Resistance to Intelligently Controlled Low Air Humidity and High Temperature of Cymbidium Luck Gloria

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Chuangui Yang 1,* Yubao Gao 1 Ling Xu 2

1. Nankai University, Tianjin 300071, China

2. Tianjin Institute of Urban Construction, Tianjin 300384, China

* Corresponding author.


Received: 10 Nov. 2011 / Revised: 15 Dec. 2011 / Accepted: 25 Jan. 2012 / Published: 29 Feb. 2012

Index Terms

Temperature, relative humidity, Cymbidium Lucky Gloria (CLG), extreme


The paper conducted thorough research on the adaptability of Cymbidium Lucky Gloria (CLG) through different temperature and relative humidity levels by using intelligent artificial climate chamber. The effects of single and tow collaborated factors on plant surviving are explored. It finds that temperature’s role in CLG surviving is the most significant. The surviving rate reaches only 23.0% with the extreme level of temperature (410C, first period; 240C, second period). Extreme high temperature surpasses the endurance of heat shock proteins (HSPs), and leads the plants died. The survived plants under extreme levels are of excellent attributes for the succeeding strain invention.

Cite This Paper

Chuangui Yang,Yubao Gao,Ling Xu,"Resistance to Intelligently Controlled Low Air Humidity and High Temperature of Cymbidium Luck Gloria", IJEM, vol.2, no.1, pp.35-40, 2012. DOI: 10.5815/ijem.2012.01.06 


[1] S. Caillot, E. Rosiau, C. Laplace, B. Thomasset, “Influence of light intensity and selection scheme on regeneration time of transgenic flax plants”, Plant Cell Rep.No. 28, pp.359–371, 2009.

[2] C. Chang, W.C. Chang, “Micropropagation of cymbidium ensifolium var. misericors through callus-derived rhizomes”, In Vitro Cell. Dev. Biol. Plant, No. 36:517-520, November-December, 2000.

[3] F. Feng, L. C. Qiu, W. Liu, “Application of Fuzzy Control in Greenhouse Temperature and Humidity Control System”, Journal of Agricultural Mechanization Research, Vol. 31, No.6, pp. 148-150, 2009.

[4] A. González, L. Ayerbe,“Effect of terminal water stress on leaf epicuticular wax load, residual transpiration and grain yield in barley”, Euphytica, DOI 10.1007/s10681-009-0027-0, August, 2009.

[5] X. F. Huang, S. Z. Huang, J. R. Fu, “Regulation of Expression and Functions of the Heat Shock Proteins of Plant”, Chinese Bulletin of Botany, Vol.16, No.5, pp. 530-536, October, 1999.

[6] International Registration Authority for Orchid Hybrids, “New Orchid Hybrids”, The Orchid Review, Vol. 105, No. 1213, pp. 52-54, 1996.

[7] H. F. Li, H. X. Feng, S. J. Guo, “Characteristics and applica tion of plant heat shock protein promoter”, Journal of Anhui Agri. Sci., Vol. 36, No. 29, pp. 12605 – 12606, 2008.

[8] Q. L. Liu, Y. F. Jiao, G. L. Wu, “Effects of temperature on sprouting and growth of the new bud of 5 cultivars of Cymbidium hybridum”, Southwest China Journal of Agricultural Sciences, Vol.121, No.16, pp. 1702-1705, December, 2008.

[9] J. B. Qin, D. Q. Lin, “Effects of different treat time at high elevation on the flower bud differentiation of Cymbidium”, Guangdong Agricultural Sciences, No.8, pp. 91-92, August, 2008.

[10] S. F. Siebert, “From shade- to sun-grown perennial crops in Sulawesi, Indonesia: implications for biodiversity conservation and soil fertility”, Biodiversity and Conservation No.11, pp. 1889–1902, 2002.

[11] J. Sun, J. Liu, Y. Li , “Analysis and Research of Monitoring and Control on Greenhouse Environment in Installation Agriculture”, Hunnan Agricultural Machinery, No.3, pp.45-46,2010.

[12] H. Vejsadová, “Factors affecting seed germination and seedling growth of terrestrial orchids cultured in vitro”, Acta Biologica Cracoviensia Series Botanica, Vol. 48, No.1, pp. 109–113, 2006.

[13] X. J. Yang, “The effects of different stromata on the growth and development of the plant Cymbidium faberi”, Northern Horticulture, No.4, pp. 101-102, April, 2009.

[14] L. P. Yang, J. Y. Zhu, Y. J. Xu, X. S. Jia, X. L. Zhang, and X. R. Wen, “Study on Growing Cymbidium Grandiflorium in a Large Scale in Common Energy-saving Sunny Green Houses in Northern China”, Journal of Shanxi Agricultural Sciences, Vol.34, No.1, pp. 44-46, February, 2006.

[15] F. P. Zhang, J.S. Fan,“Study on Cutting Experiment of Hibisus rosa-sinensis”, Northern Horticulture, No.12, pp. 177-178, 2007.

[16] J. Z. Zhao, C. G. Wan, J. M. Chen, G. G Tang, and S. S. Li, “Effects of Different Media Water Deficiency on Physiology of Cymbidium hybridum”, Journal of Nanjing Forestry University (Natural Sciences Edition) Vol. 27, No.2, pp. 29-32, March, 2003.