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采用白色和单色 LED 为“Outredgeous”红罗马生菜探索光照方案的策略方法。

A strategic approach for investigating light recipes for 'Outredgeous' red romaine lettuce using white and monochromatic LEDs.

机构信息

National Aeronautics and Space Administration, Kennedy Space Center, FL 32899, United States.

National Aeronautics and Space Administration, Kennedy Space Center, FL 32899, United States.

出版信息

Life Sci Space Res (Amst). 2018 Nov;19:53-62. doi: 10.1016/j.lssr.2018.09.003. Epub 2018 Sep 18.

DOI:10.1016/j.lssr.2018.09.003
PMID:30482283
Abstract

To optimize crop production/quality in space, we studied various "light recipes" that could be used in the Advanced Plant Habitat currently aboard the International Space Station (ISS). Lettuce (Lactuca sativa cv. 'Outredgeous') plants were grown for 28 days under seven treatments of white (W) LEDs (control), red (635 nm) and blue (460 nm) (RB) LEDs, W + blue (B) LEDs, W + green (520 nm) (G) LEDs, W + red (R) LEDs, W + far red (745 nm) (FR) LEDs, and RGB + FR LEDs with ratios similar to natural sunlight. Total PAR was maintained near 180 µmol m s with an 18 h photoperiod. Lettuce grown under RGB + FR produced the greatest leaf expansion and overall shoot biomass, while leaves from WB and RB showed the highest levels of pigmentation, secondary metabolites, and elemental nutrients. All other supplemental treatments had varying impacts on morphology that were dependent on crop age. The WG treatment increased fresh mass early in the cycle, while WR increased biomass later in the cycle. The plants grown under WFR exhibited elongation of petioles, lower nutrient content, and similar shoot biomass to the W control. The findings suggest that supplementing a broad spectrum, white light background with discrete wavelengths can be used to manipulate total yield, morphology, and levels of phytonutrients in lettuce at various times during the crop cycle.

摘要

为了优化太空作物的生产/质量,我们研究了各种“光照配方”,这些配方可以在国际空间站(ISS)上现有的高级植物栖息地中使用。我们在七种处理条件下培养生菜(Lactuca sativa cv. 'Outredgeous')植株 28 天,这七种处理条件分别为白光(W)LED(对照)、红(635nm)和蓝(460nm)(RB)LED、W+蓝(B)LED、W+绿(520nm)(G)LED、W+红(R)LED、W+远红(745nm)(FR)LED,以及 RGB+FR LED,其光的比例与自然光相似。在 18 小时光周期下,总 PAR 保持在近 180µmol•m-2•s-1。在 RGB+FR 下生长的生菜叶片扩张最大,总生物量最高,而 WB 和 RB 下的叶片色素、次生代谢物和元素营养水平最高。所有其他补充处理对形态的影响因作物年龄而异。WG 处理在周期早期增加了鲜重,而 WR 处理在周期后期增加了生物量。在 WFR 下生长的植株表现出叶柄伸长、养分含量较低,与 W 对照相比,生物量相似。研究结果表明,在白光背景下补充离散波长的光可以用于在作物周期的不同时间操纵生菜的总产量、形态和植物营养素水平。

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