Standardization of plant species and growing medium for vertical garden system: A new urban horticulture concept

Authors

  • Ramesh kumar Author

DOI:

https://doi.org/10.24154/jhs.v13i1.55

Keywords:

Chlorophytum comosum, coir pith, hydrogels, leaf mould compost, Philodendron erubescens, Polyscias fruticosa, vermicompost, vertical garden.

Abstract

Vertical gardens are becoming a common component in contemporary garden designs at urban living space because of shrinking land spaces. Successful growing of plants in vertical garden systems depends up on growing container, plants chosen, growing media, etc. Hence a study was carried out in the Department of Horticulture, Annamalai University, during the year 2013, with the objectives to study the influence of Coir pith, Stockosorb and Geohumus as components of growing media along with FYM, Vermicompost and Leaf mould compost on growth and performance of ornamental plants for establishment of vertical garden and to study the performance of ornamental plants Viz., Philodendron erubescens Cv. ‘Gold’, Chlorophytum comosum Cv. ‘Variegatum’ and Polyscias fruticosa plants in wooden containers for establishment of vertical garden. The experiment was laid out in Completely Randomized Design in wooden containers, with ten treatment combinations of various growing media mixtures comprising red soil, river sand as basic components in combination with organic manures (FYM, vermicompost, leaf mould compost, coir pith) and hydrogels (Stocksorb and Geohumus). The plant growth characters and ornamental value index were observed. Among the three ornamental plants used, Polyscias fruticosa and Philodendron erubescens are performed better as ornamental plants in vertical garden system with the growing media of Red soil : River sand : Vermicompost @ 1:1:1/2 + Stockosorb(25g).

References

Abedi-Koupai, J. and Asadkazemi, J., 2006. Effects of a Hydrophilic Polymer on the Field Performance of an Ornamental Plant (Cupressus arizonica) under Reduced Irrigation Regimes, Iranian Polym. J., 15 (9): 715 –725.

Bouranis, D. L., A. G. Theodoropoulus, J. B. Drossopoulus. 1995. Designing Synthetic Polymers as Soil Conditioners, Commun. Soil Sci. Plant Anal.,26: 1455 – 1480.

Golchin, A., Nadi, M. and Mozaffari, V. 2006. The effects of vermicompost produced from various organic solid wastes on growth of pistachio seedlings. Acta Hort., 726: 301-305.

Hidalgo, P.R. and R.L. Harkess. 2002. Earthworm castings as a substrate for poinsettia production. Hort. Sci., 37(2): 304 - 308.

Ingram, D. L., R. W. Henley, and T. H. Yeager . 2003. Growth media for container grown ornamental plants. Environmental Horticulture Department, Florida Cooperative Extension Service, Inst. of Food and Agri. Sci., University of Florida, BUL 241.

Meerabai, M. and Raj. 2001. Biofarming in vegetables. Kisan World, 28(4): 15.

Panse, V.G. and Sukhatme, P.V. 1967. Statistical methods for agricultural workers, ICAR, New Delhi.

Rajamanickam, C., Balasubramaniam, S. and Natarajan, S. 2008. Studies on nursery management in papaya (Carica papaya L.) cv. Co2, proceedings of second international symposium on papaya, pp. 74.

Sahin, U., and O. Anapali. 2006. Addition of pumice affects physical properties of soil used for container grown plants. Agric. Conspec. Sci. 71:59-64.

Sarvaš, M. Pavlenda, Pavel & Takáčová, E. (2007). Effect of hydrogel application on survival and growth of pine seedlings in reclamations. Jour. of For.Sci., 53(5).

Downloads

Published

30-06-2018

Issue

Section

Short Communications

How to Cite

kumar, R. (2018). Standardization of plant species and growing medium for vertical garden system: A new urban horticulture concept. Journal of Horticultural Sciences, 13(1), 108-115. https://doi.org/10.24154/jhs.v13i1.55

Similar Articles

111-120 of 169

You may also start an advanced similarity search for this article.