Res. Agr. Eng., 2021, 67(4):181-189 | DOI: 10.17221/23/2021-RAE

Cost analysis of manual bund shaping in paddy fields: Economical and physiologicalOriginal Paper

Ritesh Ranjan1, Prabhanjan Kumar Pranav*,2
1 North Eastern Regional Institute of Science and Technology, Nirjuli, Arunachal Pradesh, India
2 Dr. Rajendra Prasad Central Agricultural University, Pusa, Bihar, India

Bund shaping is one of the essential operations in preparing a paddy transplanting field. This operation is undertaken manually by spades in a traditional way as this has not been mechanised thus far. Therefore, this study was conducted to expose this operation by evaluating the economic, as well as physiological, cost involved in the bund shaping. For the economic cost, the study was conducted in nine different districts of Assam (India). The bund length for the estimated area was measured and estimated for one ha of land. The average rate of manual bund shaping was also measured to calculate the cost involved in this operation. Moreover, for the physiological cost, ten experienced subjects were calibrated and measured for their maximum aerobic capacity by sub-maximal exercise in laboratory condition. Furthermore, the heart rate was measured during the manual bund shaping and was then correlated with the calibrated data. It was found that the average required bund shaping length per ha was 3 669 m which was associated with a cost of 2 062.8 rupees. It was found that the bund shaping consumed 76.96% of the maximum volume of the oxygen consumption capacity of the subjects; however, the energy expenditure rate with respect to time and bund length were 7.37 kcal.min-1 and 4.33 kcal.m-1, respectively. Hence, bund shaping in a paddy field comes under a severe workload category which emphasises the need of mechanisation for the bund shaping operation.

Keywords: cost of operation; economic cost; heart rate; paddy field; subject calibration; work severity

Published: April 15, 2021  Show citation

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Ranjan R, Pranav PK. Cost analysis of manual bund shaping in paddy fields: Economical and physiological. Res. Agr. Eng. 2021;67(4):181-189. doi: 10.17221/23/2021-RAE.
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    References

    1. Baqui A., Latin R.M. (1982): Human energy expenditure in manually operated rice transplanter. Agricultural Mechanization in Asia, Africa and Latin America, 14: 14-16.
    2. Bini S. (2014): Ergonomic evaluation of paddy harvester and thresher with farm women. International Journal of Science and Research, 3: 1644-1648.
    3. Ghosh D., Singh U.P., Ray K., Das A. (2016): Weed management through herbicide application in direct-seeded rice and yield modeling by artificial neural network. Spanish Journal of Agricultural Research, 14: 1-10. Go to original source...
    4. Ghugare B.D., Adhaoo S.H., Gite L.P., Pandya A.C., Patel S.L. (1991): Ergonomics evaluation of a lever-operated knapsack sprayer. Applied Ergonomics, 22: 241-250. Go to original source... Go to PubMed...
    5. Government of India (2015): Agricultural Statistics at a Glance 2015. [Dataset]. Available at: https://eands.dacnet.nic.in/PDF/Agricultural_Statistics_At_Glance-2015.pdf.
    6. Karunanithi R., Tajuddin A. (2003): Physiological response of agricultural workers in rice farming operation. Journal of Agricultural Engineering, 40: 33-40.
    7. Kathirvel K., Vidhu K.P., Manian R., Gite L.P., Senthilkumar T. (2004): Test code and procedure for ergonomic evaluation of cono weeder for paddy. Department of Farm Power and Machinery, Agricultural Engineering College and Research Institute, Tamil Nadu Agricultural University, Tamil Nadu, India.
    8. Khadatkar A., Potdar R.R., Narwariya B.S., Wakudkar H., Dubey U.C. (2018): An ergonomic evaluation of pedal operated paddy thresher for farm women. Indian Journal of Agricultural Sciences, 88: 280-283. Go to original source...
    9. Nag P.K., Goswami A., Ashtekar A.P., Pradhan C.K. (1988): Ergonomics in sickle operation. Applied Ergonomics, 19: 233-239. Go to original source... Go to PubMed...
    10. Nag P.K., Nag A. (2004): Drudgery, accidents and injuries in Indian agriculture. Industrial Health, 42: 149-162. Go to original source... Go to PubMed...
    11. Nag P.K., Sebastian N.C., Mavlankar M.G. (1980): Occupational workload of Indian agricultural workers. Ergonomics, 23: 91-102. Go to original source...
    12. Naughton J., Sevellus G., Balke B. (1963): Physiologic responses of normal and pathologic subjects to a modified work capacity test. Journal of Physical Fitness and Sports Medicine, 31: 201-207.
    13. Ojha P., Kwatra S. (2017): Comparative ergonomic assessment of the male and female farm workers involved in rice cultivation. Journal of Current Microbiology and Applied Sciences, 6: 3439-3446. Go to original source...
    14. Pranav P.K., Biswas M. (2016): Mechanical intervention for reducing dust concentration in traditional rice mills. Industrial Health, 54: 315-323. Go to original source... Go to PubMed...
    15. Pranav P.K., Patel T. (2016): Impact of ergonomic intervention in manual orange harvester among the workers of hilly region in India. Work: A Journal of Prevention, Assessment, and Rehabilitation, 54: 179-187. Go to original source... Go to PubMed...
    16. Rajaiah P., Mani I., Kumar A., Lande S.D., Singh A.K., Vergese C. (2016): Development and evaluation of electronically controlled precision seed-metering device for direct-seeded paddy planter. Indian Journal of Agricultural Sciences, 86: 598-604. Go to original source...
    17. Robergs R.A., Landwehr R. (2002): The surprising history of the "Hrmax=220-age" equation. Journal of Exercise Physiology Online, 5: 1-10.
    18. Selvan M.M., Annamalai S.J.K., Thavaprakash N., Ananathakrishnan D. (2014): Design and development of three-row improved pull-type rice transplanter for small farmers. Indian Journal of Agricultural Sciences, 84: 1422-1427. Go to original source...
    19. Singh G., Sharma T.R., Bockhop C.W. (1985): Field performance evaluation of a manual rice transplanter. Journal of Agricultural Engineering Research, 32: 259-268. Go to original source...
    20. Singh S. (2009): Physiological workload of women workers in the operation of manual rice transplanters. Gender Technology and Development, 13: 271-284. Go to original source...
    21. Singh S.P., Gite L.P. (2007): Ergonomical assessment of a hand operated paddy winnower by women workers. Journal of Agricultural Engineering, 44: 67-71.
    22. Singh S.P., Gite L.P., Agarwal K.N. (2004): Ergonomical evaluation of manually-operated fertilizer broadcaster with farm women. Journal of Agricultural Engineering, 41: 22-25.
    23. Tang Z., Li Y., Cheng C., Zhong T., Yaoming LI, Cheng C. (2017): Development of multi-functional combine harvester with grain harvesting and straw baling. Spanish Journal of Agricultural Research, 15: 1-10. Go to original source...

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