Abstract
Crop residue burning is one among the many sources of air pollution. Burning of farm waste causes severe pollution of land and water on local as well as regional scale. This also adversely affects the nutrient budget in the soil. Straw carbon, nitrogen and sulphur are completely burnt and lost to the atmosphere in the process of burning. It results in the emission of smoke which if added to the gases present in the air like methane, nitrogen oxide and ammonia, can cause severe atmospheric pollution. These gaseous emissions can result in health risk, aggravating asthma, chronic bronchitis and decrease lung function. Burning of crop residue also contributes indirectly to the increased ozone pollution. It has adverse consequences on the quality of soil. When the crop residue is burnt the existing minerals present in the soil get destroyed which adversely hampers the cultivation of the next crop. The on field impact of burning includes removal of a large portion of the organic material. The off field impacts are related to human health due to general air quality degradation resulting in aggravation of respiratory (like cough, asthma, bronchitis), eye and skin diseases. The black soot generated during burning also results in poor visibility which could lead to increased road side incidences of accident. Punjab Government, its various Departments and other institutions like Punjab Agricultural University, Punjab Farmers Commission are all making efforts to devise some alternate economic uses of rice stubble. These include the stubble treated with urea as a fodder for animals, its use in biothermal energy production, paper manufacturing, mushroom cultivation, bedding for animals, etc. Punjab government is also providing subsidy to the farmers to promote the use of equipments which help in checking the burning of crop residues, like rotavators, happy seeders, zero–till-drills and straw reapers. While on the one hand, there is an urgent need to revitalize the research in agriculture and related activities, on the other hand, to tackle the problem of soil degradation and water depletion, a dedicated programme for promoting resource conservation technologies, such as zero tillage, deep ploughing, raised bed planting, laser land leveling etc., should be promoted. An eco friendly technology will be beneficial to the farmer community and the state by providing them a tool for improving soil health and environment for sustainable agriculture.
Keywords
- Wheat Straw
- Rice Straw
- Crop Residue
- Agricultural Waste
- Cotton Stalk
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
This is a preview of subscription content, access via your institution.
Buying options
Notes
- 1.
In a BOO project ownership of the project remains usually with the Project Company. Therefore the private company gets the benefits of any residual value of the project. This framework is used when the physical life of the project coincides with the concession period. A BOO scheme involves large amounts of finance and long payback period.
References
Agrawal S, Trivedi C, Sengupta R (2006) Air pollution due to burning of residues. In: Proceeding of the workshop on air pollution problems due to burning of agricultural residues, held at PAU, Ludhiana organized by the Indian Association for Air Pollution Control in collaboration with the Punjab State Pollution Control Board, Patiala and the Central Pollution Control Board, New Delhi
Badarinath KVS, Chand Kiran TR (2006) Agriculture crop residue burning in the Indo-gangetic plains: a study using IRSP6 WiFS satellite data. Curr Sci 91(8):1085–1089
Badve VC (1991) Feeding systems and problems in the Indo-Ganges plain: case study. In: Speedy A, Sansoucy R (ed) Feeding dairy cows in the tropics. Proceedings of the FAO Expert Consultation held in Bangkok, Thailand, 7–11 July 1989
Beri V, Sidhu BS, Bhat AK, Singh BP (1992) Nutrient balance and soil properties as affected by management of crop residues. In: Bajwa et al MS (eds) Nutrient management for sustained productivity. pp 133–135, Proc Int Symp Vol.II, Department of Soil, Punjab Agricultural University, Ludhiana, India
Canadian Lung Association (2007) Pollution and air quality: http://www.lung.ca/protect-protegez/pollution-pollution_e.php
Department of Agriculutre (2005) Report on Dynamic Ground Water Resources of Punjab, Government of Punjab
Gadde B, Bonnet S, Menke C, Garivait S (2009) Air pollutant emissions from rice straw open field burning in India Thailand and the Philippines. Environ Pollut 157(5):1554–1558
Garg SC (2008) Traces gases emission from field burning of crop residues. Indian J Air Pollut Control viii(1):76–86
Gupta PK, Sahai S (2005) Residues open burning in rice-wheat cropping system in India: an agenda for conservation of environment and agricultural conservation. In: Abrol IP, Gupta RK, Malik RK (eds) Conservation agriculture: status and prospects. Centre for Advancement of Sustainable Agriculture, National Agriculture Science Centre, New Delhi, pp 50–54
Gupta PK, Sahai S, Singh N, Dixit CK, Singh DP, Sharma C, Tiwari MK, Gupta RK, Garg SC (2004) Residue burning in rice-wheat cropping system: causes and implications. Curr Sci 87(12):1713–1715 25 December
Kim S, Dale BE (2004) Cumulative energy and global warming impact associated with producing biomass for bio based industrial products. J Ind Ecol 7:147–162
Lal MM (2006) An overview to agricultural burning. In: Proceeding of the workshop on air pollution problems due to burning of agricultural residues, held at PAU, Ludhiana organized by the Indian Association for Air Pollution Control in collaboration with the Punjab State Pollution Control Board, Patiala and the Central Pollution Control Board, New Delhi
Mandal KG, Misra AK, Hati KM, Bandyopadhyay KK, Ghosh PK, Mohanty M (2004) Rice residue management options and effects on soil properties and crop productivity. J Food Agric Environ 2:224–231
Punia M, Nautiyal VP, Kant Y (2008) Identifying biomass burned patches of agriculture residue using satellite remote sensing data. Centre for the Study of Regional Development, School of Social Sciences, Jawaharlal Nehru University, New Delhi 110 067, India and Indian Institute of Remote Sensing, 4 Kalidas Road, Dehradun 248 001, India
Sarkar A, Yadav RL, Gangwar B, Bhatia PC (1999) Crop residues in India. Project Directorate for Cropping System Research, Modipuram
Sidhu BS, Beri V (2005) Experience with managing rice residues in intensive rice-wheat cropping system in Punjab. In: Abrol IP, Gupta RK, Malik RK (eds) Conservation agriculture: status and prospects, Centre for Advancement of Sustainable Agriculture, National Agriculture Science Centre, New Delhi, pp 55–63
Sidhu BS, Rupela OP, Beri V, Joshi PK (1998) Sustainability Implications of Burning Rice and Wheat Straw in Punjab. Econ polit wkly 33(39):A163–A168
Sidhu BS, Beri V, Gosal SK (1995) Soil microbial health as affected by crop residue management. In: Proceedings of National Symposium on Developments in Soil Science, Ludhiana, India, 2–5 November, 1995. Indian Society of Soil Science, New Delhi, India, pp 45–46
Singh RP, Dhaliwal HS, Sidhu HS (2008) Singh Manpreet, Singh, Yadvinder and Blackwell, John, 2008. Economic assessment of the Happy Seeder for rice-wheat systems in Punjab, India. Conference Paper, AARES 52nd Annual conference, Canberra, ACT, Australia
Thakur TC (2003) Crop residue as animal feed. addressing resource conservation issues in rice–wheat systems of south asia, A Resource Book. Rice Wheat Consortium for Indo-Gangetic Plains (CIMMYT), March
Venkataraman C, Habib G, Kadamba D, Shrivastava M, Leon JF, Crouzille B, Boucher O, Streets DG (2006) Emissions from open biomass burning in India: Integrating the inventory approach with high-resolution Moderate Resolution Imaging Spectroradiometer (MODIS) active-fire and land cover data. Global Biogeochemical Cycles, Vol 20
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2013 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Kumar, P., Joshi, L. (2013). Pollution Caused by Agricultural Waste Burning and Possible Alternate Uses of Crop Stubble: A Case Study of Punjab. In: Nautiyal, S., Rao, K., Kaechele, H., Raju, K., Schaldach, R. (eds) Knowledge Systems of Societies for Adaptation and Mitigation of Impacts of Climate Change. Environmental Science and Engineering(). Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-36143-2_22
Download citation
DOI: https://doi.org/10.1007/978-3-642-36143-2_22
Published:
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-36142-5
Online ISBN: 978-3-642-36143-2
eBook Packages: Earth and Environmental ScienceEarth and Environmental Science (R0)