emit smoke rich in CO 2 , SO 2 etc, which directly or indirectly interact with the constituents of the soil 3,4 . The interaction of the dusty smoke with soil might bring about changes in physical as well as chemical nature of top layer of soil supporting plants. In continuation of our research on air - pollution and its effect on quality of soil the present research article deals the effect of air pollution on soil pH 5 - 9 of Saran district of Bihar, INDIA. Material and Methods The soil samples were taken from different locations situated at different places from dense brick chimney plants. T hese brick chimney plants are sources of industrial pollution around Chapra town of North Bihar. The soil of various villages was also taken for studies of pollution effect. All these places, upper as well as lower layer (from depth of 15cm) of the soil we re also taken. The pH titration was performed at room temperature and 2N - HCl solution was used. 2N HCl acid was prepared from concentrated boiling 6N HCl by weight. 10 grams of the soil sample of different locations were taken, 100ml distilled water wa s added and kept for 24 hours after through shaking. Then it was decanted and made up to 250 ml solution using distilled water. 10 ml soil solution is taken in bottles and 2N HCl id added in order of increasing multiple. Then pH measurement was done. The d ata obtained were plotted on graph papers for analysis and interpretation (f igure - 1 - 3 ) . Research Journal of Recent Sciences ______ _ _ _______________________________ ______________ _ ____ __ __ ISSN 2277 - 2502 Vol. 1( 4 ), 9 - 13 , April (201 2 ) Res. J. Recent Sci. International Science Congress Association 10 Results and Discussion The titration curve of p H value with 2N HCl of the sample of upper soil layer solution of Mehiyan village near east of Chapra town has show s harpness from 2.4 to 0.8 ionization of 8ml solution ( f igure - 1). On the other hand the lower layer soil solution has initial p H 1.4 which becomes 1 on addition of only 4 ml 2N HCl. Hence, the pollution of upper layer soil is higher than the lower layer soi l ( f igure - 2). The sudden drop of p H shows that more basic titrable groups are present in upper layer soil. When comparative p H titration curve ( f igure - 3) of upper and lower layers of soil of Vishnupura near south - east of Chapra town was plotted, we observed that p H value of upper and lower soil layers in the vicinity of chimney plants are parallel to each other. The drop in p H value was from 2.3 to 1.5 on addition of 8ml of 2N HCl. On the other hand upper and lower layer has sta rting p H of 1.8 come to 0.9 when the similar amount of 2N HCl was added. Thus the conclusion may be drawn that effluent gases are absorbed more when it comes in contact with soil at the nearest distance from the chimney plants. The gaseous air is less acid ic in nature than the soil which is situated in Vishnupura near south - east of Chapra. The p H titration curve of upper and lower soil shows that it is not dropping suddenly but slowly. It shows that interaction of H + ion is not sufficient. The p H value of samples of upper and lower layer soil solutions of Chanchawra and Bhainshmara villages near north of Chapra town with 2N HCl is plotted as shown in figures - 1 - 3, the curve is running parallel to each other. This shows that the upper layer soil is not pollu ted so much because of the lesser number of chimney plants. When titration curves of p H value of sample of upper and lower layer soil solution of Bhainshmara village near Chapra town with 2N HCl is drawn, the drop in p H values of upper and lower layer soil is same which shows that the soil is not so much polluted. Conclusion The following conclusions may be drawn on the basis of observation with p H data of different places due to atmospheric pollution being caused by brick chimney plants near district tow ns of Saran division in north Bihar: i. The pollution of upper layer soil is higher than the lower layer of soil. The sudden drop in p H shows that more basic titrable groups are present. ii. When p H value of upper and lower layer of soil was taken, the d ifference in p H is about 0.1 which again goes upward on addition of more than 8 ml of 2N HCl. Thus, the titrable groups are not smoothly distributed between upper and lower layers of soil. iii. When comparative titration curve of upper and lower layer of s oil was taken from the, Vishnupura and Chanchawra villages, the upper and lower layers are parallel to each - other. The drop in p H value is from 2.3 to 1.5 on addition of 8 ml of 2N HCl. On the other hand, upper and lower layer has starting p H of 1.8 comes to 0.9 when the similar amount of 8ml 2N HCl is added. Thus, it may be concluded that effluent gases are absorbed more when these come in the contact with the soil at the nearest distance from plants site. The gaseous air is less acidic in nature than th e soil which is situated distant from the plants site. Overall conclusions drawn on the basis of research work done are that maximum absorption of gases by the soil takes place surroundings the brick chimney plants unit. With the help of p H value it appea rs that the pollution of soil takes place gradually and not immediately. Acknowledgements Authors would like to thank Prof. (Dr.) Abhay Kumar, Retired Principal and Professor of Chemistry, L.S.College, B.R.A.Bihar University, Muzaffarpur, INDIA for keen interest and encouragement during this research work. References 1. Norrish R. and Oldershaw, Proc. , R.Soc. , A, 249, 498 ( 1949 ) 2. Arin L.M. and Warneck P., J. Phys.Chem . , 76 , 1514 ( 1973 ) 3. Brady N.C. , The nature and properties of soil , Eurasic Publishing House ( P) Ltd. New Delhi, 238 - 245 ( 1978 ) 4. (a) Rutter A.J., Effect of air pollutants on plants (ed. Mensfield, T.A.), Cambridge University Press, Cambridge, p - 1 - 3, (b) Willix R., 1976, Effect of air pollutants on plants (ed. Mensfield, T.A.), Cambridge University P ress, Cambridge, 161 - 184 ( 1976 ) 5. Srivastava K.P. et al, Study of Impact of Air Pollution on Ph of Soils of Muzaffarpur, Bihar, India, Pollution Research , 28 , 3, 491 ( 2009 ) 6. Mishra J.N., Impact of thermal power stations on surrounding environments, The Hindu Survey of Indian Environment ( 2002 ) 7. Page A.L., Methods of soil analysis, Part - 2, Soil Science Society of America, Madison, Wisconsin, USA ( 1982 ) 8. Rathore Kanishka Raj, Dhawankar Aditi and Gungun, Environmental Impact Assessment (EIA) For Bus Based Rapid Transit System (BRTS) Bhopal, MP, India, Res. J. Recent Sci. , Vol. 1 (ISC - 2011), 166 - 171 ( 2012 ) 9. Chouhan Aarti, Iqbal Sanjeeda, Maheshwari R.S. and Bafna A., Study of air pollution tolerance Index of plants growing in Pithampur Industrial area sector 1, 2 and 3, Res.J.Recent Sci. , Vol. 1 (ISC - 2011), 172 - 177 ( 2012 ) Research Journal of Recent Sciences ______ _ _ _______________________________ ______________ _ ____ __ __ ISSN 2277 - 2502 Vol. 1( 4 ), 9 - 13 , April (201 2 ) Res. J. Recent Sci. International Science Congress Association 11 Figure – 1 Comparative Titration Curve of pH value against sample solution of upper layer solid solutions with 2(N) HCl Research Journal of Recent Sciences ______ _ _ _______________________________ ______________ _ ____ __ __ ISSN 2277 - 2502 Vol. 1( 4 ), 9 - 13 , April (201 2 ) Res. J. Recent Sci. International Science Congress Association 12 Figure – 2 Comparative Titration Curve of pH value against sample solution of lower layer solid solutions with 2(N) HCl Research Journal of Recent Sciences ______ _ _ _______________________________ ______________ _ ____ __ __ ISSN 2277 - 2502 Vol. 1( 4 ), 9 - 13 , April (201 2 ) Res. J. Recent Sci. International Science Congress Association 13 Fig ure – 3 Comparative Titration Curve of pH value against sample of upper and lower layer solid solutions with 2(N) HCl