This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
7. References
Adkins S W 1992 Cereal callus cultures: control of headspace gases can optimise the conditions for callus proliferation. Aust. J. Bot. 40, 737–749.
Adkins S W, Kunanuvatchaidach R, Gray S J and Adkins A L 1993 Effect of ethylene and culture environment on rice callus proliferation. J. Exp. Bot. 44, 1829–1835.
Adkins S W, Shiraishi T and McComb J A 1989 Callus physiology of rice varieties with differing sensitivity to submergence. In: Proceedings of the international Deepwater Rice Workshop, 1987. Bangkok: International rice research institute. 343–350.
Adkins S W, Shiraishi T and McComb J A 1990 Rice callus physiology: identification of volatile emissions and their effects on culture growth. Physiol. Plant. 78, 526–531.
Afreen F, Zobayed S M A, Kubota C, Kozai T and Hasegawa O 1999 Supporting material affects the growth and development of in vitro sweet potato plantlets cultured photoautotrophically. In Vitro Cell. Dev. Biol.-Plant. 35, 470–474.
Afreen F, Zobayed S M A and Kozai T 2002 Photoautotrophic culture of Coffea arabusta somatic embryos II: development of a bioreactor for the large-scale plantlet conversion from cotyledonary embryos. Ann. Bot. 9, 20–29.
Armstrong J, Lemos E E P, Zobayed S M A, Justin S H F W and Armstrong W 1997 A humidity-induced convective through-flow ventilation system benefits Annona squamosa L. explants and coconut calloid. Ann. Bot. 79, 31–40.
Blazková A, Ullmann J, Josefusova Z, Machackova I and Krekule J 1989 The influence of gaseous phase on the growth of plants in vitro: the effect of different types of stoppers. Acta Hort. 251, 209–214.
Buddendorf-Joosten J M C and Woltering E J 1994 Components of the gaseous environment and their effects on plant growth and development in vitro. In: Physiology, growth and development of plants in culture. Eds. P J Lumsden, J R Nicholas and W J Davies. pp l65–190. Kluwer Academic Publishers.
Buddendorf-Joosten J M C and Woltering E J 1996 Controlling the gaseous composition in vitro-description of a flow system and effects of the different gaseous components on in vitro growth of potato plantlets. Sci. Hort. 65, 11–23.
Cristea V, Dalla Vecchia F, Craciun C and La Rocca N 1998 Ultrastructural aspects of photoautotrophic Chrysanthemum culture. In: Photosynthesis: Mechanisms and Effects, Vol. V. Ed. G. Garab. pp 4175–4178. Kluwer Academic Publishers, The Netherlands.
Debergh P and Maene L 1984 Pathological and physiological problems related to the in vitro culture of plants. Parasitica. 40, 69–75.
DeProft M P, Maene L J and Debergh P C 1985 Carbon dioxide and ethylene evolution in the culture atmosphere of Magnolia cultured in vitro. Phys. Planta. 65, 375–379.
Desjardins Y, Laforge F, Lussier C and Gosselin A 1988 Effect of CO2 enrichment and high photosynthetic photon flux on the development of autotrophy and growth of tissue-cultured strawberry, raspberry and asparagus plants. Acta Hort. 230, 45–53.
Ermayanti T M, Imelda M, Tajuddin T, Kubota C and Kozai T 1999 Growth promotion by controlling the in vitro environment in the micropropagation of tropical plant species. pp. 10–25. Proc. of Intl. Workshop on Conservation and Sustainable Use of Tropical Bioresources. Nov. 9–10, 1998. Tokyo, Japan.
Erturk H and Walker P N 2000. Effects of light, carbon dioxide, and hormone levels on transformation to photoautotrophy of sugarcane shoots in micropropagation. Trans. ASAE. 43, 147–151.
Fujiwara K and Kozai T 1995 Physical microenvironment and its effects. In: Automation and Environmental control in plant tissue culture. Eds. J. Aitken-Christie, T. Kozai and M. L. Smith. pp 319–369. Kluwer Academic Publishers, Dordrecht, The Netherlands.
Fujiwara K, Kozai T and Watanabe I 1988 Development of a photoautotrophic tissue culture system for shoots and/or plantlets at rooting and acclimatization stages. Acta Hort. 230, 153–158.
Fujiwara K, Aitken-Christie J and Kozai T 1993 Water potential of radiata pine shoots cultured in vitro under different relative humidities. Plant Tiss. Cult. Lett. 10, 144–150.
Hayashi M, Lee H and Kozai T 1993 Photoautotrophic micropropagation of rose plantlets under CO2 enriched conditions. SHITA J. 4, 107–110.
Heo J, Wilson S B and Kozai T 2001 A forced ventilation micropropagation system for photoautotrophic production of sweet potato plug plantlets in a scale-up culture vessel: I. growth and uniformity. HortTech. 11, 90–94.
Heo J and Kozai T 1999 Forced ventilation micropropagation system for enhancing photosynthesis, growth and development of sweet potato plantlets. Env. Cont. Biol. 37, 83–92.
Heyser J W and Mott R 1980 The relationship between the production of phenolic compounds and the decline in growth of Loblolly pine cultures. Plant Physiol. 65, 90.
Horn M E, Sherrard J H and Widholm J M 1983 Photoautotrophic growth of Soybean Cells in suspension culture, 1. Establishment of photoautotrophic cultures. Plant Physiol. 72, 426–429.
Ibaraki Y, Iida Y and Kurata K 1992 Effects of air currents on gas exchange of culture vessels. Acta Hort. 319, 221–224.
Jackson M B, Abbott A J, Belcher A R and Hall K C 1987. Gas exchange in plant tissue cultures. In: Jackson MB, Mantell S, Blake J, eds. Advances in the Chemical Manipulation of Plant Tissue Cultures. BPGRF Monograph 16. Bristol: Plant Growth Regulators Group. 57–71.
Jackson M B, Abbott A J, Belcher A R, Hall K C, Butler R and Cameron J 1991 Ventilation in plant tissue culture and effects of poor aeration on ethylene and carbon dioxide accumulation, oxygen depletion and explant development. Ann. Bot. 67, 229–237.
Jackson M B, Belcher A R and Brain P 1994 Measuring shortcomings in tissue culture aeration and their consequences for explant development. In: Physiology, Growth and Development of Plants in Culture. P J, Lumsden, J R Nicholas, W J Davies, Eds. pp 191–203. Kluwer Academic, Dordrecht, The Netherlands.
Jeong B R 1992 Automation in plant micropropagation. Grower Talks. Dec., 75, 77.
Jeong B R, Fujiwara K, Kozai T 1995 Environmental control and photoautotrophic micropropagation. Hort. Rev. 17, 125–171.
Kataoka I 1994 Influence of rooting substrates on the morphology of papaya root formed in vitro. Jpn. J. Trop. Agr. 38, 251–257.
Kirdmanee C, Kubota C, Jeong B R and Kozai T 1992 Photoautotrophic multiplication of Cymbidium protocorm-like bodies. Acta Hort. 319, 243–248.
Kitaya Y and Sakami K 1993 Development of CO2 enrichment system for plantlets in vitro using CO2 produced by mushroom. Abstr. of Annual Meeting of Env. Cont. Biol. pp. 172–173.
Kozai T, Kubota C, Zobayed S M A, Nguyen QT, Afreen-Zobayed F and Heo J 1999b Developing a mass-propagation system of woody plants. In: Challenge of Plant and Agricultural Sciences to the Crisis of Biosphere on the Earth in the 21st Century. Eds. K. Watanabe and A. Komamine. pp 293–307. Landes Company, USA.
Kozai T and Iwanami Y 1988 Effects of CO2 enrichment and sucrose concentration under high photon flux on plantlet growth of carnation (Dianthus caryophyllus L.) in tissue culture during the preparation stage. J. Jap. Soc. Hort. Sci. 57, 279–288.
Kozai T, Koyama Y and Watanabe I 1988 Multiplication and rooting of potato plantlets in vitro with sugar-free medium under high photosynthetic photon flux. Acta Hort. 230, 121–127.
Kozai T, Kubota C and Nakayama M 1989 Net photosynthetic rates of plantlets in vitro under natural and forced ventilation conditions. Annual Meeting, Jap. Soc. Hort. Sci. pp. 250–251.
Kozai T, Iwabuchi K, Watanabe K and Watanabe I 1991 Photoautotrophic and photomixotrophic growth of strawberry plantlets in vitro and changes in nutrient composition of the medium. Plant Cell, Tiss. Org. Cult. 25, 107–115.
Kozai T, Hayashi M, Hirosawa Y, Kodama T and Watanabe I 1987 Environmental control for acclimatization of in vitro cultured plantlets. (1) Development of the acclimatization unit for accelerating the plantlet growth and the test cultivation. J Arg Met. 42, 349–358.
Kozai T, Tanaka K, Watanabe I, Hayashi M and Fujiwara K 1990 Effects of humidity and CO2 environment on the growth of potato plantlets in vivo. J. Jap. Soc. Hort. Sci.. (Suppl. 1), 289–290.
Kozai T, Fujiwara K and Watanabe I 1986 Fundamental studies on environments in plant tissue culture vessels. (2) Effects of stoppers and vessels on gas exchange rates between inside and outside of vessels closed with stoppers. J. Agr. Met. 42, 119–27.
Kozai T and Kubota C 2001 Developing a Photoautotrophic Micropropagation System for Woody Plants. J. Plant Res. 114, 525–537.
Kubota C and Kozai T 1992 Growth and Net Photosynthetic rate of Solanum tuberosum in vitro under forced ventilation. Hort Sci. 27, 1312–1314.
Lemos E E P and Blake J 1994 Leaf abscission in micmpmpagated sugar apple (Annona squamosa L.). In: Physiology, Growth and Development of Plants in Culture. Eds. P J Lumsden, J R Nicholas, W J Davies. pp: 227–232. Dordrecht, Kluwer Academic Publishers, The Netherlands.
Lumsden P J, Nicholas J R and Davies W J 1994 Preface. In: Lumsden PJ, Nicholas JR, Davies WJ, eds. Physiology, Growth and Development of Plants in Culture. Kluwer Academic, Dordrecht, The Netherlands
Meijer E G M and Brown D C W 1988 Inhibition of somatic embryogenesis in tissue culture of Medicago sativa by aminoethyoxyvinylglycine, amino-oxyacetic acid, 2,4-dinitrophenol and salicylic acid at concentrations which do not inhibit ethylene biosynthesis and growth. J. Exp. Bot. 39, 263–270.
Miller A R and Roberts L W 1984 Ethylene biosynthesis and xylogenesis in Lactuca pith explants cultured in vitro in the presence of auxin and cytokinin: The effects of ethylene precursors and inhibitors. J. Exp. Bot. 35, 691–698.
Nguyen Q T, Kozai T, Niu G and Nguyen U V 1999a Photosynthetic characteristics of coffee (Coffea arabusta) plantlets in vitro in response to different CO2 concentrations and light intensities. Plant Cell, Tiss. Org. Cult. 55, 133–139.
Nguyen Q T, Kozai T, Nguyen K L and Nguyen U V 1999b Photoautotrophic micropmpagation of tropical plants. In: Plant biotechnology and in vitro biology in the 21st century. Eds. A. Altman, M. Ziv and S. Izhar. pp 659–662. Kluwer Academic Publishers, Dordrecht, The Netherlands.
Nguyen Q T and Kozai T 2001 Growth of in vitro banana (Musa spp.) shoots under photomixotrophic and photoautotrophic conditions. In Vitro Cell. Dev. Biol.-Plant 37, 824–829.
Niu G and Kozai T 1997 Simulation of the growth of potato plantlets cultured photoautotrophically in vitro. Trans. ASAE 40, 255–260.
Purnhauser L, Medgyesy P, Czako M, Dix P J and Marton, L 1987 Stimulation of shoot regeneration in Triticum aestivum and Nicotiana plumbaginifolia tissue cultures using the ethylene inhibitor AgNO3. Plant Cell Rep. 6, 1–4.
Righetti B, Magnanini E and Maccaferri, M 1988 Ethylene and other volatile substances produced by in vitro cultured Prunus avium. Acta Hort. 227, 402–404.
Roche T D, Long R D, Sayegh A J and Hennerty M J 1996 Commercial-scale photoautotrophic micmpmpagation: applications in Irish agriculture, horticulture and forestry. Acta Hort. 440, 515–520.
Roustan J P, Latche A and Fallot J 1989 Stimulation of Daucus carota somatic embryogenesis by inhibitors of ethylene synthesis: cobalt and nickel. Plant Cell Rep. 8, 182–185.
Seon J H, Cui C H, Paek K Y, Yang C S, Gao W Y, Park C H and Sung S N 1999 Effects of air exchange, sucrose, and PPF on growth of Rehmannia glutinosa under enriched CO2 concentration in vitro. Acta Hort. 502, 313–318.
Seon J H, Cui Y Y, Kozai T and Paek K Y 2000 Influence of in vitro growth conditions on photosynthetic competence and survival rate of Rehmannia glutinosa plantlets during acclimatization period. Plant Cell Tiss. Org. Cult. 61, 135–142.
Serret M D, Trillas M I, Matas J and Araus J L 1997 The effect of different closure types, light, and sucrose concentrations on carbon isotope composition and growth of Gardenia jasminoides plantlets during micropropagation and subsequent acclimation ex vitro. Plant Cell Tiss. Org. Cult. 47, 217–230.
Smith E F, Roberts A V and Mottley J 1990 The preparation in vitro of chrysanthemum for transplantation to soil. 3. Improved resistance to desiccation conferred by reduced humidity. Plant Cell Tiss. Org. Cult. 21, 141–145.
Smith, E F, Gribaudo I, Roberts A V and Mottley J 1992 Paclobutrazol and reduced humidity improve resistance to wilting of micropropagated grapevine. HortSci. 27, 111–113.
Sol’arová J, PospÃsilová J, Catský J and Santrucek J 1989 Photosynthesis and growth of tobacco plantlets in dependence on carbon supply. Photosyn. 23, 629–637.
Thomas D des. S and Murashige T 1979a Volatile emissions of plant tissue cultures I. Identification of the major components. In vitro. 15, 654–658.
Thomas D des S and Murashige T 1979b Volatile emissions of plant tissue cultures II. Effects of the auxin 2,4-D on production of volatiles in callus cultures. In Vitro. 15, 659–663.
Ticha I 1996 Optimization of photoautotrophic tobacco in vitro culture: effect of suncaps closures on plantlet growth. Photosyn. 32, 475–479.
Walker P N, Heuser C W and Heinemann P H 1989 Micropropagation: effects of ventilation and carbon dioxide level on Rhododendron ‘P.J.M.’ Trans. ASAE 32, 348–352.
Wardle K, Dobbs E B and Short K C 1983 In vitro acclimatization of aseptically cultured plantlets to humidity. J. Amer. Soc. Hort. Sci. 108, 386–389.
Wilson S B, Heo J, Kubota C and Kozai T 2001 A forced ventilation micropropagation system for photoautotrophic production of Sweet potato plug plantlets in a scaled-up culture vessel: II. Carbohydrate status. HortTech. 11, 95–99.
Woltering E J 1989 Effect of the gaseous composition on development of Gerbera plantlets grown in vivo. Acta Hort. 261, 377–383.
Xiao Y, Zhao J and Kozai T 2000 Practical sugar-free micropropagation system using large vessels with forced ventilation. In: Transplant Production in the 21st Century. Eds. C. Kubota and C. Chun. pp. 266–273. Kluwer Academic Publishers, The Netherlands.
Xiao Y and Kozai T 2004 Commercial application of a photoautotrophic micropropagation system using large vessels with forced ventilation. HortSci. (in press).
Yue D, Gosselin A and Desjardins Y 1993 Effects of forced ventilation at different relative humidities on growth, photosynthesis and transpiration of geranium plantlets in vitro. Can. J. Plant Sci.73, 249–256.
Ziv M 1991a Quality of micropropagated plants-vitrification. In Vitro Cell. Dev. Biol. 27, 64–69.
Ziv M 1991b Vitrification: morphological and physiological disorders of in vitro plants. In Micropropagation. Eds P C Debergh and R H Zimmerman. pp 45–69. Kluwer Academic Publishers, The Netherlands.
Zobayed S M A 2000 In vitro propagation of Lagerstroemia spp. from nodal explants and gaseous composition in the culture head space. Environ. Cont. Biol. 38, 1–11.
Zobayed S M A, Armstrong J and Armstrong W 2002 Leaf anatomy of in vitro tobacco and cauliflower plantlets as affected by different types of ventilation Plant Sci. 161, 537–548.
Zobayed S M A, Afreen F and Kozai T 2001b Physiology of Eucalyptus plantlets cultured photoautotrophically under forced ventilation. In Vitro Cell. Dev. Biol.-Plant. 37, 807–813.
Zobayed S M A, Armstrong J and Armstrong W 2001a Micropropagation of potato: evaluation of closed diffusive and forced ventilation on growth and tuberization. Ann. Bot. 87, 53–59.
Zobayed S M A, Afreen F, Kubota C and Kozai T 2000b Water control ability of Ipomoea batatas grown photoautotrophically under forced ventilation and photomixotrophically under natural ventilation. Ann. Bot. 85, 603–610.
Zobayed S M A, Afreen F, Kubota C and Kozai T 2000a Mass propagation of Eucalyptus in a scaled-up vessel under in vitro photoautotrophic condition. Ann. Bot. 85, 587–592.
Zobayed S M A, Armstrong J and Armstrong W 1999b Evaluation of a closed system, diffusive and humidity-induced convective throughflow ventilation on the growth and physiology of cauliflower in vitro. Plant Cell Tiss. Org. Cult. 59, 113–123.
Zobayed S M A, Armstrong J and Armstrong W 1999a Cauliflower shoot-culture effects of different types of ventilation on growth and physiology. Plant Sci. 141, 221–231.
Zobayed S M A, Afreen F, Kubota C and Kozai T 1999d Stomatal characteristics and leaf anatomy of potato plantlets cultured in vitro under photoautotrophic and photomixotrophic conditions. In Vitro Cell. Dev. Biol.-Plant. 35, 183–188.
Zobayed S M A, Kubota C and Kozai T 1999c Development of a forced ventilation micropropagation system for large-scale photoautotrophic culture and its utilization in sweet potato. In Vitro Cell. Dev. Biol.-Plant. 35:350–355.
Zobayed S M A, Afreen F, Xiao Y and Kozai T 2004 Recent advancement in research on photoautotrophic micropropagation using large culture vessels with forced ventilation. In Vitro Cell. Dev. Biol.-Plant. (in press).
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2005 Springer
About this chapter
Cite this chapter
Zobayed, S.M.A. (2005). Ventilation in Micropropagation. In: Kozai, T., Afreen, F., Zobayed, S. (eds) Photoautotrophic (sugar-free medium) Micropropagation as a New Micropropagation and Transplant Production System. Springer, Dordrecht. https://doi.org/10.1007/1-4020-3126-2_9
Download citation
DOI: https://doi.org/10.1007/1-4020-3126-2_9
Publisher Name: Springer, Dordrecht
Print ISBN: 978-1-4020-3125-0
Online ISBN: 978-1-4020-3126-7
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)