不同的LED光强度和质量会改变多年生黑麦草的生理和生长反应以及水分和能量消耗。
Different LED light intensity and quality change perennial ryegrass ( L.) physiological and growth responses and water and energy consumption.
作者信息
Brito Cátia, Ferreira Helena, Dinis Lia-Tânia, Trindade Henrique, Marques David, Correia Carlos Manuel, Moutinho-Pereira José
机构信息
Centre for the Research and Technology of Agro-Environmental and Biological Sciences, University of Trás-os-Montes and Alto Douro, Vila Real, Portugal.
Institute for Innovation, Capacity Building and Sustainability of Agri-Food Production, University of Trás-os-Montes and Alto Douro, Vila Real, Portugal.
出版信息
Front Plant Sci. 2023 Apr 4;14:1160100. doi: 10.3389/fpls.2023.1160100. eCollection 2023.
Light intensity and spectral composition highly affect plant physiology, growth, and development. According to growing conditions, each species and/or cultivar has an optimum light intensity to drive photosynthesis, and different light spectra trigger photosynthetic responses and regulate plant development differently. For the maintenance of natural sports pitches, namely professional football competitions, turf quality is a key condition. Due to the architecture of most football stadiums, the lawns receive low intensities of natural light, so supplementary artificial lighting above the turf is required. The use of light-emitting diodes (LEDs) can have a higher cost-benefit ratio than traditional high-pressure sodium lamps. The continuous emission spectrum, combined with high spectral selectivity and adjustable optical power, can be used to optimize plant growth and development. Thus, perennial ryegrass ( L.) plants, commonly used for lawns, were primarily grown at three different intensities (200, 300, and 400 μmol m s) of cool white light. Despite the higher water and energy consumption, 400 μmol m s maximizes the plant's efficiency, with higher photosynthetic rates and foliar pigment concentration, and more foliar soluble sugars and aboveground biomass accumulation. Then, it was evaluated the perennial ryegrass (Double and Capri cultivars) response to different spectral compositions [100% cool white (W), 80% Red:20% Blue (R80:B20), 90% Red:10% Blue (R90:B10), and 65% Red:15% Green:20% Blue (R65:G15:B20)] at 400 μmol m s. Both cultivars exhibited similar responses to light treatments. In general, W contributed to the better photosynthetic performance and R90:B10 to the worst one. Water consumption and aboveground biomass were equal in all light treatments. R80:B20 allows energy savings of 24.3% in relation to the W treatment, showing a good compromise between physiological performance and energy consumption.
光照强度和光谱组成对植物的生理、生长和发育有很大影响。根据生长条件,每个物种和/或品种都有一个驱动光合作用的最佳光照强度,不同的光谱会引发不同的光合反应并以不同方式调节植物发育。对于天然运动场地(即专业足球比赛场地)的维护而言,草坪质量是关键条件。由于大多数足球场的建筑结构,草坪接受的自然光强度较低,因此需要在草坪上方补充人工照明。与传统的高压钠灯相比,使用发光二极管(LED)具有更高的成本效益比。连续发射光谱,结合高光谱选择性和可调光功率,可用于优化植物生长和发育。因此,常用于草坪的多年生黑麦草植株主要在三种不同强度(200、300和400 μmol m⁻² s⁻¹)的冷白光下生长。尽管水和能源消耗较高,但400 μmol m⁻² s⁻¹能使植物效率最大化,具有更高的光合速率和叶片色素浓度,以及更多的叶片可溶性糖和地上生物量积累。然后,评估了多年生黑麦草(Double和Capri品种)在400 μmol m⁻² s⁻¹ 下对不同光谱组成[100%冷白光(W)、80%红:20%蓝(R80:B20)、90%红:10%蓝(R90:B10)和65%红:15%绿:20%蓝(R65:G15:B20)]的响应。两个品种对光照处理表现出相似的响应。总体而言,W导致更好的光合性能,而R90:B10导致最差的光合性能。所有光照处理下的耗水量和地上生物量相等。与W处理相比,R80:B20可节省24.3%的能源,显示出生理性能和能源消耗之间的良好平衡。
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