The Influence of Gibberellic Acid (GA3) and Sucrose on Flowering Behaviour of Bougainvillea glabra Under Natural Conditions

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date	2024-08-27 13:05:55
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internalnotes	Brooking, I.R. and D. Cohen, 2002. GibberellinInduced Flowering in Small Tubers of Zantedeschia „Black Magic. Scientia Horticulturae, 95: 63-73. Bolouri Moghaddam, M.R., and W. Van den Ende, 2012. Sugars and plant innate immunity. Journal of Experimental Botany, 63: 3989-3998. Carson, J.A. and D.W.M. Leung, 1994. In vitro flowering and propagation of Wahlenbergia stricta L. New Zealand Natural Science, 21: 55-60. Chang, Y. S and H.C. Chen, 2000. Variability between silver thiosulfate and 1-naphthalene acetic acid applications in prolonging bract longevity of potted bougainvillea. Scientia Horticulturae, 87: 217- 224. Coorts, G.D., 1973. Internal Metabolic Changes in Cut Flowers. Hort Science, 8: 195-198. Dickens, C.W.S. and van J. Staden, 1988. The in vitro flowering of Kalanchoe blossfeldiana Poellniz. (1) Role of culture conditions and nutrients. Journal of Experimentla Botany, 39: 461-471. Emongor, E.R., 2004. Effect of Gibberellic Acid on Postharvest Quality and Vase Life of Gerbera Cut Flowers (Gerbera jamesonii), Journal of Agronomy, 3: 191-195. Gay, A.P. and R. Nichols, 1977.The Effects of Some Chemicals Treatments on Leaf Water Conductance of Cut Flowering Stems of Chrysanthemum morifolium” Scientia Horticulture, 6: 167-177. Halevy, A.H., 1976. Treatments to Improve Water Balance of Cut flowers” Acta horticulturae , 64: 223-230. Hemant, P., K.N. Shyamal, C. Bhuwan, M. Nadeem and S.P. Lok Man, 2001. GA3 Induced Flowering in Podophyllum hexandrum Royle: a Rare Alpine Medicinal Herb,” Acta Physiologiae Plantarum, 23(4): 467-474. Hye, J.K and B.M. William, 2009. GA4+7 plus BA enhances post production quality in pot tulips. Postharvest Biology and Technology, 51: 272-277. John, C. K. and R.S. Nadgauda, 1999. In vitroinduced flowering in bamboos. In vitro Cell Dev Biol Plant 35: 309-315. Jumin, H.B. and N. Nito, 1996. In vitro flowering of Fortunella hindsii (Champ.). Plant Cell Rep., 15: 484-488. Kachonpadungkitti, Y., S. Romchatngoen, Hasegawa and K. S. Hisajima, 2001. Efficient flower induction from cultured buckwheat (Fagopyrum esculentum L.) node segments in vitro. Plant Growth Regulation, 35: 37-45. Khan, A.S. and N.Y. Chaudhry, 2006. GA3 improves flower yield in some cucurbits treated with lead and mercury. African Journal of Biotechnology, 5(2): 149-153. Kofranek A.M. and A.H Halevy, 1972. Conditions for Opening Cut Chrysanthemum Flower Buds. Journal of American Society of Horticultural Science, 97: 578-584. Mohammed Saifuddin, A.B.M.S. Hossain, O. Normaniza, A. Nasrulhaq Boyce and K.M. Moneruzzaman, 2009. The effects of Naphthaleneacetic Acid and Gibberellic Acid in Prolonging Bract Longevity and Delaying Discolorotion of Bougainvillea spectabilis. Biotechnology, 8(3): 343-340. Moneruzzaman, K.M., ABMS. Hossain, O. Normaniza, M. Saifuddin, W. Sani, A. NasrulhaqBoyce, 2010a. Effects of removal of young leaves and kinetin on inflorescence development and bract enlargement of Bougainvillea glabra var. “Elizabeth Angus”. Australian Journal of Crop Science, 4(7): 467-473. Moneruzzaman, K.M., ABMS. Hossain, N.B. Amru, M. Saifudin, H. Imdadul and S. Wirakarnain, 2010b. Effect of sucrose and kinetin on the quality and vase life of Bougainvillea glabra var. Elizabeth Angus bracts at different temperatures. Australian Journal of Crop Science, 4(7): 474-479. Mohammad Moneruzzaman Khandaker, Golam Faruq, M. Motior Rahman, M. Sofian-Azirun and Amru Nasrulhaq Boyce, 2013. The Influence of 1- Triacontanol on the Growth, Flowering, and Quality of Potted Bougainvillea Plants (Bougainvillea glabra var. „„Elizabeth Angus‟‟) under Natural Conditions. The Scientific World Journal Volume 2013, Article ID 308651, 12 pages. Motoaki Doi and S.R. Michaeil, 1995. Sucrose Improves the Postharvest Life of Cut Flowers of a Hybrid Limonium. HortScience, 30(5): 1058-1060. Naor V., J.M. Kigel Ziv, 2002. Hormonal control of inflorescence development in plantlets of calla lily (Zantedeschia spp.) grown in vitro. Plant Growth Regulation, 42: 7-14. Rao, I.V and H.Y. Mohan Ram, 1979. Interaction of gibberellin and sucrose in flower bud opening in gladiolus. Indian Journal of experimental Biology, 17: 447-48. Rao, R.I.V. and H.Y. Mohan Ram, 1982. Specificity of Gibberellin and Sucrose-promoted Flower Bud Growth in Gladiolus, Annals of Botany, 50: 473-479. Rogers, M.N., 1973. An Historical and Critical review of Post-harvest Physiology Research on Cut Flowers” HortScience, 8: 189-194. Rolland, F., Baena-Gonzalez, E., and J. Sheen, 2006. Sugar sensing and signaling in plants: conserved and novel mechanisms. Annual Review of Plant Biology, 57: 675-709. Sheen, J., L. Zhou and J.C. Jang, 1999. Sugars as signaling molecules. Current Opinion in Plant Biology, 2: 410-418. Schwechheimer, C., 2008. Understanding gibberellic acid signaling are we there yet? Current Opinion in Plant Biology, 11(1): 9-15. Taiz, I. and F. Zeiger, Plant Physiology, 3rd edition, Sinauer Associates Inc., Publishers, Sunderland. Yaser, H.D., C. Debasis, A. Mohammed Babar, S. Nista, H. Eun-Joo and P., Kee-Yoeup, 2007. Influence of GA3, Sucrose and Solid Medium on In Vitro Flowering of Spathiphyllum and Association of Glutathione Metabolism,” Plan Cell Tissue Organ Cultivation, 90: 225-235. Wurr, D.C.E., R.F. Jane and A. Lynn, 2000. The effect of temperature and day length on flower initiation and development in Dainthus allwoodii and Dianthus alpinus. Scientia Horticulturae, 86: 57-70. Tanimoto, S., and H. Harada, 1981. Chemical factors controlling flower bud formation of Torenia stem segments cultured in vitro, effects of mineral nutrients and sugars. Plant Cell Physiology, 22: 541- 553. Zhang, Z. and D. Leung, 2002. Factors Influencing The Growth of Micropropagated Shoots and In Vitro Flowering of Gentian,” Plant Growth Regulation, 36: 245-251.
originalfilename	7020-01-FH02-FBIM-16-04853.pdf
person	Dr.Moharam
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spelling	12713 https://intelek.unisza.edu.my/intelek/pages/view.php?ref=12713 https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 Restricted Document Article Journal application/pdf Adobe Acrobat Pro DC 20 Paper Capture Plug-in with ClearScan 8 1.6 Dr.Moharam 2024-08-27 13:05:55 7020-01-FH02-FBIM-16-04853.pdf UniSZA Private Access The Influence of Gibberellic Acid (GA3) and Sucrose on Flowering Behaviour of Bougainvillea glabra Under Natural Conditions Australian Journal of Basic and Applied Sciences A study was carried out to investigate the effects of the gibberellic acid and different concentrations of sucrose on vegetative and reproductive growth of Bougainvillea glabra var. “Elizabeth Angus”. Selected growth and flower quality parameters were monitored at three day intervals during the experimental period, using different concentrations of gibberellin and sucrose as treatments. 50 mg/L of GA3 with 2.5% sucrose promotes maximum bract weight, number of buds and bract length, while 25 mg/L of GA3 with 1% sucrose promotes maximum blooming rate, shoot elongation and bract wide. 25 mg/L of GA3 promotes the highest number of buds formed and highest blooming rate of Bougainvillea flower. 75 mg/L of GA3 stimulates most significant shoot elongation, bract length and bract weight, while 100 mg/L significantly increased bract wide. Both GA3 and sucrose complement to each other to complete flower opening while GA3 able to promotes different mode of actions. Combination of GA3 and sucrose at lower concentration incapable of endorsing notable flowering behavior of Bougainvillea plant. 9 31 423-429 Brooking, I.R. and D. Cohen, 2002. GibberellinInduced Flowering in Small Tubers of Zantedeschia „Black Magic. Scientia Horticulturae, 95: 63-73. Bolouri Moghaddam, M.R., and W. Van den Ende, 2012. Sugars and plant innate immunity. Journal of Experimental Botany, 63: 3989-3998. Carson, J.A. and D.W.M. Leung, 1994. In vitro flowering and propagation of Wahlenbergia stricta L. New Zealand Natural Science, 21: 55-60. Chang, Y. S and H.C. Chen, 2000. Variability between silver thiosulfate and 1-naphthalene acetic acid applications in prolonging bract longevity of potted bougainvillea. Scientia Horticulturae, 87: 217- 224. Coorts, G.D., 1973. Internal Metabolic Changes in Cut Flowers. Hort Science, 8: 195-198. Dickens, C.W.S. and van J. Staden, 1988. The in vitro flowering of Kalanchoe blossfeldiana Poellniz. (1) Role of culture conditions and nutrients. Journal of Experimentla Botany, 39: 461-471. Emongor, E.R., 2004. Effect of Gibberellic Acid on Postharvest Quality and Vase Life of Gerbera Cut Flowers (Gerbera jamesonii), Journal of Agronomy, 3: 191-195. Gay, A.P. and R. Nichols, 1977.The Effects of Some Chemicals Treatments on Leaf Water Conductance of Cut Flowering Stems of Chrysanthemum morifolium” Scientia Horticulture, 6: 167-177. Halevy, A.H., 1976. Treatments to Improve Water Balance of Cut flowers” Acta horticulturae , 64: 223-230. Hemant, P., K.N. Shyamal, C. Bhuwan, M. Nadeem and S.P. Lok Man, 2001. GA3 Induced Flowering in Podophyllum hexandrum Royle: a Rare Alpine Medicinal Herb,” Acta Physiologiae Plantarum, 23(4): 467-474. Hye, J.K and B.M. William, 2009. GA4+7 plus BA enhances post production quality in pot tulips. Postharvest Biology and Technology, 51: 272-277. John, C. K. and R.S. Nadgauda, 1999. In vitroinduced flowering in bamboos. In vitro Cell Dev Biol Plant 35: 309-315. Jumin, H.B. and N. Nito, 1996. In vitro flowering of Fortunella hindsii (Champ.). Plant Cell Rep., 15: 484-488. Kachonpadungkitti, Y., S. Romchatngoen, Hasegawa and K. S. Hisajima, 2001. Efficient flower induction from cultured buckwheat (Fagopyrum esculentum L.) node segments in vitro. Plant Growth Regulation, 35: 37-45. Khan, A.S. and N.Y. Chaudhry, 2006. GA3 improves flower yield in some cucurbits treated with lead and mercury. African Journal of Biotechnology, 5(2): 149-153. Kofranek A.M. and A.H Halevy, 1972. Conditions for Opening Cut Chrysanthemum Flower Buds. Journal of American Society of Horticultural Science, 97: 578-584. Mohammed Saifuddin, A.B.M.S. Hossain, O. Normaniza, A. Nasrulhaq Boyce and K.M. Moneruzzaman, 2009. The effects of Naphthaleneacetic Acid and Gibberellic Acid in Prolonging Bract Longevity and Delaying Discolorotion of Bougainvillea spectabilis. Biotechnology, 8(3): 343-340. Moneruzzaman, K.M., ABMS. Hossain, O. Normaniza, M. Saifuddin, W. Sani, A. NasrulhaqBoyce, 2010a. Effects of removal of young leaves and kinetin on inflorescence development and bract enlargement of Bougainvillea glabra var. “Elizabeth Angus”. Australian Journal of Crop Science, 4(7): 467-473. Moneruzzaman, K.M., ABMS. Hossain, N.B. Amru, M. Saifudin, H. Imdadul and S. Wirakarnain, 2010b. Effect of sucrose and kinetin on the quality and vase life of Bougainvillea glabra var. Elizabeth Angus bracts at different temperatures. Australian Journal of Crop Science, 4(7): 474-479. Mohammad Moneruzzaman Khandaker, Golam Faruq, M. Motior Rahman, M. Sofian-Azirun and Amru Nasrulhaq Boyce, 2013. The Influence of 1- Triacontanol on the Growth, Flowering, and Quality of Potted Bougainvillea Plants (Bougainvillea glabra var. „„Elizabeth Angus‟‟) under Natural Conditions. The Scientific World Journal Volume 2013, Article ID 308651, 12 pages. Motoaki Doi and S.R. Michaeil, 1995. Sucrose Improves the Postharvest Life of Cut Flowers of a Hybrid Limonium. HortScience, 30(5): 1058-1060. Naor V., J.M. Kigel Ziv, 2002. Hormonal control of inflorescence development in plantlets of calla lily (Zantedeschia spp.) grown in vitro. Plant Growth Regulation, 42: 7-14. Rao, I.V and H.Y. Mohan Ram, 1979. Interaction of gibberellin and sucrose in flower bud opening in gladiolus. Indian Journal of experimental Biology, 17: 447-48. Rao, R.I.V. and H.Y. Mohan Ram, 1982. Specificity of Gibberellin and Sucrose-promoted Flower Bud Growth in Gladiolus, Annals of Botany, 50: 473-479. Rogers, M.N., 1973. An Historical and Critical review of Post-harvest Physiology Research on Cut Flowers” HortScience, 8: 189-194. Rolland, F., Baena-Gonzalez, E., and J. Sheen, 2006. Sugar sensing and signaling in plants: conserved and novel mechanisms. Annual Review of Plant Biology, 57: 675-709. Sheen, J., L. Zhou and J.C. Jang, 1999. Sugars as signaling molecules. Current Opinion in Plant Biology, 2: 410-418. Schwechheimer, C., 2008. Understanding gibberellic acid signaling are we there yet? Current Opinion in Plant Biology, 11(1): 9-15. Taiz, I. and F. Zeiger, Plant Physiology, 3rd edition, Sinauer Associates Inc., Publishers, Sunderland. Yaser, H.D., C. Debasis, A. Mohammed Babar, S. Nista, H. Eun-Joo and P., Kee-Yoeup, 2007. Influence of GA3, Sucrose and Solid Medium on In Vitro Flowering of Spathiphyllum and Association of Glutathione Metabolism,” Plan Cell Tissue Organ Cultivation, 90: 225-235. Wurr, D.C.E., R.F. Jane and A. Lynn, 2000. The effect of temperature and day length on flower initiation and development in Dainthus allwoodii and Dianthus alpinus. Scientia Horticulturae, 86: 57-70. Tanimoto, S., and H. Harada, 1981. Chemical factors controlling flower bud formation of Torenia stem segments cultured in vitro, effects of mineral nutrients and sugars. Plant Cell Physiology, 22: 541- 553. Zhang, Z. and D. Leung, 2002. Factors Influencing The Growth of Micropropagated Shoots and In Vitro Flowering of Gentian,” Plant Growth Regulation, 36: 245-251.
spellingShingle	The Influence of Gibberellic Acid (GA3) and Sucrose on Flowering Behaviour of Bougainvillea glabra Under Natural Conditions
summary	A study was carried out to investigate the effects of the gibberellic acid and different concentrations of sucrose on vegetative and reproductive growth of Bougainvillea glabra var. “Elizabeth Angus”. Selected growth and flower quality parameters were monitored at three day intervals during the experimental period, using different concentrations of gibberellin and sucrose as treatments. 50 mg/L of GA3 with 2.5% sucrose promotes maximum bract weight, number of buds and bract length, while 25 mg/L of GA3 with 1% sucrose promotes maximum blooming rate, shoot elongation and bract wide. 25 mg/L of GA3 promotes the highest number of buds formed and highest blooming rate of Bougainvillea flower. 75 mg/L of GA3 stimulates most significant shoot elongation, bract length and bract weight, while 100 mg/L significantly increased bract wide. Both GA3 and sucrose complement to each other to complete flower opening while GA3 able to promotes different mode of actions. Combination of GA3 and sucrose at lower concentration incapable of endorsing notable flowering behavior of Bougainvillea plant.
title	The Influence of Gibberellic Acid (GA3) and Sucrose on Flowering Behaviour of Bougainvillea glabra Under Natural Conditions
title_full	The Influence of Gibberellic Acid (GA3) and Sucrose on Flowering Behaviour of Bougainvillea glabra Under Natural Conditions
title_fullStr	The Influence of Gibberellic Acid (GA3) and Sucrose on Flowering Behaviour of Bougainvillea glabra Under Natural Conditions
title_full_unstemmed	The Influence of Gibberellic Acid (GA3) and Sucrose on Flowering Behaviour of Bougainvillea glabra Under Natural Conditions
title_short	The Influence of Gibberellic Acid (GA3) and Sucrose on Flowering Behaviour of Bougainvillea glabra Under Natural Conditions
title_sort	influence of gibberellic acid (ga3) and sucrose on flowering behaviour of bougainvillea glabra under natural conditions

The Influence of Gibberellic Acid (GA3) and Sucrose on Flowering Behaviour of Bougainvillea glabra Under Natural Conditions

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