EFFECTS OF LIGHT INTENSITY AND SPECTRAL COMPOSITION ON THE GROWTH AND METABOLISM OF SPINACH (SPINACIA OLERACEA L.)

Szerzők

  • Lőrinc UTASI Hungarian Academy of Sciences, Centre for Agricultural Research, Agricultural Institute, H-2462 Martonvásár, Brunszvik str. 2, Hungary; Szent István University, Faculty of Agricultural and Environmental Sciences, H-2100 Gödöllő, Páter Károly str. 1, Hungary
  • István MONOSTORI Hungarian Academy of Sciences, Centre for Agricultural Research, Agricultural Institute, H-2462 Martonvásár, Brunszvik str. 2, Hungary
  • Balázs VÉGH Hungarian Academy of Sciences, Centre for Agricultural Research, Agricultural Institute, H-2462 Martonvásár, Brunszvik str. 2, Hungary
  • Zoltán PÉK Szent István University, Faculty of Agricultural and Environmental Sciences, H-2100 Gödöllő, Páter Károly str. 1, Hungary
  • Éva DARKÓ Hungarian Academy of Sciences, Centre for Agricultural Research, Agricultural Institute, H-2462 Martonvásár, Brunszvik str. 2, Hungary

DOI:

https://doi.org/10.21406/abpa.2019.7.3

Kulcsszavak:

LED lighting, spinach, hydroponics, artificial light

Absztrakt

Spinach rich in proteins, minerals (Fe, K) and antioxidants (vitamin C) is often cultivated in greenhouses under artificial light. In this study, the effects of light intensity and spectral composition provided by light emitting diodes (LEDs) was studied on the yield quality and quantity of spinach. Plants were grown under 3 different light intensities (100/200/300 mol m -2 s ) and 3 spectral compositions (white/white completed with blue or far-red) for 4 weeks. Then plant weight, leaf number and area, photosynthetic activity and pigment composition of leaves were determined. The leaf quality was characterized by measurements of protein, starch, soluble sugar and ascorbate contents of leaves. Moreover, minerals (K, Fe and NO 3 ̅ -1 ) were also determined. While the biomass production was mainly determined by the light intensity, the yield quality is influenced significantly by the spectral composition. When the white light was supplemented with blue, high protein and ascorbate content was achieved. When far-red was added to white light, elevated sugar and Fe accumulation was observed in the leaves, while the K content decreased. In order to reach the hight quality and quantity of food production, not only the light fluence, but also the spectral composition should be regulated.

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Megjelent

2019-05-07

Folyóirat szám

Rovat

Research paper

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