Light emitting diode (LED) lights for the improvement of plant performance and production: A comprehensive review

IF 3.6 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Saikat Sena , Soni Kumari , Vijay Kumar , Azamal Husen
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Abstract

Light quality (spectral arrangement) and quantity (photoperiod and intensity) influence plant growth and metabolism and also interact with several factors including environmental parameters in defining the plant behavior. The Light Emitting Diode (LED) lights are extensively utilized in the cultivation of several plant species, especially horticultural plants due to their lower power consumption and higher luminous efficiency compared to the conventional fluorescent lights. The aim of this review paper is to examine the potential of LED technology as it relates to plant lighting in greenhouses and other horticultural environments. It also desires to give an in-depth study of the advantages of LED lighting on plant development, yield, the production of secondary metabolites, and defense mechanisms. Horticultural lighting might undergo a revolution because LEDs are used in solid-state lighting, which would be a tremendous advancement after decades of research. LEDs may be used in a variety of horticulture lighting applications, such as tissue culture lighting, controlled environment research lighting, supplementary lighting, and photoperiod lighting for greenhouses. The primary impacts of light colors on plant performance are shown by the spectrum effects of LEDs as an independent source of light, together with the diverse sensitivity of many plant species and alternatives. LED light influences performance of enzyme, gene expression, cell wall formation, plant defense and postharvest quality. The spectrum reactions are mediated by the ambient lighting in a greenhouse, which also indicates a strong relationship between the additional supplementary lighting and changing environmental factors. LEDs are growing further to become cost-effective for even large-scale horticulture lighting applications as light output increases and device expenditures decrease.

Abstract Image

发光二极管 (LED) 灯用于提高工厂绩效和产量:全面回顾
光的质量(光谱排列)和数量(光周期和强度)影响植物的生长和新陈代谢,并与包括环境参数在内的多种因素相互作用,从而决定植物的行为。与传统荧光灯相比,发光二极管(LED)灯耗电量更低,发光效率更高,因此被广泛用于多种植物的栽培,尤其是园艺植物。本文旨在研究 LED 技术在温室和其他园艺环境中植物照明方面的潜力。本文还希望深入研究 LED 照明在植物生长发育、产量、次生代谢产物的产生和防御机制方面的优势。园艺照明可能会发生一场革命,因为 LED 被用于固态照明,这将是几十年研究之后的巨大进步。LED 可用于各种园艺照明应用,如组织培养照明、受控环境研究照明、辅助照明和温室的光周期照明。光色对植物性能的主要影响体现在 LED 作为独立光源的光谱效应,以及许多植物物种和替代品的不同敏感性。LED 光对酶的性能、基因表达、细胞壁的形成、植物防御和采后质量都有影响。光谱反应受温室环境光照的影响,这也表明额外的补充光照与不断变化的环境因素之间存在密切关系。随着光输出的增加和设备成本的降低,LED 在大规模园艺照明应用中的成本效益正在进一步提高。
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来源期刊
Current Research in Biotechnology
Current Research in Biotechnology Biochemistry, Genetics and Molecular Biology-Biotechnology
CiteScore
6.70
自引率
3.60%
发文量
50
审稿时长
38 days
期刊介绍: Current Research in Biotechnology (CRBIOT) is a new primary research, gold open access journal from Elsevier. CRBIOT publishes original papers, reviews, and short communications (including viewpoints and perspectives) resulting from research in biotechnology and biotech-associated disciplines. Current Research in Biotechnology is a peer-reviewed gold open access (OA) journal and upon acceptance all articles are permanently and freely available. It is a companion to the highly regarded review journal Current Opinion in Biotechnology (2018 CiteScore 8.450) and is part of the Current Opinion and Research (CO+RE) suite of journals. All CO+RE journals leverage the Current Opinion legacy-of editorial excellence, high-impact, and global reach-to ensure they are a widely read resource that is integral to scientists' workflow.
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