Effects of Manganese on Yield and Yield Attributing Parameters of Rice (Oryza sativa L.)

Indian Journal of Pure & Applied Biosciences Pub Date : 2021-06-30 DOI:10.18782/2582-2845.8707

Bhagawan Bharali

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Abstract

Background: Manganese (Mn) being one of the micronutrients available in acid soils acts crucial role in crop plants. In Assam soil, its concentration is 3-52 ppm whereas in plants the critical limit is 2-3ppm. Although the effects Mn on plants have been well documented, information on its impacts on yield and yield components in upland rice crop grown in Assam was scanty, and deserved its investigation. Method: A pot experiment was carried out to study the effects of Mn (0, 10,20,30 ppm Mn as MnSO4H2O) foliar spray (each 1000cm3) at vegetative stage i.e.70days after sowing, on yield and yield components of ten rice genotypes (Kanaklata, Mulagabharu, Kapilee, Disang, Kolong, Joymoti, Jyoti Prasad, Luit, Lachit and Chilarai) cultivated in Assam. Conclusion: The lower dose of Mn (10ppm) significantly increased panicle length (16.29-37.46%), panicle weight (10.54-19.50%), panicle number per plant (4.54-13.63%), number of seeds per panicle (18.38-36.48%), test weight (7.21-29.15%), high density grains (5.59-30.45%), economic yield (14.40-28.03%), biological yield (32.58-47.70%), and harvest index (3.2-7.90%). 30ppm Mn affected adversely all the physiological attributes in the study. Among the ten genotypes, Kanaklata performed the best followed by Chilarai in the experiment.

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锰对水稻产量及产量属性参数的影响

背景:锰(Mn)是酸性土壤中的微量元素之一，在作物中起着至关重要的作用。在阿萨姆邦的土壤中，其浓度为3-52 ppm，而在植物中，其临界极限为2-3ppm。虽然Mn对植物的影响已经有了很好的记录，但关于其对阿萨姆邦旱稻作物产量和产量组成部分的影响的信息很少，值得进行调查。方法:采用盆栽试验，研究营养期(播种后70d)喷施Mn(0、10、20、30 ppm Mn作为MnSO4H2O)叶面(每1000cm3)对阿萨姆邦10个水稻基因型(Kanaklata、Mulagabharu、Kapilee、Disang、Kolong、Joymoti、Jyoti Prasad、Luit、Lachit和Chilarai)产量和产量组成的影响。结论:低剂量Mn (10ppm)显著提高了玉米穗长(16.29 ~ 37.46%)、穗重(10.54 ~ 19.50%)、单株穗数(4.54 ~ 13.63%)、每穗种子数(18.38 ~ 36.48%)、试重(7.21 ~ 29.15%)、高密度粒(5.59 ~ 30.45%)、经济产量(14.40 ~ 28.03%)、生物产量(32.58 ~ 47.70%)和收获指数(3.2% ~ 7.90%)。在研究中，30ppm Mn对所有生理属性都有不利影响。10个基因型中，卡纳克拉塔表现最好，奇拉莱次之。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Indian Journal of Pure & Applied Biosciences

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