Effect of Nitrogen and Silica on Growth and Yield of Paddy (Oryza sativa L.) Variety CO 51

G. Sindhu, D. Jawahar, T. Chitdeshwari, P. Jeyakumar, D. J. Sundara Sharmila
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Abstract

World agriculture is facing increasing demand due to multiple challenges. The biggest challenge is to attain food security in the ever increasing growing population. Rice (Oryza sativa L.) is a staple food crop for half of the world's population and one of the world's most significant food crops. Farmers must produce more rice with enhanced quality in order to ensure food security in rice-consuming countries across the world. Rice (Oryza sativa L.) is considered to be a Si accumulator plant and tends to actively accumulate Si into tissue up to concentrations of 5% or even higher. The present study aimed to use different forms of N and Si sources at different levels to improve the growth traits contributing to the increase yield of rice. A pot experiment was conducted in glasshouse, TNAU, Coimbatore to assess the response of nitrogen and silica on paddy during October 2020 – January, 2021. The treatments comprised of the two factors, nitrogen and silica with three replications. The growth parameters like plant height, number of tillers per plant and total dry matter production were recorded at all stages and yield traits at harvest stage. The treatment, T11 - N2S2 (53.4 and 110.2 g pot-1 respectively) significantly enhanced the grain yield (34%) and straw yield (40%) than control in the pot experiment. Highest growth and yield parameters were recorded with application of combined fertilization of nitrogen and silica (T11-N2S2) which comprises150 kg ha-1of urea and 200 kg ha-1 of calcium silicate compared to control.
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氮素和二氧化硅对水稻生长和产量的影响综艺CO 51
由于多重挑战,世界农业面临着日益增长的需求。最大的挑战是在不断增长的人口中实现粮食安全。水稻(Oryza sativa L.)是世界一半人口的主要粮食作物,也是世界上最重要的粮食作物之一。农民必须生产更多质量更高的大米,以确保世界各地大米消费国的粮食安全。水稻(Oryza sativa L.)被认为是一种硅积累植物,当硅含量达到5%甚至更高时,水稻会主动向组织中积累硅。本研究旨在利用不同形态、不同水平的氮、硅源,改善水稻的生长性状,促进产量的提高。2020年10月- 2021年1月,在哥印拜陀(Coimbatore) TNAU的温室进行了盆栽试验,研究了氮素和二氧化硅对水稻的响应。处理由氮和二氧化硅两个因素组成,重复3次。记录各生育期株高、单株分蘖数、总干物质产量等生长参数和收获期产量性状。在盆栽试验中,T11 - N2S2处理(分别为53.4和110.2 g)比对照显著提高了籽粒产量(34%)和秸秆产量(40%)。氮肥与二氧化硅(T11-N2S2)配施150 kg ha-1尿素和200 kg ha-1硅酸钙,与对照相比,取得了最高的生长和产量参数。
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