LED光谱与氮素水平对草莓（达奇）生理变化及产量的交互作用

Interactive Effects of LED Spectrum and Nitrogen Levels on Physiological Changes and Yield of Strawberry ( Duch.).

作者信息

Salisu Jibia Sirajo, Panjama Kanokwan, Inkham Chaiartid, Sato Takashi, Ohtake Norikuni, Ruamrungsri Soraya

机构信息

Department of Plant and Soil Sciences, Faculty of Agriculture, Chiang Mai University, Chiang Mai 50200, Thailand.

Ph.D. Horticulture Program, Department of Plant and Soil Sciences, Faculty of Agriculture Under the CMU Presidential Scholarship, Chiang Mai University, Chiang Mai, 50200, Thailand.

出版信息

Plants (Basel). 2024 Dec 31;14(1):89. doi: 10.3390/plants14010089.

DOI:10.3390/plants14010089

PMID:39795348

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11723106/

Abstract

Strawberries are valued globally for their nutritional, aesthetic, and economic benefits. Optimizing blue-to-red LED ratios and nitrogen levels is essential for sustainable indoor strawberry cultivation. This factorial study investigated the effects of blue and red LED combination ratios (L1; 1:3, L2; 1:4, and L3; 1:6) and nitrogen levels (N1; 100 and N2; 200 mg/L) on the physiology and performance of strawberries in a plant factory. The results revealed that the interaction of L3 coupled with N2 maximized the vegetative growth of strawberry plants, whereas L2 and N2 produced the greatest biomass, while L2 interacted with N1 to expedite flowering. Photosynthesis and transpiration were enhanced by L3, particularly with 100 mg/L of nitrogen. The highest fruit yield and total soluble solids were obtained at the interaction of L3 and N1. Leaf nutrient analysis showed the highest nitrogen concentration at L1, while potassium increased with higher red LED ratios. The 100 mg/L nitrogen treatment resulted in higher leaf potassium concentrations than the 200 mg/L. These findings emphasize that LED spectra and nitrogen levels interact to optimize the physiology, vegetative and reproductive growth, maximizing fruit yield and quality in indoor strawberry cultivation. The study also concludes that the application of blue and red LED in the ratio of 1:6 with 100 mg/L nitrogen can improve indoor 'Praratchatan 80' strawberry performance.

摘要

草莓因其营养、美观和经济效益而在全球受到重视。优化蓝光与红光LED比例以及氮水平对于室内草莓的可持续种植至关重要。这项析因研究调查了蓝光和红光LED组合比例（L1；1:3、L2；1:4和L3；1:6）以及氮水平（N1；100和N2；200毫克/升）对植物工厂中草莓生理和性能的影响。结果表明，L3与N2的相互作用使草莓植株的营养生长最大化，而L2和N2产生了最大的生物量，同时L2与N1相互作用加快了开花。L3增强了光合作用和蒸腾作用，尤其是在氮含量为100毫克/升时。在L3和N1的相互作用下获得了最高的果实产量和总可溶性固形物。叶片养分分析显示，L1的氮浓度最高，而钾含量随着较高的红光LED比例而增加。100毫克/升氮处理的叶片钾浓度高于200毫克/升。这些发现强调，LED光谱和氮水平相互作用以优化生理、营养和生殖生长，从而在室内草莓种植中使果实产量和品质最大化。该研究还得出结论，以1:6的比例应用蓝光和红光LED并搭配100毫克/升氮可以提高室内“Praratchatan 80”草莓的性能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0538/11723106/ae457f547523/plants-14-00089-g001.jpg

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LED光谱与氮素水平对草莓（达奇）生理变化及产量的交互作用

Interactive Effects of LED Spectrum and Nitrogen Levels on Physiological Changes and Yield of Strawberry ( Duch.).

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