The effects of physicochemical properties of hydroponic substrates on the uptake of macronutrients in potato shoot, root and minitubers

References

• Afrasiabi, M., M. Amini Dehaghi, and S. Modarres Sanavy. 2010. Effect of phosphate biofertilizer Barvar-2 and triple super phosphate fertilizer on yield, quality and nutrient uptake of Medicago scutellata, cv. Robinson. Journal of Science and Agriculture 4:43–54.
   Google Scholar
• Ali-Ehyaie, M., and A. A. Behbahanizadeh. 1993. Methods of soil analysis. Soil and Water Research Institute.
   Google Scholar
• Bhattarai, B., and K. Swarnima. 2016. Effect of potassium on quality and yield of potato tubers–A review. SSRG International Journal of Agriculture & Environmental Science 3:2394–568.
   Google Scholar
• Blake, G., and K. Hartge. 1986. Particle density. Methods of Soil Analysis: Part 1 Physical and Mineralogical Methods 5:377–82.
   Google Scholar
• Brianna, S. 2006. The effect of hydroponics potato growth. Media Wiki.
   Google Scholar
• Cantliffe, D., J. Funes, E. Jovicich, A. Paranjpe, J. Rodriguez, and N. Shaw. 2003. Media and containers for greenhouse soilless grown cucumbers, melons, peppers, and strawberries. Acta Horticulturae 614 (614):199–203. doi: 10.17660/ActaHortic.2003.614.28.
   Google Scholar
• Caron, J., and N. V. Nkongolo. 2004. Assessing gas diffusion coefficients in growing media from in situ water flow and storage measurements. Vadose Zone Journal 3 (1):300–11. doi: 10.2136/vzj2004.3000.
   Web of Science ®Google Scholar
• Cho, M.-S., Y.-Y. Park, H.-J. Jun, and J.-B. Chung. 2006. Growth of Gerbera in mixtures of coir dust and perlite. Horticulture Environment and Biotechnology 47:211–6.
   Google Scholar
• Chopra, S., A. Gupta, D. Bhat, and R. Rafiq. 2010. Uptake studies and yield effects in potato variety Kufri Badshah in response to varying levels of nitrogen and potassium. Journal of Hill Agriculture 1:40–2.
   Google Scholar
• Dhakal, R., S. Sah, S. Shakya, and K. Basnet. 2013. Tuber yield and quality of potato chips as affected by mulch, variety, and potash levels under western Terai. Agronomy Journal of Nepal 2:121–32. doi: 10.3126/ajn.v2i0.7527.
   Google Scholar
• Giménez, G., J. L. Andriolo, D. Janisch, and R. Godoi. 2008. Closed soilless growing system for producing strawberry bare root transplants and runner tips. Pesquisa Agropecuária Brasileira 43 (12):1757–61. doi: 10.1590/S0100-204X2008001200016.
   Web of Science ®Google Scholar
• Gül, A., N. Gül Aydoğan, and F. Kidoğlu. 2009. A survey on the current status of soilless cultivation in Turkey. Acta Horticulturae 807 (807):565–70. doi: 10.17660/ActaHortic.2009.807.83.
   Google Scholar
• Gutiérrez, F. X. F., R. F. López, M. E. M. Herrera, and O. F. Mora. 2018. Response of the Mexican clone of potato 99-39 to potassium in hydroponics and greenhouse. Revista Mexicana de Ciencias Agrícolas 9:1123–1135.
   Google Scholar
• Hafsi, C., A. Debez, and C. Abdelly. 2014. Potassium deficiency in plants: Effects and signaling cascades. Acta Physiologiae Plantarum 36 (5):1055–70. doi: 10.1007/s11738-014-1491-2.
   Web of Science ®Google Scholar
• Hajiaghaei Kamrani, M.. A. Rahimi Chegeni, and H. Hosseinniya. 2019. Effects of different growing media on yield and growth parameters of potato minitubers (Solanum tuberosum L.). Communications in Soil Science and Plant Analysis 50 (15):1838–53. doi: 10.1080/00103624.2019.1648487.
   Web of Science ®Google Scholar
• Hasanpanah, D., H. Hasanabadi, R. Shahriyari, A. A. Hosein Zadeh, B. Dehdar Masjedloo, and M. Manafian. 2008. Greenhouse cultivation of various substrate for the production of Agria potato minituber. Proceedings of the National Seminar Potato, Ardabil, 76.
   Google Scholar
• Hawkesford, M., W. Horst, T. Kichey, H. Lambers, J. Schjoerring, I. S. Møller, and P. White. 2012. Functions of macronutrients. Marschner's mineral nutrition of higher plants. New York: Elsevier.
   Google Scholar
• Jones, J. B. 2001. Laboratory guide for conducting soil tests and plant analysis. Boca Raton: CRC Press.
   Google Scholar
• Kalva, Y., R. Reak, B. Vaughan, and A. Wolf. 1998. Handbook of reference methods for plant and analysis. Soil and Plant Analysis Council. Inc, Athens, GA. CRC Press. Boca Raton. Florida. 129p.
   Google Scholar
• Khodadadi, M., D. Hassanapah, S. Pirovates, and H. Masoumi. 2011. Evaluation of different planting beds effects on minituber production of potato cultivars under greenhouse Condition. American–Eurasian Journal of Agricultural & Environmental Sciences 11:365–70.
   Google Scholar
• Leghari, S. J., N. A. Wahocho, G. M. Laghari, A. Hafeezlaghari, G. Mustafabhabhan, K. Hussaintalpur, T. A. Bhutto, S. A. Wahocho, and A. A. Lashari. 2016. Role of nitrogen for plant growth and development: A review. Advances in Environmental Biology 10:209–19.
   Google Scholar
• Lim, H. T., C. S. Yoon, S. P. Choi, and S. P. Dhital. 2004. Application of gibberellic acid and paclobutrazol for efficient production of potato (Solanum tuberosum L.) minitubers and their dormancy breaking under soilless culture system. Horticulture Environment and Biotechnology 45:189–93.
   Google Scholar
• Liu, Z., S. Persson, and C. Sánchez-Rodríguez. 2015. At the border: The plasma membrane–cell wall continuum. Journal of Experimental Botany 66 (6):1553–63. doi: 10.1093/jxb/erv019.
   PubMed Web of Science ®Google Scholar
• Lommen, W. J. 2007. The canon of potato science: 27. Potato Research 50 (3–4):315–8. doi: 10.1007/s11540-008-9053-x.
   Google Scholar
• Mulvaney, R., and J. Bremner. 1981. Control of urea transformations in soils. Soil Biochemistry 5:153–96.
   Google Scholar
• Najafi, N.,. M. Parsazadeh, S. Tabatabaei, and S. Oustan. 2010. Effects of nitrogen form and pH of nutrient solution on the uptake and concentrations of potassium, calcium, magnesium and sodium in root and shoot of spinach plant. Water and Soil Science 20:111–31.
   Google Scholar
• Nieves‐Cordones, M., M. Andrianteranagna, T. Cuéllar, I. Chérel, R. Gibrat, M. Boeglin, B. Moreau, N. Paris, J. ‐L. Verdeil, S. Zimmermann, et al. 2019. Characterization of the grapevine Shaker K + channel VvK3. 1 supports its function in massive potassium fluxes necessary for berry potassium loading and pulvinus‐actuated leaf movements. New Phytologist 222 (1):286–300. doi: 10.1111/nph.15604.
   PubMed Web of Science ®Google Scholar
• Ozkaynak, E., and B. Samanci. 2006. Field performance of potato minituber weights at different planting dates: (Felderträge von Kartoffelknollen unterschiedlicher Pflanzzeiträume). Archives of Agronomy and Soil Science 52 (3):333–8. doi: 10.1080/03650340600676552.
   Google Scholar
• Page, A., R. Miller, and D. Keeney. 1982. Methods of soil analysis. Part 2. Chemical and microbiological properties. Agronomy No. 9. Soil Science Society of America, Madison, WI, 1159, 120–67.
   Google Scholar
• Rhoades, J. D. 1982. Cation exchange capacity. In Methods of soil analysis. Part 2, ed. A. L. Page, R. H. Miller, and D. R. Keeney, 2nd ed. Agron. Monogr.
   Google Scholar
• Richard, T. L., A. H. Veeken, V. De Wilde, and H. Hamelers. 2004. Air‐filled porosity and permeability relationships during solid‐state fermentation. Biotechnology Progress 20 (5):1372–81. doi: 10.1021/bp0499505.
   PubMed Web of Science ®Google Scholar
• Rolot, J. L., and H. Seutin. 1999. Soilless production of potato minitubers using a hydroponic technique. Potato Research 42 (3–4):457–69. doi: 10.1007/BF02358162.
   Web of Science ®Google Scholar
• Roodbar, S. T., N. Sepahvand, M. Omidi, A. Mohammadi, and H. Abdi. 2008. Response of four commercial potato cultivars to different combinations of plant growth regulators in meristem culture and production of virus free plantlets. Iranian Journal Crop Science 9:332–44.
   Google Scholar
• Rosen, C. J., and P. M. Bierman. 2008. Potato yield and tuber set as affected by phosphorus fertilization. American Journal of Potato Research 85 (2):110–20. doi: 10.1007/s12230-008-9001-y.
   Web of Science ®Google Scholar
• Sabzevar, R. F., M. Mirabdulbaghi, R. Zarghami, and B. P. Sardrood. 2007. Mini-tuber production as affected by planting bed composition and node position in tissue cultured plantlet in two potato cultivars. Journal of Agriculture and Applied Biology 9:416–8.
   Google Scholar
• Salardini, A. A. 2003. Soil fertility. Tehran: Tehran University Press.
   Google Scholar
• Salimi, K., R. T. Afshari, M. Hosseini, and P. Struik. 2010. Effects of gibberellic acid and carbon disulphide on sprouting of potato minitubers. Scientia Horticulturae 124 (1):14–8. doi: 10.1016/j.scienta.2009.12.026.
   Web of Science ®Google Scholar
• Selim, E., A. EL-Neklawy, and A. Mosa. 2010. Humic acid fertigation of drip irrigated cowpea under sandy soil conditions. American–Eurasian Journal of Agricultural and Environmental Science 8:538–43.
   Google Scholar
• Struik, P. 2007. The canon of potato science: 25. Minitubers. Potato Research 50 (3–4):305–8. doi: 10.1007/s11540-008-9051-z.
   Google Scholar
• Sustr, M., A. Soukup, and E. Tylova. 2019. Potassium in root growth and development. Plants 8 (10):435. doi: 10.3390/plants8100435.
   Web of Science ®Google Scholar
• Vanaei, H., D. Kahrizi, M. Chaichi, G. Shabani, and K. Zarafshani. 2008. Effect of genotype, substrate combination and pot size on minituber yield in potato (Solanum tuberosum L.). American–Eurasian Journal of Agricultural and Environmental Sciences 3:818–21.
   Google Scholar
• Verdonck, O., and P. Demeyer. 2004. The influence of the particle sizes on the physical properties of growing media. Acta Horticulturae 644 (644):99–101. doi: 10.17660/ActaHortic.2004.644.10.
   Google Scholar
• Waluyo, S., T. Lie, and L. T. Mannetje. 2016. Effect of phosphate on nodulation primordial of soybean (Glycine max. Merr) in acid soils in minirhizotron experiments. Indonesian Journal of Agricultural Science 5 (2):37–44. doi: 10.21082/ijas.v5n2.2004.p37-44.
   Google Scholar
• Wang, Y., and W.-H. Wu. 2013. Potassium transport and signaling in higher plants. Annual Review of Plant Biology 64 (1):451–76. doi: 10.1146/annurev-arplant-050312-120153.
   PubMed Web of Science ®Google Scholar
• Westermann, D. 2005. Nutritional requirements of potatoes. American Journal of Potato Research 82 (4):301–7. doi: 10.1007/BF02871960.
   Web of Science ®Google Scholar
• Zebarth, B., and C. J. Rosen. 2007. Research perspective on nitrogen BMP development for potato. American Journal of Potato Research 84 (1):3–18. doi: 10.1007/BF02986294.
   Web of Science ®Google Scholar
• Zheng, Y. 2020. Integrated rootzone management for successful soilless culture. Acta Horticulturae 1273 (1273):1–8. doi: 10.17660/ActaHortic.2020.1273.1.
   Google Scholar