Bio-energy, Productivity and Economics of rice (Oryza sativa L.)-based Cropping Systems in Coastal Flood Plain of West Bengal, India

A field experiment was carried out at farmers’ field in coastal saline zone of West Bengal, India during 2011–12 and 2012–13 with four cropping systems viz. rice-greengram, rice-sunflower, rice-sunflower+greengram and rice-ladyu0027s finger. Rice-ladyu0027s finger system recorded significantly higher rice equivalent yield, system productivity in both the years. Significantly higher net return ( 1, 05, 670 ha−1) was obtained in rice-ladyu0027s finger cropping system, followed by rice greengram, whereas B: C ratio was found at par. Among the management components fertilizer consumed maximum energy followed by operational labour and land preparation. Energy consumption was found significantly higher in rice-ladyu0027s finger system (44, 902 MJ ha−1) and lowest in rice-greengram system (29, 005 MJ ha−1). Total bioenergy output follows the order: rice-ladyu0027s fingeru003erice-sunfloweru003erice-sunflower+greengramu003erice-greengram. But this order was reversed for energy-use efficiency (EUE). Significantly higher specific energy was recorded in rice-sunflower system (3415 MJ t−1) and it was the most energy-investment intensive among them. However, significantly higher energy productivity was observed in rice-ladyu0027s finger system (0.63 kg MJ−1) and lowest in rice-greengram (0.30 kg MJ−1). Regarding energy intensiveness the results were contrary to EUE. Rice-ladyu0027s finger system was emerged as most energy intensive system as compared to other three cropping systems and the rice-greengram system is the least. It can be concluded that though the yield and net return in rice-ladyu0027s finger system were higher than other system, the rice-greengram system is more suitable cropping system in constrains prone coastal saline zone with limited irrigation facilities due to low requirement of non-renewable energy, higher EUE and benefit-cost ratio.