Journal of
Horticulture and Forestry

  • Abbreviation: J. Hortic. For.
  • Language: English
  • ISSN: 2006-9782
  • DOI: 10.5897/JHF
  • Start Year: 2009
  • Published Articles: 316

Full Length Research Paper

Effects of light quality and photoperiod of light emitting LED on growth and biomass accumulation of shallot

Yue Zhang
  • Yue Zhang
  • Department of Physics, College of Science, Huazhong Agricultural University, Wuhan 430070, P. R. China.
  • Google Scholar
Xin Ran Wang
  • Xin Ran Wang
  • Department of Physics, College of Science, Huazhong Agricultural University, Wuhan 430070, P. R. China.
  • Google Scholar
Jianjun Chen
  • Jianjun Chen
  • Department of Physics, College of Science, Huazhong Agricultural University, Wuhan 430070, P. R. China.
  • Google Scholar


  •  Received: 03 April 2019
  •  Accepted: 23 May 2019
  •  Published: 31 May 2019

References

Abidi F, Girault T, Douillet O, Guillemain G, Sintes G, Laffaire M, Ben A, Smiti S, Huche-Thelier L, Leduc N (2013). Blue light effects on rose photosynthesisandphotomorphogenesis. Plant Biology 1:67-74.
Crossref

 

Chen XL, Yang QC, Song WP, Wang LC, Guo WZ, Xue XZ (2017). Growth and nutritional properties of lettuce affected by different alternating intervals of red and blue LED irradiation. Scientia Horticulturae 223:44-52.
Crossref

 

Harun AN, Ani NN, Ahmad R, Azmi NS (2013). Red and blue LED with pulse lighting control treatment for brassica chinensis in indoor farming. IEEE Conference on Open Systems 6:231-236.
Crossref

 

Lam KW, Pang JCW, Loo KH, Lai YM, Chau SY (2016). Evaluation of Growth and Quality in Latuca Sativa L. under Different Photoperiods. Journal of Modern Agriculture 5:8-12.

 

Lin K, Huang Z, Jin XY, Y Xu (2017).Progress of Research in Light Regulation for Plants. Chinese Journal of Tropical Crops 6:1163-1170.

 

Liu WK, Yang QC (2014).Current status and developmental trends of artificial lighting utilization in plant factory. China Illuminating Engineering Journal 25:50-53.

 

Liu XY, Xu ZG, Jiao XL, Chen WP (2012). Design on LED flexible light system and its effect on growth of spinach. Transactions of the Chinese Society of Agricultural Engineering 28(1):208-212

 

Massa GD, Kim HH, Wheeler RM, Mitchell CA (2008). Plant productivity in response to LED lighting. HortScience 43(7):1951-1956.
Crossref

 

Pfündel E, Baake E (1990). A quantitative description of fluorescence excitation spectra in intact bean leaves greened under intermittent light. Photosynthesis Research 1:19-28.

 

Shen XH, Wang QB, Zeng WL, Yan Y, Huang JX, Liang YY (2017). Effects of Light Quality on the Growth and Quality of Cabbage. Anhui Agricultural Science Bulletin 23:49-52.

 

Su SM (2014). Effects of light-emitting diodes on greenhouse plant growth. Journal of Anhui Agricultural Sciences 25:8494-8496.

 

Yu XS, Liu YP (2014). Status quo of china plant factory industry development and its future prospect. Agricultural Outlook 12:50-54.

 

Yu Y, Yang QC, Liu WK (2015). Effects of led red and blue light ratio on growth photosynthetic pigment contents of pea'cucumber and tomato seedlings. China Illuminating Engineering Journal 26:107-110.

 

Zang CS, Han JX, Zhao FY, Huang YH, Wang XN, Dong K (2014). Effect of fill lighting on the plants growth, yield and quality of winter-spring greenhouse cucumber. Northern Horticulture 23:39-40. 

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Zou LT, Jiang T, Wang Y, Xia LZ (2014a). Effect of Different Light Qualities of LED on the Growth of Aurieuzaria auricular Mycelia. Journal of Anhui Agricultural Sciences 10:2855-2856.

 

Zou XB, Zhang XL, Shi JY, Li ZH, Shen TT (2014b). Detection of chlorophyll content distribution in cucumber leaves based on hyperspectralimaging. Transactions of the Chinese Society of Agricultural Engineering 30:169-175.