[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.7732/kjpr.2014.27.3.229

Effects of Gibberellin Biosynthetic Inhibitors on Oil, Secoisolaresonolodiglucoside, Seed Yield and Endogenous Gibberellin Content in Flax

Kim, Sang-Kuk (Division of Crop Breeding, Gyeongsangbuk-do Agricultural Research & Extension Services)
Kim, Hak-Yoon (Department of Global Environment, Keimyung University)

Publication Information

Korean Journal of Plant Resources / v.27, no.3, 2014 , pp. 229-235 More about this Journal

Abstract

Flax (Linum usitatissimum L.) has been used for the edible oil in Korea. The evaluate the effect of plant growth retardants on flaxseed yield, oil content, and gibberellin level, chloromequat chloride (CMC), paclobutrazol (PBZ), and prohexadione-Ca (PHC) were used as plant growth retardants in this study. These plant growth retardants were foliar-sprayed to flax plant at 55 days after seeding. The concentrations of each plant growth retardant were as followed: CMC 250, 500, 1000 ppm, PBZ 40, 80, 160 ppm and PHC 500, 1000, 2000 ppm. PHC treatment to forming bolls was more stimulated than CMC and PBZ. The highest ripened seed rate was observed in PHC treatment at 2000ppm. The high see yields were obtained in PHC treatment following PBZ and CMC, in turn. Seed yield that significantly increased in PBZ and PHC was found to be increased 12.4 ~ 23.9% as compared to the control. The PHC showed higher flaxseed production and oil yield than that of CMC and PBZ. The results obtained in the present study suggest that higher concentration of plant growth retardant (PHC) increased flaxseed yield and oil content. The optimal concentration of PHC treatment was observed in 2000 ppm. It concludes that the foliar application of PHC 2000 ppm may be useful for the increasing oil and higher seed production in flax plants.

Keywords

Chloromequat-Cl; Paclobutrazol; Prohexadione-Ca; Lignans; Gibberellin;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	Zafirova, T., C. Christov and V. Iliev, 1987. The influence of some growth regulators on the sunflower production. In Proceedings of the International Symposium of Plant Growth Regulators, Lilov, D., G. Vassilev, C. Christov, A. T. Sofia, Bulgaria and M. Popov (eds.), Institute of Plant Physiology. pp. 797-800.
2	Qian, Y.L. 1998. Trinexapac-ethyl restricts shoot growth and improves quality of 'Diamond' zoysiagrass under shade. Hort. Sci. 33(6):1019-1022.
3	Rademacher, W. 2000. Growth retardants: effects on gibberellins biosynthesis and other metabolic pathways. Annu. Rev. Plant Physiol. Plant Mol. Biol. 51:501-531. DOI ScienceOn
4	Reddy, V. R., A. Trent and B. Acock, 1992. Mepiquat chloride and irrigation versus cotton growth and development. Agron. J. 84:930-933. DOI
5	Dippenaar, M.C., C.R. Nolte and C. Barnard. 1990. Controlling excessive growth in cotton by multiple applications of low concentrations of mepiquat chloride. South Afr. J. Plant Soil 7:50-54. DOI
6	Fan, S., X. Yuzhang and Z. Chaojun. 1999. Effects of nitrogen, phosphorus and potassium on the development of cotton bolls in summer. Acta Gossypii Sinica 11:24-30.
7	Hafner, V. 2001. Moddus-universal product for lodging prevention in cereals. 5th Slovenian Conference on Plant Protection. Catez ob Savi, Slovenia. 6-8 March. pp. 167-172.
8	Hatje, G. 1989. World importance of oil crops and their products. In Robbellen, G., R.K. Downey and A. Ashri (eds.), Oil Crops of the World; Their Breeding and Utilization, McGraw-Hill Pub. Co., New York, USA. pp. 1-21.
9	Hedden, P. and Y. Kamiya. 1997. Gibberellin biosynthesis: enzymes, genes and their regulation. Annu. Rev. Plant Physiol. Plant Mol. Biol. 48:431-460. DOI ScienceOn
10	Hitz, W.D., T.J. Carlson, J.J.R. Booth, A.J. Kinney, K.L. Stecca and N.S. Yadav. 1994. Cloning of a higher-plant plastid [omega]-6 fatty acid desaturase cDNA and its expression in a Cyanobacterium. Plant Physiol. 105(2):635-641. DOI
11	Hodges, H.F., V.R. Reddy and K.R. Reddy. 1991. Mepiquat chloride and temperature effects on photosynthesis and respiration of fruiting cotton. Crop Sci. 31:1302-1308. DOI
12	Stuart, B.L., V.R. Isbell, C.W. Wendt and J.R. Abernathy, 1984. Modification of cotton water relations and growth with mepiquat chloride. Agron. J. 76:651-655. DOI
13	Sawan, Z.M., R.A. Sakr, F.A. Ahmed and A.M. Abd-Al-Samad. 1991. Effect of 1,1-dimethyl piperidinium chloride (Pix) on the seed, protein, oil and fatty acids of Egyptian cotton. J. Agron. Crop Sci. 166:157-161. DOI
14	Simmonda, N.W. 1976. Evolution of Crop Plants. Longman Inc., New York, USA. p. 64.
15	Singh, H., S.C. Chandra and R.S. Jolly, 1987. Effect of growth regulators in relation to time of sowing and yield of soybean cultivars. Ann. Biol. 3:36-43.
16	Wang, Z. L., Y.P. Yin and X.Z. Sun, 1995. The effect of DPC (N,N-dimethyl piperidinium chloride) on the $^{14}CO_2$ -assimilation and partitioning of $^{14}C$ assimilates within the cotton plants interplanted in a wheat stand. Photosynthetica 31:197-202.
17	Willard, J.M., M. Schroeder, J. Thompson, J. Daniel and C. Carter, 1976. Effects of 1,1-dimethyl piperidinium chloride (BAS 083 00 E) of cotton yield and development. In Abstracts. Meeting of the Plant Growth Regulator Working Group. Sullivan E.F. (ed.), Longmont, Co., LA. (USA). p. 8.
18	Wu, L.Y., Z.H. Chen, Y.N. Yuan and H.Y. Hu, 1985. A comparison of physiological effects of DPC and CCC on cotton plants. Plant Physiol. Commun. 5:17-19.
19	Jung, J. B. and W.V. Amsberg. 1975. Biological activity of new onium compounds in cotton and other crops. In Abstracts. Meeting of the Plant Growth Regulator Working Group, Sullivan E.F. (ed.), Longmont, Co., Chicago, IL (USA). p. 13.
20	Kerby, T.A. 1985. Cotton response to mepiquat chloride. Agron. J. 77:515-518. DOI
21	Meagher, L.P., G.R. Beecher, V.P. Flanagan and B.W. Li. 1999. Isolation and characterization of the lignans isolariciresinol and pinoresinol in flaxseed meal. J. Agric. Food Chem. 47:3173-3180. DOI ScienceOn
22	Kim, S.K., E.Y. Sohn and I.J. Lee. 2009. Quantification of endogenous gibberellins in two flax (Linum usitatissimum L.) cultivars during seed development. J. Crop Sci. Biotech. 12(1):43-46. DOI
23	Kim, S.K., H.D. Lee and H.J. Choi. 2011. Effect of mepiquat chloride and trinexapac-ethyl on oil composition, seed yield and endogenous gibberellins in flax. Korean J. Plant Res. 24(6):696-701. DOI
24	Lee, I.J., K.R. Foster and P.W. Morgan. 1998. Photoperiod control of gibberellin levels and flowering in sorghum. Plant Physiol. 116:1003-1010. DOI ScienceOn
25	Nepomuceno, A.L., D.M. Oosterhuis and A. Steger. 1997. Duration of activity of the plant growth regulators PGR-IV and mepiquat chloride, special report-Agricultural Experiment Station, Division of Agriculture, University of Arkansas. 183:136-139.
26	Osman, R.O. and B.H. Abu-Lila. 1985. Studies on the effect of gibberellic acid and cycocel on flax plants (Linum usitatissimum L.), seed oil content and oil composition. J. Agron. Crop Sci. 155: 82-88.
27	Osman, R.O. and F.A. Ahmed. 1982. Biochemical studies on the effect of B9 on sesame plants. Ann. Fac. Agric., Ain Shams Univ. 28:517.
28	Pipolo, A.E., M.L.F. Athayde, V.C. Pipolo and S. Parducci, 1993. Comparison of different rates of chlorocholine chloride applied to Herbaceous Cotton. Pesquisa Agropecuaria Brasileira 28:915-923.
29	Al-Gharbi, A.S. and I.R. Yousif. 1989. Effect of nitrogen and growth regulators on seed yield and quality of sunflower. Zanco 2:51.