Differential performance of Dianella tasmanica and Pleomele reflexa under coloured shade nets

P Singh; A Khyber; S Jhanji; J Verma

doi:10.24154/jhs.v18i2.1453

Authors

P Singh Punjab Agricultural University, Ludhiana - 141 004, Punjab, India Author
A Khyber Punjab Agricultural University, Ludhiana - 141 004, Punjab, India Author
S Jhanji Punjab Agricultural University, Ludhiana - 141 004, Punjab, India Author
J Verma Punjab Agricultural University, Ludhiana - 141 004, Punjab, India Author

DOI:

https://doi.org/10.24154/jhs.v18i2.1453

Keywords:

Coloured shade net, cut stem, Dianella tasmanica, Pleomele reflexa, vase life

Abstract

Cut greens are emerging as an important constituent of the floricultural industry as they add freshness and colour to floral designs. An experiment was conducted to evaluate the effect of different coloured shade nets (black, blue, green, red, white and no shade) at 50% shade intensity on growth and quality parameters of Dianella tasmanica and Pleomele reflexa. Both species significantly responded to the change in colour of shade nets. In D. tasmanica, maximum plant height (85.66 cm), stem diameter (8.63 mm) and leaf length (68.33 cm) were recorded under red shade net, while, plant spread (63.03 cm) and leaf breadth (4.06 cm) under black shade net, however, leaf thickness (0.57 cm) and vase life (24.33 days) under white shade net. In P. reflexa, maximum plant height (63.66 cm), stem diameter (9.76 mm), leaf length (17.50 cm), leaf thickness (0.93 cm) and SPAD index (60.10) were recorded under red shade net, whereas, plant spread (36.34 cm) and leaf breadth (3.00 cm) under black shade net, and vase life (25.66 days) under white shade net. Thus, red coloured shade nets could be preferred commercially for better performance of D. tasmanica and P. reflexa.

References

Abou El-Ghait, E. M., Gomaa, A. O., Yousse, A. S. M., & Mohamed, Y. F. (2012). Effect of some postharvest treatments on vase life and quality of chrysanthemum (Dendranthema grandiflorum Kitam) cut flowers. Research Journal of Agriculture and Biological Sciences, 8, 261-271.

Gaurav, A. K., Raju, D. V. S., Janakiram, T., Singh, B., Jain, R., and Gopala, K. S. (2016a). Effect of coloured shade net on production of Dracaena fragrans. Indian Journal of Horticulture, 73(1), 94-98. doi: 10.5958/0974-0112.2016.00025.6

Gaurav, A. K., Raju, D. V. S., Janakiram, T., Singh, B., Jain, R., & Gopala, K. S. (2016b). Effect of coloured shade net on production and quality of cordyline. Indian Journal of Agricultural Sciences, 86(7), 865-869. doi: 10.56093/ijas.v86i7.59736

Godi, V., Manohar, K. R., & Kumari, V. R. (2018). Effect of different coloured shade nets with varying shade intensities on growth parameters of tomato (Solanum lycopersicum L.) var. Arka Rakshak. International Journal of Pure and Applied Bioscience, 6(1), 142-146. doi: http://dx.doi.org/10.18782/2320-7051.5898

Khyber, A., Singh, P., & Jhanji, S. (2019). Effect of coloured shade nets on growth and frond production in sword fern (Nephrolepis cordifolia) Agricultural Research Journal, 56(4), 766. doi: 10.5958/2395-146X.2019.00119.4

Medany, M. A., Hadsanein, M. K., & Farag, A. A. (2009). Effect of black and white nets as alternative covers to sweet pepper production under greenhouses in Egypt. Acta Horticulturae, 807, 121-126. doi: 10.17660/ActaHortic.2009.807.14

Myrthong, A. L., & Sudhadevi, P. K. (2016). Performance evaluation of Nephrolepis exaltata and Asparagus densiflorus under different coloured shade nets. International Journal of Applied and Pure Sciences and Agriculture, 2, 113-117.

Naveena, N., & Thamaraiselvi, S. P. (2020). Effect of coloured shade nets on growth and quality of horticultural crops. Biotica Research Today, 2(8), 800-801.

Naveena, N., Thamaraiselvi, S. P., Rajadurai, K. R., & Sivakumar, R. (2019a). Effect of coloured shade nets on physiology and quality of cut foliage plants. Journal of Pharmacognosy and Phytochemistry, 8(4), 1141-1144.

Naveena, N., Thamaraiselvi, S. P., Rajadurai, K. R., & Sivakumar, R. (2019b). Studies on growth and quality of Philodendron xanadu plants under different coloured shade nets. International Journal of Chemical Studies, 7(1), 319-322.

Nissim-Levi, A., Farkash, L., Hamburger, D., Ovadia, R., Forrer, I., Kagan, S., & Oren, S. M. (2008). Light-scattering shade net increases branching and flowering in ornamental pot plants. Journal of Horticultural Science and Biotechnology, 83(1), 9-14. doi: 10.1080/14620316.2008.11512340

Oren, S. M., Shahak, Y., Spiegel, E., Gussakovsky, E., Giller, Yu., Ratner, K., Nissim-Levi, A., Ovadia, R., Bachar, A., Gal, Z., & Pardo, L. (2003). Improvement of the yield and quality of green decorative branches by colored shade nets. DapeyMeyda, 17, 48-52.

Perez, M., Plaza, B. M., Jimenez, S., Lao, M. T., Barbero, J., & Bosch, J. L. (2006). The radiation spectrum through ornamental net houses and its impact on the climate generated. Acta Horticulturae, 719, 631-636. doi:10.17660/ActaHortic.2006.719.73

Reid, M. S. & Jiang, C. Z. (2012). Postharvest biology and technology of cut flowers and potted plants. Horticultural Reviews, 40, 1–54. doi: 10.1002/9781118351871.ch1

Zare, S. K. A., Sedaghathoor, S., Dahkaei, P. M. & Hashemabadi, D. (2019). The effect of light variations by photoselective shade nets on pigments, antioxidant capacity, and growth of two ornamental plant species: marigold (Calendula officinalis L.) and violet (Viola tricolor). Cogent Food and Agriculture, 5, 16504-16515. doi: 10.1080/23311932.2019.1650415