The two segments of the grafted plant are called scion (upper vegetative part), which is attached or grafted to the rootstock (lower part functioning as root system). Based on plant species and stem diameters of scion and rootstock you can choose from a wide range of different grafting methods. What they all have in common is that plants are wounded by removing roots from the scion (cut above cotyledons) and the shoot of the rootstock (cut below cotyledons). To create the grafted plant, the scion is placed on the rootstock. During the healing period rootstock and scion develop a functional vascular connection at the graft union.
Successful graft union formation is affected by genetic compatibility of grafted partners and environmental conditions. In general, high humidity (> 90%) and temperatures between 23-29°C are beneficial, but must be adapted to plant species and rootstock cultivar. Survival rates could be significantly increased by artificial lighting, but only if temperature and humidity are maintained at target levels (Hu et al., n.d.). Therefore, Valoya L-series tubes have a huge advantage over traditional fluorescent tubes, because of their minimal heat radiation towards the plants enabling improved control of environmental conditions. Additionally, this is only possible with lamps that are huminidity resistant and Valoya’s tubes have been IP67 rated meaning they could even be submerged under water. Recent studies reported the benefits of wide spectra, covering the PAR area like AP673L, on graft-take ratio and development of the vascular connection (Nguyen et al. 2014; Lee et al. 2016). After 1-2 weeks, depending on plant species and environmental conditions, the vascular system between rootstock and scion is established and grafted plants can be moved into greenhouses or distributed to customers.
To learn more about the usage of LED lights for grafting, see Valoya’s Grafting Solution Guide.
To see Valoya lights with grafted plants, visit Valoya at Macfrut, 10th -12th of May in Rimini, Italy (booth D7-003).
References
- Hu, Bizhen, Natalie R Bumgarner, Michelle Young, Stephanie Short, Danae Wolfe, Mahmoud Soltan, and Matthew D Kleinhenz. n.d. “GRAFTING GUIDE.” Vol. 3rd.
- Lee, Kang Mo, Chae Shin Lim, Sowbiya Muneer, and Byoung Ryong Jeong. 2016. “Functional Vascular Connections and Light Quality Effects on Tomato Grafted Unions.” Scientia Horticulturae 201. Elsevier B.V.: 306–17. doi:10.1016/j.scienta.2016.02.013.
- Nguyen, T. H., T. D. Pham, H. G. Dong, N. T. Vu, and I. S. Kim. 2014. “Effect of Red LEDs during Healing and Acclimatization Process on the Survival Rate and Quality of Grafted Tomato Seedlings.” Protected Horticulture and Plant Factory 23 (1): 43–49.
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