Gibberellin-induced Stem Elongation and Apical Bud Growth Acceleration Without Decreased Yield in Broccoli (<i>Brassica oleracea</i> L. var. <i>Italica</i>)
Author:
Affiliation:
1. Hokkaido Agricultural Research Center, NARO
2. Institute of Vegetable and Floriculture Science, NARO
Publisher
Japanese Society for Horticultural Science
Subject
Horticulture,Plant Science
Link
https://www.jstage.jst.go.jp/article/hortj/92/3/92_QH-045/_pdf
Reference32 articles.
1. Asami, T. and T. Kakimoto. 2016. Atarashii shokubutsuhorumon no kagaku, third ed. Kodansha Scientifique Ltd., Tokyo, p. 37–52 (In Japanese).
2. Blazquez, M. A., R. Green, O. Nilsson, M. R. Sussman and D. Weigel. 1998. Gibberellins promote flowering of Arabidopsis by activating the LEAFY promoter. Plant Cell 10: 791–800.
3. Bonhomme, F., B. Kurz, S. Melzer, G. Bernier and A. Jacqmard. 2000. Cytokinin and gibberellin activate SaMADS A, a gene apparently involved in regulation of the floral transition in Sinapis alba. Plant J. 24: 103–111.
4. Booij, R. 1989. Effect of growth-regulators on curd diameter of cauliflower. Sci. Hortic. 38: 23–32.
5. Booij, R. 1990. Effects of gibberellic acids on time of maturity and on yield and quality of cauliflower. Netherlands Journal of Agricultural Science 384: 641–651.
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