Reasons and awareness levels of farmers on residue burning in Indo-Gangetic plain of India: an exploratory research

Awareness levels of farmers on residue burning

Authors

  • ANURADHA Senior Research Fellow, National Food Security Mission on Pulses at ICAR-ATARI, Zone-II, Jodhpur (Rajasthan)
  • KS KADIAN Head, Division of Dairy Extension, National Dairy Research Institute, Karnal (Haryana) India
  • M S MEENA Principal Scientist

DOI:

https://doi.org/10.21921/jas.v8i01.19567

Abstract

The study examines reasons for the burning of crop residue, awareness of the impact of the burning of crop residue, and government approaches to mitigating the burning. Data from 180 farmers from three districts of the state of Haryana was sought. Rank Based Quotient method was used to identify reasons. At the same time, awareness was assessed by direct questioning. The study concludes that the short window time between paddy harvesting and showing wheat was a primary reason for stubble burning. Research also shows that harvesting is expensive and time-consuming, causing farmers to burn. Most farmers were aware of the various adverse effects of burning on soil health (73.89%), air health (100%), and human health (81.66%). Everybody was aware of the ban on crop residue burning and other government measures, but they have no other viable options other than burning. Policymakers, therefore, must focus on feasible options that are acceptable in farmers' socio-economic conditions.

Author Biographies

ANURADHA, Senior Research Fellow, National Food Security Mission on Pulses at ICAR-ATARI, Zone-II, Jodhpur (Rajasthan)

Senior Research Fellow, National Food Security Mission on Pulses at ICAR-ATARI, Zone-II, Jodhpur (Rajasthan)

KS KADIAN, Head, Division of Dairy Extension, National Dairy Research Institute, Karnal (Haryana) India

Head, Division of Dairy Extension, National Dairy Research Institute, Karnal (Haryana) India

M S MEENA, Principal Scientist

Dr M S MEENA, PRINCIPAL SCIENTIST (Agril. Extn.)
ICAR-Agricultural Technology Application Research Institute, Zone-VI, JODHPUR,India

References

Anonymous 2012. Crop Residues Management with Conservation Agriculture: Potential, Constraints and Policy needs. Pp 56-69. Indian Agricultural Research Institute, New Delhi.

Awasthi A, Singh N, Mittal S and Agarwal R. 2010. Effects of agriculture crop residue burning on children and young on PFTs in northwest India. Science of the Total Environment 408 (20): 4440– 4445.

Bharati RC, Singh KM, Chandra N and Singh AK.2014. Economic condition of eastern region of India -An statistical evaluation. Journal of AgriSearch1 (3):173-179.

Gadde B, Bonnet S, Menke C and Garivait S. 2009. Air pollutant emissions from rice straw open field burning in India, Thailand, and the Philippines. Environmental Pollution 157: 1554–1558.

Haider M Z. 2013. Determinants of rice residue burning in the field. Journal of Environmental Management 128: 15-21.

Heard J, Cavers C, and Adrian G. 2006. Up in smoke-nutrient loss with straw burning. Better Crops 90(3): 10-11.

Kanokkanjana K, and Garivait S. 2013. Alternative rice straw management practices to reduce field open burning in Thailand. International Journal of Environmental Science and Development 4(2): 119.

Lyngdoh L and Dhaliwal RK. 2018. Perception of extension personnel and farmers towards effect on open burning in rice and wheat cropping system. Indian Journal of Ecology 45(4): 881-887.

Monitoring crop stubble burning in Haryana using satellite data, HSAC, report (2018) accessed from: http://hrsdi.in/activefire/LIST/Note%20Stubble%20burning%202018.pdf (accessed on 12, November, 2019)

NPMCR. 2017. Available online: http://agricoop.nic.in/sites/default/files/NPMCR 1.pdf (accessed on 12, Dec. 2020).

Pathak H, Saharawat Y S, Gathala M and Ladha J. K. 2011. Impact of resource-conserving technologies on productivity and greenhouse gas emissions in the rice-wheat system. Greenhouse Gases. Science and Technology 1(3): 261–277.

Roy P and Kaur M 2015. Status and Problems of Paddy Straw Management in West Bengal. International Journal of Advances in Agricultural & Environmental Engineering 2(1): 144–152.

Sabarathnam V E and Vennila 1996. Estimation of Technological Needs and Identification of Farmers' Problems for Formulation of Research and Extension Programmes in Agricultural Entomology. Experimental Agriculture 32: 87-90.

Singh AK, Singh AK, Kumar R, Prakash V Sundaram PK and Yadav SK. 2017. Indian Cereals Saga: Standpoint and Way Forward. Journal of AgriSearch 4 (1): 1-10.

Yang S, He H, Lu S, Chen D and Zhu J. 2008. Quantification of crop residue burning in the field and its influence on ambient air quality in Suqian, China. Atmospheric Environment 42: 1961–1969.

Zhang H, Hu D, Chen J, Ye X, Wang S X, Hao J M and An Z. 2011. Particle size distribution and polycyclic aromatic hydrocarbons emissions from agricultural crop residue burning. Environmental Science & Technology 45 (13): 5477-5482.

Downloads

Published

2021-03-19