Agricultural Science Digest
Year : 2023, Volume : 43, Issue : 6
First page : ( 812) Last page : ( 816)
Print ISSN : 0253-150X. Online ISSN : 0976-0547.
Article DOI : 10.18805/ag.D-5824

Impact of Precision Nutrient Management on Rice Growth and Productivity in Southern Odisha

Sagar Lalichetti^1,*, Maitra Sagar¹, Singh Sultan², Sairam Masina¹

¹Department of Agronomy, Centurion University of Technology and Management, Bhubaneswar-761 211, Odisha, India

²Department of Agronomy, Sri Karan Narendra Agricultural University, Jobner-303 328, Rajasthan, India

^*Corresponding Author: Lalichetti Sagar, Department of Agronomy, Centurion University of Technology and Management, Bhubaneswar-761 211, Odisha, India, Email: lalichettisagar@cutm.ac.in

Online Published on 05 January, 2024.

Abstract

Background

Despite the emergence of numerous smart tools in recent times, a significant research gap still exists in identifying the most effective smart tool that optimally synchronizes fertilizer application with crop requirements, thereby promoting crop growth and productivity in accordance with the principles of SSNM.

Methods

The present investigation took place at the PG Experimental Farm, MSSSoA, CUTM, Odisha, during the boro season of 2021-22. The experiment followed a randomized block design, with eleven treatments that were replicated three times. The investigated treatments included the following: T₁- absolute control (no fertilizer), T₂- 75% of the recommended dose of fertilizer (RDF), T₃- 100% RDF, T₄- 125% RDF, T₅- 75% RDF followed by a spray of nano urea at a rate of 2 ml/L during panicle initiation, T₆- 100% RDF followed by a spray of nano urea at a rate of 2 ml/L during panicle initiation, T₇- leaf colour chart (LCC) 3 based nitrogen management, T₈- LCC 4 based nitrogen management, T₉- Sufficiency Index (SI)-based nitrogen management at SI<90%, T₁₀- Nutrient expert (NE)-based nutrient recommendation and T₁₁- Rice crop manager (RCM)-based nutrient recommendation.

Result

The study found that implementing nitrogen management based on site-specific information, using a total of 150 kg of nitrogen per hectare applied in four separate applications (at the basal stage, 28 days after transplanting, 42 days after transplanting and 63 days after transplanting), along with consistent levels of phosphorus and potassium, led to a 16.68% increase in grain yield and a 13.17% increase in biological yield for rice. This approach outperformed the traditional method of applying 100% recommended dose of fertilizer with 120 kg of nitrogen at fixed time intervals (basal, active tillering and panicle initiation).

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Keywords

Leaf colour chart, Nano urea, Nutrient expert, Rice crop manager, Sufficiency index.

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