Abstract
Purpose
Rice covers most of the cropping area in Bangladesh which is mostly a labor-intensive crop. The conventional approach of rice transplanting is labor-intensive and requires hardship. Mechanization in transplanting is needed to make agriculture economical due to labor shortage and high wages of laborers. Cost-effective and easy to use, a mechanical rice transplanter is an excellent choice. Rice transplanting issues, technological limitations in the adoption of mechanical transplanter, and future research to make mechanical transplanter more user-friendly are summarized in this paper.
Methods
The articles were gathered and reviewed using search engines like Google Scholar, Scopus, Science Direct, Springer Link, Wiley Online, Taylor & Francis Online, Academia, and Research Gate. Indexed journals, conference proceedings, academic presentations, and thesis/dissertations are all included in this study’s scope.
Results
Maintaining the soil’s physical qualities is thought to aid in crop management and increase output. Although mechanical transplanters are more effective than their manual counterparts, they are not yet widely used due to factors such as expensive startup costs, a lack of experience in developing mat-type nurseries, and farmers’ weak financial conditions. When attempting to grow rice using mechanical transplants, it may be helpful to employ strategies including instructing technical competence, guaranteeing timely availability, boosting custom recruitment, and offering government incentives.
Conclusions
A mechanized rice transplanter may be a viable option to alleviate labor shortages and minimize farm operating costs. However, slower acceptance is attributed to the difficulty of cultivating paddy nurseries on trays and mats, as well as inadequate reaction from stakeholders, as mechanical rice transplanters are not widely used yet. Farmers would be more likely to plant seedlings in beds or trays if they could do so easily. Many landowners can benefit from the assistance of an entrepreneur in planting paddy at the same time. It is possible to increase the rate at which existing rice transplanter machines are put into use by providing adequate on-the-job training to relevant stakeholders in nursery preparation processes and planting machine handling. Bangladesh needs a rice transplanter that is both low-cost and simple to use. A low-cost, semi-automatic rice transplanter could be a solution for mitigating labor shortages and reducing farm operating expenses.
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References
Alam, M. M. (2019). Study to find out extent and constraints of use of farm machineries developed by national institutes of Bangladesh to accelerate mechanization-Final Report. Krishi Gobeshona Foundation (KGF), BARC Complex, Farmgate, Dhaka-1215, Bangladesh.
Hossen, M.A., Shahed, A. B. M., Mamun, M. R. A., Tamanna, T. A., & Rahman, M. M. (2020b). Effect of mat type rice seedling growing media on block formation and fungal infection. Journal of the Bangladesh Agricultural University, 18(4), 1073–1082.
Khatun, A. (2011). Developments of Entrepreneurship for Custom Hire Service of Rice Transplanter in Bangladesh (Doctoral dissertation, M. SC. Thesis. Department of Farm Power and Machinery. Bangladesh Agricultural University. pp: 57).
BBS. (2017). Bangladesh Statistics 2017 (pp. 1–73). Bangladesh Bureau of Statistics and Informatics Division Ministry of Planning.
BBS. (2020). Labor for survey Bangladesh 2013. Bangladesh Bureau of Statistics.
Behera, B. K., Varshney, B. P., & Goel, A. K. (2009). Effect of puddling on puddled soil characteristics and performance of self-propelled transplanter in rice crop. Agricultural Engineering International: The CIGR Ejournal, 17(1), 1–19. https://doi.org/10.1101/2020.11.10.376129
Dixit, J., & Khan, J. N. (2011). Comparative field evaluation of self-propelled paddy transplanter with hand transplanting in valley lands of kashmir region. AMA, Agricultural Mechanization in Asia, Africa and Latin America, 42(2), 14–18.
Dixit, A., Khurana, R., Singh, J., & Singh, G. (2007). Comparative performance of different paddy transplanter developed in India-a review. Agricultural Reviews, 28(4), 262–269.
Hossen, M. A., Huda, M. D., Kamruzzaman, M., & Islam, M. (2019). Validation of walking and riding type rice transplanter in different location of Bangladesh. Eco-Friendly Agril. J., 11(04), 43–59.
Hossen, M. A., Talukder, M. R. A., Al Mamun, M. R., Rahaman, H., Paul, S., Rahman, M. M., Miaruddin, M., Ali, M. A., & Islam, M. N. (2020a). Mechanization status, promotional activities and government strategies of Thailand and Vietnam in comparison to Bangladesh. AgriEngineering, 2(4), 489–510. https://doi.org/10.3390/agriengineering2040033
Hossen, M. A., Shahriyar, M. M., Islam, S., Paul, H., & Rahman, M. M. (2022). Rice transplanting mechanization in Bangladesh: Way to make it sustainable. Agricultural Sciences, 13(2), 130–149. https://doi.org/10.4236/as.2022.132011
Hossen, M. A., Hossain, M. M., Bell, R. W., & Haque, M. E. (2017). Effects of inundation period and tillage option on field performance of self-propelled rice transplanter. Agricultural Engineering International: CIGR Journal, 19(4), 1–12.
Hossen, A. M., Hossain, M. M., Haque, E., & Bell, R. W. (2018). Effect of growing media on mat type seedling raised for mechanical rice transplanting. Research in Agricultural Engineering, 64(3), 157–167. https://doi.org/10.17221/79/2016-RAE
Islam, A. S. (2016a). Mechanized rice transplanting in Bangladesh. Bangladesh Rice Research Institute.
Islam, A. K. M. S. (2018). Status of rice farming mechanization in Bangladesh. Journal of Bioscience and Agriculture Research, 17(1), 1386–1395. https://doi.org/10.18801/jbar.170118.171
Islam, A. K. M. S., Islam, M. T., Rabbani, M. A., Rahman, M. A., & Rahman, A. B. M. Z. (2015). Commercial mechanical rice transplanting under public private partnership in Bangladesh. Journal of Bioscience and Agriculture Research, 6(01), 501–511. https://doi.org/10.18801/jbar.060115.60
Islam, A. K. M. S., Rahman, M. A., Rahman, A. K. M. L., Islam, M. T., & Rahman, M. I. (2016b). Techno-economic performance of 4-row self-propelled mechanical rice transplanter at farmers field in Bangladesh. Progressive Agriculture, 27(3), 369–382. https://doi.org/10.3329/pa.v27i3.30834
Islam, A. S., Islam, M. T., Rahman, M. S., Rahman, M. A., & Kim, Y. (2016c). Investigation on selective mechanization for wet season rice cultivation in Bangladesh. Journal of Biosystems Engineering, 41(4), 294–303. https://doi.org/10.5307/jbe.2016.41.4.294
Islam, A. K. M. S., Rahman, M. S., Das, S. R., Saha, T. K., Rahman, M. R., Islam, M. T., & Rabbani, M. A. (2017). Entrepreneurial opportunity of mechanical rice transplanting service for small holder farmer in Bangladesh. Progressive Agriculture, 28(3), 230–239. https://doi.org/10.3329/pa.v28i3.34660
Jia, X., Zhu, Q., Yang, Z., Sun, Y., Guo, X., Shi, Y., & Ma, J. (2014). Effect of seedling age on yield and population quality of mechanized transplanted hybrid rice. Transactions of the Chinese Society of Agricultural Engineering, 30(12), 18–25.
Jie Hu, Y., WU, P., Cheng ZHANG, H., gen DAI, Q., yang HUO, Z., XU, K., GAO, H., yan, H., wei GUO, B., & yuan CUI, P. (2018). Comparison of agronomic performance between inter-sub-specific hybrid and inbred japonica rice under different mechanical transplanting methods. Journal of Integrative Agriculture, 17(4), 806–816. https://doi.org/10.1016/S2095-3119(17)61819-7
Kamboj, B. R., Yadav, D. B., Yadav, A., Goel, N. K., Gill, G., Malik, R. K., & Chauhan, B. S. (2013). Mechanized transplanting of rice (Oryza sativa L.) in nonpuddled and no-till conditions in the rice-wheat cropping system in Haryana India. American Journal of Plant Sciences, 04(12), 2409–2413. https://doi.org/10.4236/ajps.2013.412298
Kamruzzaman, M., Awal, M. A., Hossen, M. A., & Paul, S. (2014). Protection of seedling in tray for mechanical rice transplanting from effect of cold weather using polythene shed. Bangladesh Journal of Progressive Science & Technology, 12(1), 5–10.
Kamruzzaman, M, Huda, M.D., Bhuiyan, M.G.K., Paul, S., Islam, S., Islam, M.M. and Rahman, M.A. (2016) Design and development of manual rice transplanter. The Annual Research Review Workshop of Bangladesh Rice Research Institute (BRRI) under Farm Machinery and Postharvest Technology Division, Gazipur, 12–17 January 2016, 6–10.
Keawduangdee, P., Puntumetakul, R., Swangnetr, M., Laohasiriwong, W., Settheetham, D., Yamauchi, J., & Boucaut, R. (2015). Prevalence of low back pain and associated factors among farmers during the rice transplanting process. Journal of Physical Therapy Science, 27(7), 2239–2245. https://doi.org/10.1589/jpts.27.2239
Kobayashi, K., Takahashi, Y., & Fukuyama, T. (2009). Studies on the seedling raising method in giant-embryo rice [Oryza sativa] cultivar'Koshiguruma'and its adaptability to machine transplanting. Japanese Journal of Crop Science (Japan).
Kumar, A., Nayak, A. K., Mohanty, S., & Das, B. S. (2016). Greenhouse gas emission from direct seeded paddy fields under different soil water potentials in Eastern India. Agriculture, Ecosystems & Environment, 228, 111–123. https://doi.org/10.1016/J.AGEE.2016.05.007
Kumar, A., Nayak, A. K., Pani, D. R., & Das, B. S. (2017). Physiological and morphological responses of four different rice cultivars to soil water potential-based deficit irrigation management strategies. Field Crops Research, 205, 78–94. https://doi.org/10.1016/j.fcr.2017.01.026
Liu, Q., Zhou, X., Li, J., & Xin, C. (2017). Effects of seedling age and cultivation density on agronomic characteristics and grain yield of mechanically transplanted rice. Scientific Reports, 7(1), 1–10. https://doi.org/10.1038/s41598-017-14672-7
Mamun, M. A. A., Rana, M. M., Mridha, A. J., & Rahman, M. A. (2013). Determination of seedling age for rice transplanter. Scientific Journal of Crop Science, 2(8), 116–124. https://doi.org/10.14196/sjcs.v2i8.966
Manjunatha, M. V., Reddy, B. M., Shashidhar, S. D., & Joshi, V. R. (2009). Studies on the performance of self-propelled rice transplanter and its effect on crop yield. Karnataka Journal of Agricultural Sciences, 22(2), 385–387.
Munnaf, M. A., Hossain, M. M., & Ruma, F. Y. (2014). Techno-economic performance of imported kukje self-propelled rice transplanter. Journal of the Bangladesh Agricultural University, 12(45-2016–356162), 61–166.
Pal, A., & Dhara, P. C. (2018). Work related musculoskeletal disorders and postural stress of the women cultivators engaged in uprooting job of rice cultivation. Indian Journal of Occupational and Environmental Medicine, 22, 163–169.
Paul, S., Nath, B. C., & Rahman, M. (2016). Effect of soil settling period on performance of rice. International Journal Sustainable Agricultural Technology, 12(11), 14–20.
Rahman, M. M., Ali, M. R., Oliver, M. M. H., Hanif, M. A., Uddin, M. Z., Saha, K. K., & Moniruzzaman, M. (2021). Farm mechanization in Bangladesh: A review of the status, roles, policy, and potentials. Journal of Agriculture and Food Research, 6, 100225. https://doi.org/10.1016/j.jafr.2021.100225
Rao, M. V., & Pradhan, S. N. (1973). Cultivation practices. Rice Production Manual, ICAR, 71, 95.
Saleem, M. U., Akhtar, M., Farooq, U., Iqbal, N., & Haider, Z. (2015). Effect of different water depths on plant population and rice (oryza sativa) yield at time of transplanting using mechanized transplanter. International Journal of Scientific & Engineering Research, 6(6), 76–80.
Sarkar, S., Alam, M., Khan, I., Rabbani, M., Hossain, M., & Saha, C. (2020). Seedling raising nursery business for sustainable mechanical rice transplanting in the southern delta of Bangladesh. Journal of Bangladesh Agricultural University, 18(S1), 880–886. https://doi.org/10.5455/jbau.12558
Sarkar, S., Basir, M. S., Hossain, M. M., Saha, C. K., Alam, M. M., Kalita, P. K., & Hansen, A. C. H. C. (2019). Determination of seed rate for mechanical transplanting of hybrid paddy variety in Bangladesh. In 2019 ASABE Annual International Meeting (p. 1). American Society of Agricultural and Biological Engineers.
Sattar, S. A. (2000). Bridging the rice yield gap in Bangladesh. In R. A. P. Publication (Ed.), Bridging the Rice Yield Gap in the Asia-Pacific Region (pp. 58–68). Food and Agriculture Organization of the United Nations, Regional Office for Asia and the Pacific.
Shaikh, N. Y., Alam, M. A., Kamruzzaman, M., Al Mamun, M. A., & Islam, A. S. (2021). Effect of seeding density on Mat-type seedling quality for mechanical transplanting in dry season rice. Agricultural Sciences, 12(11), 1231–1243. https://doi.org/10.4236/as.2021.1211078
Singh, O. P. (2001). Cause-effect relationships between sea surface temperature, precipitation and sea level along the Bangladesh coast. Theoretical and Applied Climatology, 68(3), 233–243. https://doi.org/10.1007/s007040170048
Syedul, M., Ahmed, D., & Baqui, M. A. (2000). Modification test and evaluation of low land paddy. AMA, 31(2), 33–38.
Tamanna, K., Rahman, A. N. M. A., & Rabbani, M. A. (2018). Comparative performance evaluation of DP 480 model and ARP-4UM rice transplanter. Journal of Science, Technology and Environment Informatics, 5(02), 413–420. https://doi.org/10.18801/jstei.050218.44
Vance, W., Bell, R. W., & Haque, M. E. (2014).Proceedings of the conference on conservation agriculture for smallholders in Asia and Africa. 7–11 December 2014, Mymensingh, Bangladesh Published as an E-book.
Verma, A. K. (2010). Modeling for mechanization strategies of rice cultivation in Chhattisgarh, India. AMA, Agricultural Mechanization in Asia, Africa and Latin America, 41, 20–26.
Wang, D., Chen, S., Wang, Z., Ji, C., Xu, C., Zhang, X., & Chauhan, B. S. (2014). Optimizing hill seeding density for high-yielding hybrid rice in a single rice cropping system in South China. PLoS ONE, 9(10), e109417.
Yadav, D., Mital, P. P. S., & Pund, S. (2007). Ergonomic evaluation of manually operated six-row paddy transplanter. International Agricultural Engineering Journal, 16, 147–157.
Yao, X., Yang, W., & Ren, W. (2009). Effects of seedling raising methods and sowing rates on machine-transplanted long-age rice seedling. Transactions of the Chinese Society of Agricultural Engineering, 25(6), 152–157.
Zhang, W. X., Zhu, D. F., Lin, X. Q., Xu, Y.-C., Lin, X. J., Chen, H. Z., & Zhang, Y. P. (2007). The effects of different sowing densities and raising materials on seedling quality of mechanical transplanting rice. Journal of Yangzhou University, 28, 45–48.
Acknowledgements
The research was supported by a research grant from the Bangladesh Rice Research Institute (BRRI) under the project name “Strengthening Farm Machinery Research Activity for Mechanized Rice Cultivation”; Project Code: 224298400, Ministry of Agriculture, Bangladesh.
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Rahaman, H., Rahman, M., Islam, A.K.M.S. et al. Mechanical Rice Transplanting in Bangladesh: Current Situation, Technical Challenges, and Future Approach. J. Biosyst. Eng. 47, 417–427 (2022). https://doi.org/10.1007/s42853-022-00161-x
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DOI: https://doi.org/10.1007/s42853-022-00161-x