Effect of Planting Techniques and Nitrogen Scheduling on Productivity and Profitability of Basmati Rice (Oryza sativa L.)

Rahul Kumar, Mukesh Kumar, R. Naresh, A. Singh, Satendra Kumar, Pardeep Singh
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Abstract

Aim: The present experiment was carried out at Crop Research Center of Sardar Vallabhbhai Patel University of Agriculture & Technology, Meerut (U.P.), India, to study the effect of planting techniques and nitrogen scheduling on scented wet rice, water productivity and soil health in Inceptisol during kharif season of 2019 and 2020. Study Design: Experiment was laid out in split plot design (SPD) using crop planting techniques as main plot and nitrogen scheduling as sub plot factor. Place and Duration of Study: The present investigation was conducted during the kharif season of 2019 and 2020 at the Crop Research Centre of Sardar Vallabhbhai Patel University of Agriculture & Technology, Meerut (U.P.), India. Methodology: The main factors consist of four planting techniques viz., Furrow Irrigated Raised Bed System (FIRBs), Reduced Tillage Transplanted Rice (RT-TPR), Unpuddled Transplanted Rice (UTR) and Conventional Transplanted Rice (CTR), the sub factors consist of six nitrogen scheduling variables viz., Control, 100% RDN (50% B + 25% AT + 25% PI), 100% RDN (40% B + 35% AT + 25% PI), 120% RDN (50% B + 25% AT + 25% PI), 120% RDN (40% B + 35% AT + 25% PI) and Real Time N Management through LCC. Observations on crop yield and attributing parameters were recorded at the harvest of crop. Crop was harvested manually at full physiological maturity. The straw yield was obtained by subtract grain yield from the total biomass yield, recorded plot wise after sun drying and computed to q ha-1. Results: Highest yield recorded under conventional transplanting which was statistically at par with FIRBs and significantly higher than UTR and RT-TPR. Among the nitrogen scheduling practices the highest yield and NPK uptake was obtained with Real Time N Management through LCC which was statistically at par with 120% RDN (50% B + 25% AT + 25% PI) and 100% RDN (50% B + 25% AT + 25% PI), lowest yield and nutrient uptake was obtained in control treatment during both the years of study. Highest net return and B: C ratio was recorded under furrow irrigated raised beds transplanted rice. Conclusion: Basmati rice gave the higher yield under CTR and net return was associated with FIRBs. Therefore, it may be concluded that transplanting of rice on FIRBs with real time nitrogen management through LCC might be a better option to get higher productivity and profitability of basmati rice.
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种植技术和氮肥调度对印度香稻生产力和盈利能力的影响
目的:本试验在印度密鲁特Sardar Vallabhbhai Patel农业技术大学作物研究中心(U.P.)开展,研究2019年和2020年收割季不同种植技术和氮素调度对印度印赛普提索尔香稻、水分生产力和土壤健康的影响。研究设计:采用分畦设计(SPD),以作物种植技术为主畦,氮素调度为次畦因子。研究地点和时间:本研究于2019年和2020年的丰收季节在印度密鲁特(北方邦)萨达尔瓦拉布海帕特尔农业技术大学作物研究中心进行。方法:由四个种植技术的主要因素即,沟灌溉提高了床系统(firb),减少耕作移植大米(RT-TPR) Unpuddled移植大米(UTR)和传统移植大米(CTR),六子因素包括氮调度变量即。,控制,100% RDNπB(50% + 25% + 25%), 100%的RDNπB(40% + 35% + 25%), 120%的RDNπB(50% + 25% + 25%), 120%的RDN B(40% + 35% + 25%π)和实时N通过LCC管理。在作物收获时记录作物产量和归因参数的观测。作物在完全生理成熟时人工收获。秸秆产量由总生物量产量减去籽粒产量得到,日晒后按小区记录,计算为q ha-1。结果:常规移栽的最高产量与firb持平,显著高于UTR和RT-TPR。在氮素调度措施中,LCC实时氮素管理的产量和氮磷钾吸收量最高,与120% RDN (50% B + 25% at + 25% PI)和100% RDN (50% B + 25% at + 25% PI)在统计学上相当,对照处理的产量和养分吸收量最低。垄作栽培的净收益和B: C比值最高。结论:印度香米在CTR下产量较高,净收益与firb相关。综上所述,通过LCC实时氮素管理的水稻移栽在firb上可能是获得更高巴斯玛蒂水稻生产力和盈利能力的较好选择。
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