红光子在温室番茄生产中的利弊:增加红光子的百分比可以提高LED的效率,但植物的反应是品种特异性的

Paul Kusuma, Theoharis Ouzounis, David Hawley, T. Kerstens, L. Marcelis, E. Heuvelink
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引用次数: 1

摘要

冬季温室番茄生产需要补充照明,优化光谱必须同时考虑产量和能源使用。在一项为期20周的冬季温室试验中,两种常见的商业番茄品种“Merlice”和“Brioso”在四种LED光谱下生长,红色光子分别为38%、63%、81%和95%。随着红色光子百分比的增加,蓝色和绿色百分比减少(不是以相同的比例)。茎长、比叶面积和干质量分配均不受光谱的显著影响,但赤色率从38%提高到95%,收获果实鲜质量下降13%,植株总干质量下降7.1%,果实干质量下降9.5%。“Brioso”在这些参数上没有显著差异。在两个品种中,产量kWh−1随红色百分比的增加而增加,因为具有更高比例的660 nm红色LED的LED灯具具有更高的光子效率(µmol J−1)。在这项研究中,灯的效率估计在2.6到3.6µmol J−1之间。在为温室选择光谱时,种植者必须考虑在某些品种的产量和功效之间可能发生的权衡,以及这些因素如何适用于他们的情况。
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On the pros and cons of red photons for greenhouse tomato production: increasing the percentage of red photons improves LED efficacy but plant responses are cultivar-specific
ABSTRACT Supplemental lighting is necessary for winter greenhouse tomato production, and optimised spectra must consider both yield and energy use. In a 20-week winter greenhouse experiment, two common commercial tomato cultivars – ‘Merlice’ and ‘Brioso’ – were grown under four LED spectra with 38%, 63%, 81%, and 95% red photons. As the percentage of red photons increased, the blue and green percentages decreased (not at the same ratio). Stem length, specific leaf area, and dry mass partitioning were not significantly affected by spectra in either cultivar, but increasing the red percentage from 38% to 95% decreased harvested fruit fresh mass by 13%, total plant dry mass by 7.1%, and fruit dry mass by 9.5% in ‘Merlice’. There were no significant differences in these parameters for ‘Brioso’. The yield kWh−1 increased with increasing percent red in both cultivars because LED fixtures with higher fractions of photons from 660 nm red LEDs have higher photon efficacies (µmol J−1). The efficacies of the lamps in this study were estimated to range from 2.6 to 3.6 µmol J−1. Growers must consider tradeoffs that can occur between yield and efficacy in some cultivars, and how these factors apply to their situation, when choosing the spectrum for their greenhouse.
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