Summary
The effect of ventilation during the multiplication stage on the development of propagules from different clones of jojoba [Simmondsia chinensis (Link) Schneider] was investigated. Variation in the response to ventilation was due to genotype, the extent of ventilation, and to the period of exposure (transfer number). With intermediate ventilation treatments, propagules elongated to a greater extent and produced more dry biomass than propagules grown without ventilation. In the highest ventilation treatment, however, growth parameters were negatively affected. More importantly, propagules grown with moderate ventilation produced more plant material suitable for further multiplication and for the elongation stage than those grown in sealed tubes—the vessels used in our original micropropagation system. In five of the seven clones studied, growth and multiplication rate were decreased by the highest ventilation treatment. Propagules from the second and third multiplication transfers into ventilated vessels became more sensitive to high ventilation. Ambient water loss was slower in propagules produced under ventilation, probably due to smaller stomatal apertures. As a result of improved growth and decreased hyperhydricity by ventilation, the micropropagation protocol should be modified to include Magenta boxes equipped with vented lids as the preferred growing vessels.
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Agrawal, V.; Prakash, S.; Gupta, S. C. Effective protocol for in vitro shoot production through nodal explants of Simmondsia chinensis. Biol. Plant. 45:449–453; 2002.
Aguilar, M. L.; Espadas, F. L.; Coello, J.; Maust, B. E.; Trejo, C.; Robert, M. L.; Santamaria, J. M. The role of abscisic acid in controlling leaf water loss, survival and growth of micropropagated Tagetes erecta plants when transferred directly to the field. J. Exp. Bot. 51:1861–1866; 2000.
Apostolo, N. M.; Llorente, B. E. Anatomy of normal and hyperhydric leaves and shoots of in vitro grown Simmondsia chinensis (Link) Schn. In Vitro Cell. Dev. Biol. Plant 36:243–249; 2000.
Benzioni, A. Jojoba domestication and commercialization in Israel. In: Janick, J., ed Horticultural reviews. Portland, OR: John Wiley & Sons; 1995:233–266.
Birnbaum, E.; Matias, S.; Wenkart, S. Vegetative propagation of jojoba by tissue culture. In: Wisniak, J.; Zabicky, J., eds. Proc. 6th Int. Conf. on Jojoba and its Uses: Production, Processing and Utilization of Jojoba, Beer-Sheva, Israel. University of Arizona: Office of Arid Land Studies; 1985:233–341.
Chaturvedi, H. C.; Sharma, M. In vitro production of cloned plants of jojoba (Simmondsia chinensis (Link) Schneider) through shoot proliferation in long-term culture. Plant Sci. 63:199–207; 1989.
Cournac, L.; Dimon, B.; Carrier, P.; Lohou, A.; Chagvardieff, P. Growth and photosynthetic characteristic of Solanum tuberosum plantlets cultivated in vitro in different conditions of aeration, sucrose supply, and CO2 enrichment. Plant Physiol. 97:112–117; 1991.
Dror, A. A study of the physiological and morphological development of jojoba (Simmondsia chinensis (Link) Schneider) plantlets during propagation by tissue culture and hardening-off, and of possible causes of difficulties experienced in their acclimatization to greenhouse conditions. M.Sc. thesis, Ben-Gurion University of the Negev, Beer-Sheva, Israel; 1981.
Eberhardt, H.-J.; Wegmann, K. Effects of abscisic acid and proline on adaptation of tobacco callus cultures to salinity and osmotic shock. Physiol. Plant. 76:283–288; 1989.
Fal, M. A.; Majada, J. P.; Gonzalez, A.; Sanchez-Tames, R. Differences between Dianthus caryophyllus cultivars in in vitro growth and morphogenesis are related to their ethylene production. Plant Growth Reg. 27:131–136; 1999.
Kanechi, M.; Ochi, M.; Abe, M.; Inagaki, N.; Maekawa, S. The effects of carbon dioxide enrichment, natural ventilation, and light intensity on growth, photosynthesis, and transpiration of cauliflower plantlets cultured in vitro photoautotrophically and photomixotrophically. J. Am. Soc. Hort. Sci. 123:176–181; 1998.
Khanam, A.; Rao, Y. B. N.; Farook, S. A. Standard in vitro experimental protocol for high frequency mass micropropagation of jojoba (Simmondsia chinensis (Link) Schneider). Adv. Plant Sci. 12:361–366; 1999.
Kidelman, A. D. O.; Canal, M. J.; Centeno, M. L.; Feito, I.; Fernandez, B. Endogenous plant growth regulators in carnation tissue cultures under different conditions of ventilation. Plant Growth Reg. 22:169–174; 1997.
Llorente, B. E.; Apostolo, N. M. Effect of different growth regulators and genotype on in vitro propagation of jojoba. N.Z. J. Crop Hort. Sci. 26:55–62; 1998.
Majada, J. P.; Centeno, M. L.; Feito, I.; Fernandez, B.; Sanchez-Tames, R. Stomatal and cuticular traits on carnation tissue culture under different ventilation conditions. Plant Growth Reg. 25:113–121; 1998.
Majada, J. P.; Fal, M. A.; Sanchez-Tames, R. The effect of ventilation rate on proliferation and hyperhydricity of Dianthus caryophyllus L. In Vitro Cell. Dev. Biol. Plant 33:62–69; 1997.
Mills, D.; Friedman, R.; Benzioni, A. Response of jojoba shoots to ventilation in vitro. Isr. J. Plant Sci. 49:197–202; 2001a.
Mills, D.; Wenkart, S.; Benzioni, A. Micropropagation of Simmondsia chinensis (Jojoba). In: Bajaj, Y. P. S., ed. Biotechnology in agriculture and forestry, vol. 40. High-tech and micropropagation VI. Berlin: Springer Verlag: 1997:370–393.
Mills, D.; Zhang, G.; Benzioni, A. Effect of different salts and of ABA on growth and mineral uptake in jojoba shoots grown in vitro. J. Plant Physiol. 158:1031–1039; 2001b.
Murashige, T.; Skoog, F. A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol. Plant. 15:473–497; 1962.
Roussos, P. A.; Tolia-Marioli, A.; Pontikis, C. A.; Kotsias, D. Rapid multiplication of jojoba seedlings by in vitro culture. Plant Cell Tiss. Organ Cult. 57:133–137; 1999.
Sallanon, H.; Maziere, Y. Influence of growth room and vessel humidity on the in vitro development of rose plants. Plant Cell Tiss. Organ Cult. 30:121–125; 1992.
Zeevart, R. A. D.; Creelman, R. A. Metabolism and physiology of abscisic acid. Annu. Rev. Plant Physiol. 39:439–473; 1988.
Ziv, M. Vitrification: morphological and physiological disorders of in vitro plants. In: Debergh, P. C.; Zimmerman, R. H., eds Micropropagation. Dortrecht: Kluwer Academic Publishers; 1991:45–69.
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Mills, D., Yanqing, Z. & Benzioni, A. Improvement of jojoba shoot multiplication in vitro by ventilation. In Vitro Cell.Dev.Biol.-Plant 40, 396–402 (2004). https://doi.org/10.1079/IVP2004537
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DOI: https://doi.org/10.1079/IVP2004537