Effect of nano-urea and irrigation regimes on growth parameters of wheat (Triticum aestivum L.)

Q4 Agricultural and Biological Sciences

Indian Journal of Agronomy Pub Date : 2024-07-14 DOI:10.59797/ija.v69i2.5514

Abhijit Mandal, TEEKAM SINGH, Ayan Sarkar, A. Dass, C. M. Parihar, Manoj Chaudhary, Baidyanath Mandal

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Abstract

Wheat (Triticum aestivum L.) is a crucial cereal crop globally, serving as a staple food for a vast population. Its productivity faces challenges such as nutrient imbalance and terminal heat stress exacerbated by climate change, particularly in regions like the North-Eastern Plain Zone of India. To address these issues, a study was conducted during the rabi season of 2021–2022 in Jharkhand, India, aiming to examine the impacts of irrigation regimes and nano-urea-based nitrogen management practices on wheat. Employing a split-plot design with three replications, the experiment assessed three irrigation regimes and five nitrogen management practices. Results revealed that irrigation regimes registered non-significant effects on crop growth parameters like plant height, LAI (leaf area index), root dry weight, flag leaf area and tillers/m2 , which might be due to frequent rain up to the flowering stage during the crop growth period. Higher levels of nitrogen in commercial urea significantly increased plant height, LAI, flag leaf area, recovered root dry weight and dry matter accumulation. However, nano-urea spray at 45 DAS helped crop plants positively to increase all growth parameters more compared to nano-urea spray at 60 DAS. All growth attributes with 50% RDN+2-nano-urea spray were statistically at par with 50% RDN+1 nano-urea spray up to 40 DAS, but after the flowering stage, it was statistically similar with 100% RDN. The maximum tillers/m2 was found under 100% RDN, followed by 75% RDN+ one nano-urea spray and 50% RDN+2 nano-urea spray. Thus, 3- irrigations at CRI, flowering and milk stage and 100% RDN (120 kg N/ha) were found sufficient for enhancing the growth parameters of wheat.

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纳米尿素和灌溉制度对小麦生长参数的影响

小麦（Triticum aestivum L.）是全球重要的谷类作物，是广大人口的主食。其生产力面临着养分失衡和因气候变化而加剧的终期热胁迫等挑战，尤其是在印度东北平原区等地区。为了解决这些问题，我们在 2021-2022 年印度恰尔肯德邦的雨季开展了一项研究，旨在考察灌溉制度和基于纳米尿素的氮肥管理方法对小麦的影响。实验采用了三份重复的小区设计，评估了三种灌溉制度和五种氮肥管理方法。结果表明，灌溉制度对植株高度、叶面积指数（LAI）、根干重、旗叶面积和分蘖/平方米等作物生长参数的影响不显著，这可能是由于在作物生长期的开花阶段雨水频繁所致。商品尿素中的氮含量越高，植株高度、叶面积指数、旗叶面积、恢复根干重和干物质积累都会显著增加。然而，与在 60 DAS 时喷施纳米尿素相比，在 45 DAS 时喷施纳米尿素对作物植株所有生长参数的提高都有积极作用。喷施 50%RDN+2-纳米脲与喷施 50%RDN+1-纳米脲在 40 DAS 前的所有生长属性在统计学上相当，但在开花期后，与 100%RDN在统计学上相似。100% RDN 的分蘖率最高，其次是 75% RDN+1 次纳米脲喷洒和 50% RDN+2 次纳米脲喷洒。因此，在 CRI、开花期和乳熟期进行 3 次灌溉和 100% RDN（120 千克氮/公顷）足以提高小麦的生长参数。

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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来源期刊

Indian Journal of Agronomy Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

0.50

自引率

0.00%

发文量

期刊介绍： Indian Journal of Agronomy welcomes concise articles presenting original research data based on field experiments on all aspects of agronomy in different crops and related cropping systems. • The journal publishes only full length comprehensive articles based on new approaches/findings in English only. • Review articles are also considered but these are normally solicited by Editorial Board. However, the authors who wish to contribute a review on their own based on their standing in the relevant field may contact the Secretary or Chief Editor with a broad outline before submitting the manuscript.