INVESTIGATING THE INFLUENCE OF BRASSINOLIDE ON THE GROWTH AND DEVELOPMENT OF PEANUT IN TRA VINH PROVINCE, VIETNAM
Keywords:
Brassinolide, concentration, growth and development of peanuts, Tra Vinh Province
Abstract
Brassinolide is a growth regulator contributing to plant growth and development, flowering and fruiting capacity, resulting in high yields for crops such as soybean, rice, strawberry, and grapes. This research project investigated the effect of Brassinolide on the growth and development of peanuts grown in sandy soil in Tra Vinh Province. The experiment utilized a completely randomized block design with two factors: four Brassinolide rates (0 ppm, 0.05 ppm, 0.10 ppm, and 0.15 ppm) and four injection points (15, 35, 50 days after sowing, and 15+35+50 days after sowing). The results indicated that a concentration of 0.15 ppm Brassinolide, combined with spraying three times on days 15+35+50 days after sowing, achieved higher efficiency in height, number of buds, number of flowers/tree, and number of fruits/plants, compared to the trial without Brassinolide.-- PDF Article: https://drive.google.com/file/d/1C-VLhz7Kmf2av4DwmS4f-Eo9hZiHitix/view?usp=sharing
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References
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158–166.
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a growth-promoting steroidal lactone. I. Activity in
selected auxin bioassays. Physiol Plant. 1981;53:
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Effect of brassinolide on gene expression in elongating soybean epicotyls. Plant Physiology. 1992;100:
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stem elongation. Plant Physiology. 1994;104: 505–
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prospects for its agricultural application. Japan Pesticide Information. 1989;55: 10–14.
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of Brassinosteroids on Vegetive and Reproductive
growth in two dáy neutral strawberry. Journal of the
Japanese Society for Horticultural Science.1996;65:
651–654.
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of brassinosteroids on fruit crops. Plant Growth Regulation. 1990;59: 44–45.
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organ in rice plants exposed to low temperature at
the ripening stage and effect of brassinolide on the
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NB. The effect of brassinosteroid on auxin-induced
ethylene production by etiolated mung bean segments.
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yield of cereals by means of brassinolide derivatives.
United States Patents 4767442A. 1988. Truy cập
từ: https://patents.google.com/patent/US4767442A/en
[Ngày truy cập 19/11/2020].
new phytosterol with plant-hermone potency form
chestnut insect gall. Tetrahedron Letters. 1982;23:
1275–1278.
[2] S. Seeta Ram Rao, Vidya Vardhini B, Sujatha E,
Anuradha S. Brassinosteroids – A new class of phytohormones. Current Science. 2002;82(10): 1239–1245.
[3] Takematsu T, Takeuchi Y. Effects of Brassinosteroids
on Growth and Yields of Crops. In: Physical
and Biological Sciences. Proceeding of
Japan Academy; 65(Series B). 13/06/1989.
Utsunomiya University. Japan. Truy cập từ:
https://doi.org/10.2183/pjab.65.149 [Ngày truy
cập 10/4/2020].
[4] Wada K, Arumo S. Synthesis and Plant Growthpromoting Activity of Brassinolide Analogues. Agriculture and Biologycal Chemistry. 1981;45(11):
2579–2585.
[5] Nguyễn Minh Chơn. Giáo trình Chất điều hòa sinh
trưởng thực vật [Tài liệu giảng dạy]. Trường Đại học
Cần Thơ; 2004.
[6] Ủy ban nhân dân tỉnh Trà Vinh. Kế hoạch phòng
chống thiên tai trên địa bàn tỉnh Trà Vinh. Số: 986,
2018.
[7] Lê Anh Tuấn. Phương pháp lồng ghép biến đổi khí
hậu vào kế hoạch phát triển kinh tế xã hội tại địa
phương. Thành phố Hồ Chí Minh: Nhà Xuất bản
Nông nghiệp; 2011.
[8] Sasse JM. Recent progress in brassinosteroid research. Plant Physiology. 1997;100: 697–701.
[9] Clouse. S.D. Brasinosteroids. Biomediacl Science.
2013: 250–254.
[10] Kohout L. Synthesis of brassinosteroids with a fivecarbon atom ester functionality in position 17. Collection of Czechoslowak Chemical Communications.
1989;54: 3348–3359.
[11] Andrzei Bajguz. Brassinosteroids. Plant Hormone.
2010: 1–27.
[12] Sasse JM. Brassinosteroids – Chemistry Bioactivity
and Applications. ACS Symp Washington DC. 1991:
158–166.
[13] Yopp JH, Mandava NB and Sasse JM. Brassinolide,
a growth-promoting steroidal lactone. I. Activity in
selected auxin bioassays. Physiol Plant. 1981;53:
453–461.
[14] Clouse SD, Zurek DM, McMorris TC and Baker ME.
Effect of brassinolide on gene expression in elongating soybean epicotyls. Plant Physiology. 1992;100:
1377–1388.
[15] Salazar SM, Coll Y; Viejobueno J, Coll F. Response
of strawberry plants to the application of brassinosteroid under field conditions. Noroeste Argent.
2016;36(1): 37–41.
[16] Zurek DM, Rayle DL, McMorris TC and Clouse SD.
Investigation of gene expression, growth kinetics, and
wall extensibility during brassinosteroid-regulated
stem elongation. Plant Physiology. 1994;104: 505–
513.
[17] Abe H. Advances I Brassinosteriod research and
prospects for its agricultural application. Japan Pesticide Information. 1989;55: 10–14.
[18] Pipattanawong N, Fujishinge N, Yamane K. Effects
of Brassinosteroids on Vegetive and Reproductive
growth in two dáy neutral strawberry. Journal of the
Japanese Society for Horticultural Science.1996;65:
651–654.
[19] Yoshiok T, Nesumi H, Ito Y. Pleiotropic influences
of brassinosteroids on fruit crops. Plant Growth Regulation. 1990;59: 44–45.
[20] Fujii S, Saka H. Distribution of assimilates to each
organ in rice plants exposed to low temperature at
the ripening stage and effect of brassinolide on the
distribution. PlantProduction Science. 2002;4: 136–
134.
[21] Arteca RN, Tsai DS, Schlagnhaufer C, Mandava
NB. The effect of brassinosteroid on auxin-induced
ethylene production by etiolated mung bean segments.
Physiologia Plantarum. 1983;59: 539–544.
[22] Takematsu T; Ikekawa N, Shida A. Increasing the
yield of cereals by means of brassinolide derivatives.
United States Patents 4767442A. 1988. Truy cập
từ: https://patents.google.com/patent/US4767442A/en
[Ngày truy cập 19/11/2020].
Published
24-March-2023
How to Cite
1.
Nguyen T. INVESTIGATING THE INFLUENCE OF BRASSINOLIDE ON THE GROWTH AND DEVELOPMENT OF PEANUT IN TRA VINH PROVINCE, VIETNAM. journal [Internet]. 24Mar.2023 [cited 22Dec.2024];13(1):60-7. Available from: https://journal.tvu.edu.vn/tvujs_old/index.php/journal/article/view/1719
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