Effect Of Light Spectrum LED Lettuce on IOT-Based Indoor Farming

Biotropika: Journal of Tropical Biology Pub Date : 2023-05-23 DOI:10.21776/ub.biotropika.2023.011.01.05

Moh. Haris Imron S Jaya, Septafiansyah Dwi Putra, Imam Sofi’i

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Abstract

Lettuce (Lactuca sativa L.) is an economically important crop worldwide and one of the most popular species grown in indoor farming. Lettuce's fast growth and growing cycle make lettuce a model plant to study the interaction between plants and light. The influence of light is one of the fundamental environmental factors for plant growth and development. Light-emitting diodes (LEDs) have higher light efficiency and higher wear efficacy, leading to a reduction in associated heating compared to other artificial lighting sources, such as fluorescent lamps or sodium vapor lamps. This research aimed to determine different responses of the morphological response of lettuce by giving LED light spectrum with a single color spectrum difference and IOT-based temperature and humidity monitoring. This research used a t-student test with a level of 5% on the mean value of the white light spectrum with a yellow light on lettuce plants. The addition of the LED light spectrum produces a different response to the morphological parameters. The addition of the LED spectrum gave a response to the plant height variable, where the provision of a yellow LED light spectrum resulted in plant height which affected lettuce plants

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光谱LED生菜对物联网室内农业的影响

莴苣(Lactuca sativa L.)是世界范围内重要的经济作物，也是室内种植最受欢迎的品种之一。生菜的快速生长和生长周期使其成为研究植物与光相互作用的模式植物。光的影响是植物生长发育的基本环境因子之一。发光二极管(led)具有更高的光效和更高的磨损效率，与其他人工光源(如荧光灯或钠蒸气灯)相比，可以减少相关的加热。本研究旨在通过给予单色光谱差异的LED光谱和基于物联网的温湿度监测，确定生菜形态响应的不同响应。这项研究使用了t-student检验，在生菜上白光光谱的平均值上加黄光的水平为5%。LED光谱的加入对形态参数产生了不同的响应。添加LED光谱对植物高度变量做出了响应，其中提供黄色LED光谱导致植物高度影响生菜

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Biotropika: Journal of Tropical Biology

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