利用自然光参数特性加速大豆叶片生长和茎强。

IF 2.6 4区生物学 Q2 PLANT SCIENCES

Functional Plant Biology Pub Date : 2025-07-01 DOI:10.1071/FP25111

Wei He

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引用次数: 0

摘要

红光(R)/蓝光(B)和红光(R)/远红光（Fr）的比值保持相对恒定，这是太阳光的独特特性。这可能是在人工光照条件下优化植物发育的新途径。研究了500μmol m-2 s-1条件下白光(W)、50% R - 50% B （RB）和光照（N, R/Fr=1.4, R/Fr=1.1）对大豆（Glycine max）植株生长的潜在影响。结果表明：在30 ~ 60d内，施氮处理叶片总干重较施W和施RB处理迅速增加；在50d时，N处理大豆植株Rubisco活性和叶绿素含量高于W处理。氮处理的茎、叶柄干重在30 ~ 60d内增长了454.3%。与W和RB处理相比，N处理50d时茎秆中木质素含量分别提高了26.9%和34.5%。在50d时，N处理的纤维素含量分别比W和RB处理高22.9%和26.2%。氮处理比RB处理使茎部13c同化提高10.5%。在人工光环境下，光谱组合对大豆植株生长和茎强有促进作用。

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Accelerating soybean (Glycine max) leaf growth and stem strength by using natural daylight parameter characteristics.

The ratios of red light (R)/blue light (B) and R/far-red light (Fr) stay relatively constant, which is the unique properties of sunlight. It may be a new way to optimise plant development in artificial lighting conditions. We assayed the potential effects of white light (W), 50% R 50% B (RB), and the unique properties of sunlight (N, R/Fr=1.4, R/Fr=1.1) under 500μmol m-2 s-1 on soybean (Glycine max ) plant growth. Our results showed that total leaf dry weight under N rapidly increased compared with the W and RB treatments from 30days to 60days. Soybean plants under N treatment had higher Rubisco activity and chlorophyll content than the W treatment at 50days. Stem and petiole dry weight under N treatment grew by 454.3% from 30 days to 60days. Compared with W and RB treatments, lignin content in the stems was also 26.9% and 34.5% higher at 50days under N treatment, respectively. N treatment caused 22.9% and 26.2% higher cellulose content than the W and RB treatments at 50days, respectively. N treatment led to 10.5% higher 13 C assimilation than the RB treatment in stems. The spectral combination of sunlight enhanced soybean plant growth and stem strength in artificial light environment.

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来源期刊

Functional Plant Biology 生物-植物科学

CiteScore

5.50

自引率

3.30%

发文量

156

审稿时长

1 months

期刊介绍： Functional Plant Biology (formerly known as Australian Journal of Plant Physiology) publishes papers of a broad interest that advance our knowledge on mechanisms by which plants operate and interact with environment. Of specific interest are mechanisms and signal transduction pathways by which plants adapt to extreme environmental conditions such as high and low temperatures, drought, flooding, salinity, pathogens, and other major abiotic and biotic stress factors. FPB also encourages papers on emerging concepts and new tools in plant biology, and studies on the following functional areas encompassing work from the molecular through whole plant to community scale. FPB does not publish merely phenomenological observations or findings of merely applied significance. Functional Plant Biology is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science. Functional Plant Biology is published in affiliation with the Federation of European Societies of Plant Biology and in Australia, is associated with the Australian Society of Plant Scientists and the New Zealand Society of Plant Biologists.