The use of LEDs for the stomatal response, light compensation points, and storage of spinach and kale

IF 3.9 2区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of photochemistry and photobiology. B, Biology Pub Date : 2024-06-18 DOI:10.1016/j.jphotobiol.2024.112959
Anne-Sophie Rufyikiri, Philip Wiredu Addo, Bo-Sen Wu, Sarah MacPherson, Valérie Orsat, Mark Lefsrud
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Abstract

The spectral composition of some light-emitting diodes (LEDs) reportedly results in higher crop yield, prevents wilting, and reduces thermal damage to plants. The use of LEDs for postharvest storage and shelf-life extension has been limited, but the potential of this technology will allow for greater applications in horticulture and the food industry. In this experiment, ‘Winterbor’ kale (Brassica oleracea) and ‘Melody’ spinach (Spinacia oleracea) plants were measured for the light compensation point and stomatal response under 14 different wavelengths of light ranging from 405 to 661 nm. Data collected from these measurements were used to select two different wavelengths of LEDs and determine the proper irradiance levels for an LED irradiance storage test on spinach and kale. Treatments comprising blue, red, and amber lights were effective at increasing the stomatal opening, while the green light resulted in reduced stomatal opening. For spinach, the light response curve showed that light compensation points at 500 nm and 560 nm were 65.3 and 64.7 μmol m−2 s−1, respectively. For kale, the light compensation points at 500 nm and 560 nm were 50.8 and 44.1 μmol m−2 s−1, respectively. For the storage test experiment at room temperature, kale and spinach were stored under four different treatments: dark treatment (control), standard white fluorescent light, 500 nm, and 560 nm LED wavelengths. For spinach, the moisture content was 70.1% at 560 nm and 53.7% for dark, moisture losses of 41.5% under the 560-nm treatment and 52.0% for the dark treatment. The fresh basis moisture content was 74.6% at 560 nm and 59.3% in the dark. Moisture loss under the 560 nm treatment was 39.6% while the dark treatment had a 54.0% moisture loss. A visual assessment scale was monitored, 560 nm resulted in the top visual quality for kale compared to the other treatments with the lowest visual quality under the dark treatment at day 4. For spinach, the visual quality for 560 nm treatment was statistically the standard white fluorescent light and 500 nm, with poor-quality product occurring by day 4 and the lowest-quality product occurring at day 5. The LED treatments improved the shelf life of spinach and kale, likely as a result of stomatal aperture closure, photosynthetic rate near the light compensation point and stability of the atmospheric moisture content. This study provides valuable information on the extension of the shelf life of leafy greens during storage. Reducing fresh produce waste in grocery stores will increase revenue, thereby benefiting the Canadian economy while providing social and environmental benefits that entail increased food security and reduced food waste.

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将 LED 用于菠菜和甘蓝的气孔反应、光补偿点和储藏。
据报道,某些发光二极管(LED)的光谱成分可提高作物产量,防止枯萎,并减少对植物的热损伤。LED 在收获后贮藏和延长货架期方面的应用还很有限,但这项技术的潜力将使其在园艺和食品工业中得到更广泛的应用。在这项实验中,对'Winterbor'甘蓝(Brassica oleracea)和'Melody'菠菜(Spinacia oleracea)植物在 14 种不同波长(从 405 纳米到 661 纳米)的光照下的光补偿点和气孔反应进行了测量。从这些测量中收集的数据用于选择两种不同波长的 LED,并确定 LED 在菠菜和羽衣甘蓝上的辐照度存储测试的适当辐照度水平。由蓝光、红光和琥珀色光组成的处理能有效增加气孔开放,而绿光则导致气孔开放减少。菠菜的光反应曲线显示,500 纳米和 560 纳米处的光补偿点分别为 65.3 和 64.7 μmol m-2 s-1。甘蓝在 500 纳米和 560 纳米处的光补偿点分别为 50.8 和 44.1 μmol m-2 s-1。在室温下的贮藏测试实验中,羽衣甘蓝和菠菜分别在四种不同的处理条件下贮藏:黑暗处理(对照)、标准白色荧光灯、500 纳米和 560 纳米 LED 波长。菠菜在 560 纳米波长下的含水量为 70.1%,在黑暗处理下的含水量为 53.7%,在 560 纳米波长处理下的水分损失为 41.5%,在黑暗处理下的水分损失为 52.0%。在 560 纳米波长下,新鲜基础含水量为 74.6%,暗处理为 59.3%。560 纳米处理下的水分损失为 39.6%,而黑暗处理下的水分损失为 54.0%。监测了视觉评估表,与其他处理相比,560 纳米处理甘蓝的视觉质量最高,暗处理在第 4 天的视觉质量最低。就菠菜而言,560 纳米处理的视觉质量在统计上与标准白色荧光灯和 500 纳米处理相当,第 4 天出现劣质产品,第 5 天出现最低质量产品。LED 处理提高了菠菜和羽衣甘蓝的货架期,这可能是气孔孔径关闭、光合速率接近光补偿点以及大气含水量稳定的结果。这项研究为延长绿叶菜在储存期间的货架期提供了宝贵的信息。减少杂货店的新鲜农产品浪费将增加收入,从而有利于加拿大经济,同时带来社会和环境效益,包括提高食品安全和减少食物浪费。
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来源期刊
CiteScore
12.10
自引率
1.90%
发文量
161
审稿时长
37 days
期刊介绍: The Journal of Photochemistry and Photobiology B: Biology provides a forum for the publication of papers relating to the various aspects of photobiology, as well as a means for communication in this multidisciplinary field. The scope includes: - Bioluminescence - Chronobiology - DNA repair - Environmental photobiology - Nanotechnology in photobiology - Photocarcinogenesis - Photochemistry of biomolecules - Photodynamic therapy - Photomedicine - Photomorphogenesis - Photomovement - Photoreception - Photosensitization - Photosynthesis - Phototechnology - Spectroscopy of biological systems - UV and visible radiation effects and vision.
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