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Vol. 18 No. 2 (2019)

Articles

EFFECT OF DIFFERENT K+/CA2+ RATIOS ON YIELD, QUALITY AND PHYSIOLOGICAL DISORDER IN SOILLESS STRAWBERRY CULTIVATION

DOI: https://doi.org/10.24326/asphc.2019.2.20
Submitted: April 15, 2019
Published: 2019-04-15

Abstract

The balance of mineral nutrients in plant nutrient solutions has an influence on yield, fruit quality and physiological disorder of strawberries grown in soilless conditions. Nutrient solutions that enhance the yield and quality of plants grown in soilless conditions are optimized through anion-cation equilibrium, optimum K++Ca2+/Mg2+ and K+/Ca2+ ratios. In this study, the effect of three different K+/Ca2+ ratios (5.5/7.0; 5.0/7.0; 6.0/6.0) on some morpho-physiological features (crown diameter, chlorophyll index, leaf temperature), fruit yield, fruit quality (fruit weight, total soluble solids, titratable acidity, ascorbic acid, firmness) and physiological disorder (tip burn) of ‘Albion’ and ‘Festival’ strawberries, were investigated. Results show that increasing K+/Ca2+ ratios significantly accelerated the tip burn incidence. On the other hand, the highest yield, firmness and the lowest tip burn were achieved at 5.5/7.0 ratio of K+/Ca2+ treatment.

References

  1. Adak, N. (2009). Effects of different growing media on the yield and quality of soilless grown strawberries. PhD thesis. Akdeniz University, Faculty of Agriculture, Department of Horticulture, Turkey. 232 pp.
  2. Arshad, M., Deljou, M., Haghshenas, M., Gholizadeh, S. (2015). Antioxidative capacity and quality of strawberry fruit (Fragaria × ananassa Duch. ‘Selva’) under the balance of minerals nutrition. Biol. Forum, 7, 91–97.
  3. AOAC. (1980). Official methods of analysis, 13th ed. Association of Official Analytical Chemists, Washington, DC, USA. Section 31.034.
  4. AOAC. (1995). Official methods of analysis. Association of official analytical chemists, Gaithersburg, MD.
  5. Bustomi Rosadi, R.A., Senge, M., Suhandy, D., Tusi, A. (2014). The effect of EC levels of nutrient solution on the growth, yield, and quality of tomatoes (Solanum lycopersicum) under the hydroponic system. J. Agric. Eng. Biotechnol., 2(1), 7–12.
  6. Caruso, G., Villari, G., Impembo, M. (2003). Effect of nutritive solution K : N and shading on the fruit quality of NFT-grown strawberry. Acta Hortic., 614, 727–734, https://doi.org/10.17660/ActaHortic.2003.614.108
  7. Chadirin, Y., Matsuoka, T., Suhardiyanto, H., Susila, A.D. (2007). Application of deep sea water (DSW) for nutrient supplement in hydroponics cultivation of tomato: Effect of supplemented DSW at different EC Levels on fruit properties. Bull. Agron., 35(2), 118–126.
  8. Choi, J.M., Park, J.Y., Latigui, A. (2011). Impact of physicochemical properties of root substrates on growth of mother plants and occurence of daughter plants in seolhyang strawberry propagation through bag culture. Kor. J. Hortic. Sci. Technol., 29, 95–101.
  9. D’anna, F., Incalcaterra, G., Moncada, A., Miceli, A. (2003). Effects of different electrical conductivity levels on strawberry grown in soilless culture. Acta Hortic., 609, 355–360, https://doi.org/10.17660/ ActaHortic.2003.609.53
  10. Demirsoy, L., Serce, S. (2016). Strawberry culture in Turkey. Acta Hortic., 113, 479–486, https://doi.org/10.17660/ActaHortic.2016.1139.82
  11. Dorais, M., Papadoulos, A.P., Gosselin, A. (2001). Greenhouse tomato fruit quality. Hortic. Rev. Am. Soc. Hortic. Sci., 26, 239–319.
  12. Ehret, D.L., Ho, L.C. (1986). Translocation of calcium in relation to tomato fruit growth. Ann. Bot., 58, 679–688.
  13. Fanasca, S., Colla, G., Maiani, G., Venneria, E., Rouphael, Y., Azzini, E., Saccardo, F. (2006). Changes in Antioxidant Content of Tomato Fruits in Response to Cultivar and Nutrient Solution Composition. J. Agric. Food Chem., 54(12), 4319–4325.
  14. Ganjehi, B., Golchin, A. (2012). The effect of different levels of N, K and Mg on yield and growth indices of strawberry in hydroponic culture. J. Sci. Technol. Greenhouse Cult., 2(8), 71–81.
  15. Gruda, N. (2009). Do soilless culture have an influence on product quality of vegetables? J. Appl. Bot. Food Quality, 82, 141–147.
  16. Guo, S.Y., Shen, Q., Zhang, F. (2007). Effect of ammonium and nitrate nutrition on some physiological processes in higher plants – Growth, photosynthesis, photorespiration, and water relations. Plant Biol., 9(1), 21–29.
  17. Ho, L.C., Belda, R., Brown, M., Andrews, J., Adams, P. (1993). Uptake and transport of calcium and the possible causes of blossom-end rot in tomato. J. Hortic. Sci., 44, 509–518.
  18. Kaya, C., Kirnak, H., Higgs, D., Saltali, K. (2002). Supplementary calcium enhances plant growth and fruit yield in strawberry cultivars grown at high (NaCl) salinity. J. Hortic. Sci. Biotechnol., 93, 65–74.
  19. Kim, H.J., Cho, Y.S., Kwon, O.K., Cho, M.W., Hwang, J.B., Jeon, W.T., Bae, S.D. (2005). Effect of hydroponic solution pH on the growth of greenhouse rose. Asian J. Plant Sci., 4(1), 17–22.
  20. Lieten, P. (2006). Effect of K : Ca : Mg ratio on performance of Elsanta strawberries grown on peat. Acta Hortic., 708, 397–400.
  21. Mason, G.F., Guttridge, C.G. (1974). The role of calcium, boron and some divalent ions in leaf tipburn of strawberry. Sci. Hortic., 2, 299–308.
  22. Mason, G.F., Guttridge, C.G. (1975). The influence of relative humidity and nutrition on leaf tip burn of strawberry. Sci. Hortic., 3(4), 339–349.
  23. Neocleous, D., Savvas, D. (2013). Response of hydroponically-grown strawberry (Fragaria × ananassa Duch.) plants to different ratios of K : Ca : Mg in the nutrient solution. J. Hortic. Sci. Biotechnol., 88(3), 293–300.
  24. Nestby, R., Lieten, F., Pivot, D., Raynal Lacroix, C., Tagliavini, C.M. (2005). Influence of mineral nutrients on strawberry fruit quality and their accumulation in plant organs: A Review. Int. J. Fruit Sci., 5(1), 139–156.
  25. Portela, I.P., Peil, R.M.N., Rombaldi, C.V. (2012). Effect of nutrient concentration on growth, yield and quality of strawberries in hydroponic system. Hortic. Bras., 30(2), 266–273.
  26. Raviv, M., Lieth, J.H. (2008). Soilless Culture: Theory and Practice Elsevier, Amsterdam, The Netherlands, p. 587.
  27. Sarooshi, R.A., Cresswell, G.C. (1994). Effects of hydroponic solution composition, electrical conductivity and plant spacing on yield and quality of strawberries. Aust. J. Exp. Agric., 34(4), 529–535.
  28. Schaik, A.C.R., van, Vuurst de Vries, R.G., van de, Driessen, J.J.M. (1988). Marked differences in flavour and keeping quality of strawberries. Elvira and Korona have the best flavour. Groenten and Fruit, 44(2), 39–41.
  29. Seyedi, A., Ebadi, A., Babalar, M. (2014). Effect of potassium levels in nutrient solution, harvest season, and plant density on quantity and quality of strawberry fruit (cv. Selva) in hydroponic system conditions. Iran. J. Hortic. Sci., 44(4), 423–429.
  30. Tabatabaei, S.J., Fatemi, L.S., Fallahi, E. (2006). Effect of ammonium nitrate ratio on yield, calcium concentration and photosynthesis rate in strawberry. J. Plant Nutr., 29(7), 1273–1285.
  31. Trejo-Tellez, L.I., Gomez-Merino, F.C. (2012). Nutrient Solutions for Hydroponic Systems. In: Hydroponics – A Standard Methodology for Plant Biological Researches, Toshiki Asao (ed.), InTech. DOI: 10.5772/37578
  32. Trejo-Tellez, L.I., Gomez-Merino, F.C. (2014). Nutrient Management in Strawberry: Effects on Yield, Quality and Plant Health. In: Strawberries, Malone, N. (ed.). Nova Science Publishers, Hauppauge, New York, 239–267.

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