Vol. 28 No. 4 (2014):
Articles

A novel aeroponic technique using dry-fog spray fertigation to grow leaf lettuce (Lactuca sativa L. var. crispa) with water-saving hydroponics

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  • Y. Hikosaka,
  • M. Kanechi,
  • Y. Uno
Y. Hikosaka
Graduate School of Agricultural Science, Kobe University, Kobe 657-8501, Japan.
M. Kanechi
Graduate School of Agricultural Science, Kobe University, Kobe 657-8501, Japan.
Y. Uno
Graduate School of Agricultural Science, Kobe University, Kobe 657-8501, Japan.
DOI: https://doi.org/10.36253/ahsc-18440
Categories

Published 2014-12-31

Keywords

  • Ascorbic acid,
  • hydroponics,
  • root respiration,
  • soilless culture,
  • sprayponics

How to Cite

Hikosaka, Y., Kanechi, M., & Uno, Y. (2014). A novel aeroponic technique using dry-fog spray fertigation to grow leaf lettuce (Lactuca sativa L. var. crispa) with water-saving hydroponics. Advances in Horticultural Science, 28(4), 184–189. https://doi.org/10.36253/ahsc-18440

Copyright (c) 2014 Y. Hikosaka, M. Kanechi, Y. Uno

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

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Abstract

Growth characteristics of lettuce cultivated using a novel “dry-fog” hydroponic technique were investigated and compared to lettuce cultivated using deep flow technique (DFT) as the prevailing hydroponic technique. Dry-fog hydroponics is an aeroponic technique that sprays a very fine foggy nutrient solution with an average droplet diameter of less than 10 μm into the root zone. The roots extend into the chamber filled with dry-fog of the liquid fertilizer and absorb water and nutrients from the dry-fog that fills the rhizosphere. This soilless culture system needs less water than any other hydroponic technique, and no differences were found in growth and harvest quality of plants between the two tested sytems. For dry-fog culture, root growth was encouraged and root hair significantly developed to catch the foggy nutrient solution efficiently. The contents of ascorbic acid, nitrate nitrogen, Ca+ and chlorophyll of leaves were not significantly different between the two hydroponic cultures. However, respiration rate of roots and photosynthetic rate of leaves significantly increased with dry-fog culture. Because the amount of water around the roots is less with dry-fog, horticultural crops are expected to grow well with this novel hydroponic technique which optimizes the growth and quality of plants with water-saving hydroponics.

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References

  1. BATES T.R., LYNCH J.P., 1996 - Stimulation of root hair elongation in Arabidopsis thaliana by low phosphorus availability. - Plant, Cell Environ., 19(5): 529-538.
  2. BIDDINGER E.J., LIU C., JOLY R.J., RAGHOTHAMA K.G., 1998 - Physiological and molecular responses of aeroponically grown tomato plants to phosphorus deficiency. - J. Am. Soc. Hortic. Sci., 123(2): 330-333.
  3. CHAMPOLIVIER L., MERRIEN A., 1996 - Effects of water stress applied at different growth stages to Brassica napus L. var. oleifera on yield, yield components and seed quality. - Eur. J. Agron., 5(3-4): 153-160.
  4. CHERIF M., TIRILLY Y., BELANGER R.R., 1997 - Effect of oxygen concentration on plant growth, lipidperoxidation, and receptivity of tomato roots to Pythium F under hydroponic conditions. - Eur. J. Plant Pathol., 103(3): 255-264.
  5. FARREN I., MINGO-CASTEL A.M., 2006 - Potato minituber production using aeroponics: effect of plant density and harvesting intervals. - Am. J. Potato Res., 83: 47-53.
  6. HANSEN G.K., 1980 - Diurnal variation of root respiration rates and nitrate uptake as influenced by nitrogen supply. - Physiol. Plant, 48: 421-427.
  7. HILLEL S., DAVID W.B., 1988 - Effect of dissolved oxygen concentrations in aero-hydroponics on the formation and growth of adventitious roots. - J. Am. Soc. Hortic. Sci., 113(2): 218-221.
  8. JING L., YUNWEI Z., 2013 - An automatic aeroponics growth system based on ultrasonic atomization. - Appl. Mech. Mater., 288: 161-166.
  9. KIRDA C., CETIN M., DASGAN Y., TOPCU S., KAMAN H., EKICI B., DERICI M.R., OZGUVEN A.I., 2004 - Yield response of greenhouse grown tomato to partial root drying and conventional deficit irrigation. - Agric. Water Management, 69(3): 191-201.
  10. KOYAMA R., ITOH H., KIMURA S., MORIOKA A., UNO Y., 2012 - Augmentation of antioxidant constituents by drought stress to roots in leafy vegetables. - HortTechnology, 22(1): 121-125.
  11. LIU C.Z., GUO C., WANG Y.C., OUYANG F., 2003 - Comparison of various bioreactors on growth and artemisinin biosynthesis of Artemisia annua L. shoot cultures. - Process Biochem., 39: 45-49.
  12. MA Z., BIELENBERG D.G., BROWN K.M., LYNCH J.P., 2001 - Regulation of root hair density by phosphorus availability in Arabidopsis thaliana. - Plant, Cell Environ., 24: 459-467.
  13. MOHAMMAD A., KHAN A.G., KUEK C., 2000 - Improved aeroponic culture of inocula of arbuscular mycorrhizal fungi. - Mycorrhiza, 9(6): 337-339.
  14. REDDY A.R., CHAITANYA K.V., VIVEKANANDAN M., 2004 - Drought-induced responses of photosynthesis and antioxidant metabolism in higher plants. - J. Plant Physiol., 161(11): 1189-1202.
  15. RITTER E., ANGULO B., RIGA P., HERRAN C., RELLOSO J., 2001 - Comparison of hydroponic and aeroponics cultivation systems for the production of potato minituber. - Potato Res., 44(2): 127-135.
  16. ROBINSON M., BUNCE J.A., 2000 - Influence of drought-induced water stress on soybean and spinach leaf ascorbatedehydroascorbate level and redox status. - Int. J. Plant Sci., 161(2): 271-279.
  17. WEATHERS P.J., ZOBEL R.W., 1992 - Aeroponics for the culture of organisms, tissues and cells. - Biotechnol. Adv., 10(1): 93-115.
  18. ZHAO X., LI T.L., SUN Z.P., 2010 - Effects of prolonged rootzone CO2 treatment on morphological parameter and nutrient uptake of tomato grown in aeroponic system. - J. Appl. Bot. Food Qual., 83(2): 212-216.