Healing Chamber for Grafted Vegetable Seedlings in Florida
Grafted plants inside salad container.
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PDF-2013 (English)

Palabras clave

HS1232

Categorías

Cómo citar

Ozores-Hampton, Monica, y Aline Coelho Frasca. 2014. «Healing Chamber for Grafted Vegetable Seedlings in Florida: HS1232 HS1232, 10 2013». EDIS 2014 (1). Gainesville, FL. https://doi.org/10.32473/edis-hs1232-2013.

Resumen

Grafting is a horticultural technology that combines two plants, the scion and the rootsock, to create a plant with desirable features from both parts. In the United States, the use of vegetable grafting in field production remains limited, although 70% of the total hydroponic greenhouse tomato area uses grafted seedlings. Large, commercial grafting operations use controlled-environment growth chambers, but the high cost limits their use in most small-scale grafting operations. Healing chambers are an alternative solution that provides proper healing at a lower cost for growers and researchers. This 5-page fact sheet was written by Monica Ozores-Hampton and Aline Coelho Frasca, and published by the UF Department of Horticultural Sciences, October 2013.

HS1232/HS1232: Healing Chamber for Grafted Vegetable Seedlings in Florida (ufl.edu)

https://doi.org/10.32473/edis-hs1232-2013
view on EDIS (English)
PDF-2013 (English)

Citas

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Hassel, R.L., F. Memmot, and D.G. Liere. 2008. "Grafting Methods for Watermelon Production." HortScience 43:1677-1679. https://doi.org/10.21273/HORTSCI.43.6.1677

Johnson, S.J. and C.A. Miles. 2011. "Effect of Healing Chamber Design on the Survival of Grafted Eggplant, Tomato, and Watermelon." HortTechnology 21:752-758. https://doi.org/10.21273/HORTTECH.21.6.752

Johnson, S., P. Kreider, and C. Miles. 2011a. Vegetable Grafting - Eggplants and Tomatoes. Washington State Univ., WSU Mount Vernon Northwestern Washington Res. Ext. Ctr., Fact Sheet FS052E. 03 July 2013. http://cru.cahe.wsu.edu/CEPublications/FS052E/FS052E.pdf

Johnson, S., P. Kreider, and C. Miles. 2011b. Vegetable Grafting - The Healing Chamber. Washington State Univ., WSU Mount Vernon Northwestern Washington Res. Ext. Ctr., Fact Sheet FS051E. 03 July 2013. http://cru.cahe.wsu.edu/CEPublications/FS051E/FS051E.pdf

Kleinhenz, M.D. 2011. Major Factors in Preparing Grafted Vegetable Plants Successfully. The Ohio State Univ., Ohio Agricultural Res. Dev. Ctr. 03 July 2013. http://hcs.osu.edu/vpslab/major-factors-preparing-grafted-vegetable-plants-successfully

Kubota, C., M.A. McClure, N. Kokalis-Burelle, M.G. Bausher, and E.N. Rosskopf. 2008. "Vegetable Grafting: History, Use, and Current Technology Status in North America." HortScience 43:1664-1669. https://doi.org/10.21273/HORTSCI.43.6.1664

Kubota, C. 2010. Healing Grafted Seedlings. The Univ. Arizona, 26 July 2013. http://cals.arizona.edu/grafting/healing

Lee, S.G. 2007. "Production of High Quality Vegetable Seedling Grafts." Acta Hort. 759:169-174. https://doi.org/10.17660/ActaHortic.2007.759.12

Lee, J.M., C. Kubota, S.J. Tsao, Z. Bie, P.H. Echevarria, L. Morra, and M. Oda. 2010. "Current Status of Vegetable Grafting: Diffusion, Grafting Techniques, Automation. Scientia Hort. 127:93-105. https://doi.org/10.1016/j.scienta.2010.08.003

Oda, M. 2007. "Vegetable Seedling Grafting in Japan." Acta Hort. 759:175-180. https://doi.org/10.17660/ActaHortic.2007.759.13

Ozores-Hampton, M., C.S. Vavrina, and A. Coelho Frasca. 2012. Growing Heirloom Tomato Varieties in Southwest Florida. Gainesville: University of Florida Institute of Food and Agricultural Sciences. http://edis.ifas.ufl.edu/hs174 https://doi.org/10.32473/edis-hs174-2012

Zhao, X. and E.H. Simonne. 2008. "Introducing Grafting Technology to the Florida Tomato Industry: Potential Benefits and Challenges." Proc. Florida Tomato Inst. 525:9-11

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