Sustainable productivity and profitability through maize based cropping system in hilly areas of Manipur
Maize based cropping system in Manipur
DOI:
https://doi.org/10.21921/jas.v10i01.12250Keywords:
Maize based cropping System, productivity, profitabilityAbstract
The field experiment was conducted for two consecutive years during 2018-19 and 2019-20 at three different locations of the farmers’ field in Chandel district of NEH Region, Manipur to compare the different maize-based cropping systems. From the two years data, it was observed that the highest maize yield was recorded from the sole crop 50.65 q/ha and 51.20 q/ha during 2018-19 and 2019-20 respectively, due to its higher plant population. The equivalent yield of maize 52.16 q/ha and 54.90 q/ha was recorded to be higher in maize + groundnut intercropping system during 2018-19 and 2019-20 as compared to maize + rice bean intercropping system. Though, intercropping with other crops reduced the grain yield of maize but intercropping increased the maize equivalent yield than sole maize. The gross return was highest in maize + groundnut intercropping system with Rs. 152510/ha and Rs.160700/ha with the net profit of Rs. 104141/ha and Rs. 110550/ha during 2018-19 and 2019-20 respectively. The benefit cost ratio was also found to be highest in maize + groundnut intercropping system during the years of experimentations. From this result, it can be concluded that maize + groundnut intercropping will be more beneficial and a viable practiced to achieve the goal of higher sustainable productivity and profitability in attaining doubling of farmers’ income.
References
Bhatnagar A, Singh MP and Singh V. 2012. Productivity and profitability of maize based intercropping systems. Madras Agric. J. 99(7-9): 530-532.
Ghosh PK. 2004. Growth and yield competition and economics of groundnut/ cereal fodder intercropping system in the semi-arid tropics of India. Field Crop Res. 88: 227-237.
GoM. 2016. Statistical year book-Manipur 2013, Manipur, Directorate of Economics and Statistics. Government of Manipur, Imphal.
Seran T H and Brintha I. 2001. Review on maize-based intercropping. Journal of Agronomy, vol. 9, no. 3, pp. 135-145, 2010. [10] K. E. Giller, Nitrogen Fixation in Tropical Cropping Systems, 2nd Ed., CABI, Wallingford, p. 423.
Sun T Zhao, C Feng, X Yin, W Gou, Z Lal, R Deng A Chai, Q Song, Z and Zhang W. 2021. Maize-based intercropping systems achieve higher productivity and profitability with lesser environmental footprint in a water-scarce region of northwest China. Food Energy Secur.00:e260. https://doi.org/10.1002/fes3.260.
Uddin MS, Rahaman MJ, Bagum SA, Uddin MJ and Rahaman MM.2003.Performance of intercropping of maize with groundnut in saline area under rainfed condition, Pakistan Journal of Biological Sciences 6 (2):92-94.