Journal of Bioscience and Agriculture Research |
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RESEARCH ARTICLE:
Plant growth promoters on growth and yield of summer cherry tomato line (JP-27)
H. Ahmad (1), M. R. Hassan (1), B. Laila (1), S. Mahbuba (2) and A. F. M. Jamal Uddin (1)
1Department of Horticulture, Sher-e-Bangla Agricultural University, Dhaka
2Department of Agricultural Botany, Sher-e-Bangla Agricultural University, Dhaka, Bangladesh
J. bios. agric. res. | Volume 12, Issue 02, pp. 1041-1047 | Available online: 14 March 2017.
Crossref: https://doi.org/10.18801/jbar.120217.127
Plant growth promoters on growth and yield of summer cherry tomato line (JP-27)
H. Ahmad (1), M. R. Hassan (1), B. Laila (1), S. Mahbuba (2) and A. F. M. Jamal Uddin (1)
1Department of Horticulture, Sher-e-Bangla Agricultural University, Dhaka
2Department of Agricultural Botany, Sher-e-Bangla Agricultural University, Dhaka, Bangladesh
J. bios. agric. res. | Volume 12, Issue 02, pp. 1041-1047 | Available online: 14 March 2017.
Crossref: https://doi.org/10.18801/jbar.120217.127
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Title: Plant growth promoters on growth and yield of summer cherry tomato line (JP-27)
Abstract: An experiment was accomplished in the Horticulture Farm of Department of Horticulture, Sher-e-Bangla Agricultural University to evaluate the influence of different plant growth promoters on growth and yield of JP-27 summer cherry tomato line. Four different growth promoters including control viz. F0= Control (Water), F1= Flora (Nitrobenzene 20% w/w) @ 2.5ml/L, F2= 4-CPA @ 2.5 ml/L and F3= GA3 @ 200ppm was used in this experiment arranged in a Randomized Completely Blocked Design (RCBD) with three replications. Maximum plant height, no. of leaves, no. of branches, days to first flower, no. of flowers, no. of fruits, fruit length, single fruit weight, yield/plant and yield/ha (194.5 cm, 28.7, 12.7, 18.0, 48.3, 34.7, 19.9 mm, 20.4 gm, 458.7 gm and 19.0 ton respectively) were found in F3 treatment and maximum fruit diameter (40.7 mm) were found in F2 whereas the minimum (179.7 cm, 13.1, 5.7, 27.3, 36.3, 22.3, 13.5 mm, 33.0 mm, 10.6 gm, 287.9 gm and 13.2 ton respectively) were observed in F0. Thus application of plant growth promoters for improving overall performance of cherry tomato produced in summer can be recommended.
Key Words: Cherry tomato, Growth promoters and Summer production
Abstract: An experiment was accomplished in the Horticulture Farm of Department of Horticulture, Sher-e-Bangla Agricultural University to evaluate the influence of different plant growth promoters on growth and yield of JP-27 summer cherry tomato line. Four different growth promoters including control viz. F0= Control (Water), F1= Flora (Nitrobenzene 20% w/w) @ 2.5ml/L, F2= 4-CPA @ 2.5 ml/L and F3= GA3 @ 200ppm was used in this experiment arranged in a Randomized Completely Blocked Design (RCBD) with three replications. Maximum plant height, no. of leaves, no. of branches, days to first flower, no. of flowers, no. of fruits, fruit length, single fruit weight, yield/plant and yield/ha (194.5 cm, 28.7, 12.7, 18.0, 48.3, 34.7, 19.9 mm, 20.4 gm, 458.7 gm and 19.0 ton respectively) were found in F3 treatment and maximum fruit diameter (40.7 mm) were found in F2 whereas the minimum (179.7 cm, 13.1, 5.7, 27.3, 36.3, 22.3, 13.5 mm, 33.0 mm, 10.6 gm, 287.9 gm and 13.2 ton respectively) were observed in F0. Thus application of plant growth promoters for improving overall performance of cherry tomato produced in summer can be recommended.
Key Words: Cherry tomato, Growth promoters and Summer production
HOW TO CITE THIS ARTICLE?
APA (American Psychological Association)
Ahmad, H., Hassan, M. R., Laila, B., Mahbuba, S. and Jamal Uddin, A. F. M. (2017). Plant growth promoters on growth and yield of summer cherry tomato line (JP-27). Journal of Bioscience and Agriculture Research,12(02), 1041-1047.
MLA (Modern Language Association)
Ahmad, H., Hassan, M. R., Laila, B., Mahbuba, S. and Jamal Uddin, A. F. M. “Plant growth promoters on growth and yield of summer cherry tomato line (JP-27)”. Journal of Bioscience and Agriculture Research, 12.02(2017), 1041-1047.
Chicago and orTurabian
Ahmad, H., Hassan, M. R., Laila, B., Mahbuba, S. and Jamal Uddin, A. F. M. “Plant growth promoters on growth and yield of summer cherry tomato line (JP-27)”. Journal of Bioscience and Agriculture Research, 12. no. 02(2017), 1041-1047.
APA (American Psychological Association)
Ahmad, H., Hassan, M. R., Laila, B., Mahbuba, S. and Jamal Uddin, A. F. M. (2017). Plant growth promoters on growth and yield of summer cherry tomato line (JP-27). Journal of Bioscience and Agriculture Research,12(02), 1041-1047.
MLA (Modern Language Association)
Ahmad, H., Hassan, M. R., Laila, B., Mahbuba, S. and Jamal Uddin, A. F. M. “Plant growth promoters on growth and yield of summer cherry tomato line (JP-27)”. Journal of Bioscience and Agriculture Research, 12.02(2017), 1041-1047.
Chicago and orTurabian
Ahmad, H., Hassan, M. R., Laila, B., Mahbuba, S. and Jamal Uddin, A. F. M. “Plant growth promoters on growth and yield of summer cherry tomato line (JP-27)”. Journal of Bioscience and Agriculture Research, 12. no. 02(2017), 1041-1047.
- Abdel-Razzak, H., Ibrahim, A., Wahb-Allah, M. and Alsadon, A. (2013). Response of cherry tomato (Solanum lycopersicum var. Cerasiforme) to pruning systems and irrigation rates under greenhouse conditions. Asian J. Crop Sci. 5, 275–285.
- Abdulla, A. A. and Verkert, K. (1968). Growth flowering and fruit-set of the tomato at higher temperature. Neth. J. Agric. Sci. 16, 71-76.
- Ahmad, S. (2002). Genetics of fruit set and related traits in tomato under hot -humid conditions. Ph. D. Thesis, Bangabandhu Sheikh Mujibur Rahman Agricultural University. pp. 44-180.
- Aloni, B., Daie, J. and Wyse, R. E. (1968). Enhancement of (14C)-sucrose export from source leaves of Vicia faba by gibberellic acid. Plant Physiol. 82, 962-966.
- Al-Wakeel, S. A. M., Hamed, A. A. and Dadoura, S. S. (1995). Interactive effects of water stress and gibberellic acid on mineral composition of fenugreek plant. Egyptian J. Physiol. Sci. 18, 269-282.
- Arteca, R. N. (1996). Plant growth substances: Principles and applications, Chapman and Hall Inc, New York. https://doi.org/10.1007/978-1-4757-2451-6
- Broughton, W. J. and McComb, A. J. (1971). Changes in the pattern of enzyme development in gibberellin-treated pea internodes. Amer. J. Bot. 35, 213-228.
- Buchanan, B. B., Gruissem, W. and Jones, R. L. (2000). Biochemistry and molecular biology of plants, American Society of Plant Physiologists, Rockville, Maryland.
- Crozier, A. and Turnbull, C. G. N. (1984). Gibberellins: Biochemistry and action in extension growth. What’s New in Plant Physiol. 15, 9-12.
- Erickson, A. N. and Markhart, A. H. (2001). Flower production, fruit set, and physiology of bell pepper during elevated temperature and vapor pressure deficit. J. Am. Soc. Hort. Sci. 126, 697-702.
- Evins, W. H. and Varner, J. E. (1972). Hormonal control of polyribosome formation in barley aleurone layers. Plant Physiol. 49, 348-352. PMid:16657959 PMCid:PMC365963
- Gemici, M., Türkyilmaz, B. and Tan, K. (2006). Effect of 2,4-D and 4-CPA on yield and quality of the tomato, Lycopersicon esculentum Mill. JFS. 29, 24-32.
- Gomez, K. H., Gomez, A. A. (1984). Statistical procedures for agricultural research. Second Edn. Wiley- Inter Science publication, John Wiley and Sono, New York. p. 680.
- Jamal Uddin, A. F. M., Mehraj, H., Taufique, T., Ona, A. F., Parvin, S. (2014). Foliar application of gibberelic acid on growth and flowering of gerbera cultivars. Journal of Bioscience and Agriculture Research, 2(1), 52-58.
- Johri, M. M. and Varner, J. E. (1968). Enhancement of RNA synthesis in isolated pea nuclei by gibberellic acid. Proc. Nat. Acad. Sci. (US). 59, 269- 279.
- Kannan, K., Jawaharlal, M. and Prabhu, M. (2009). Effect of plant growth regulators on growth and yield parameters of paprika cv.KtPl-19. Agric. Sci. Digest, 29(3), 157-162.
- Khan, N. A., Ansari, H. R. and Samiullah. (1998). Effect of gibberellic acid spray during ontogeny of mustard on growth, nutrient uptake and yield characteristics. J. Agron. Crop Sci. 181, 61-73.
- Kobryn, J. and Hallmann, E. (2005). The effect of nitrogen fertilization on the quality of three tomato types cultivated on rockwool. Acta Hort. 691, 341–348.
- Liu, P. B. W. and Loy, B. (1976). Action of gibberellic acid on cell proliferation in the subapical shoot meristem of watermelon seedlings. Am. J. Bot. 63, 700-704.
- Lone Nawaz Ahmed (2005). Effect of boom flower-n on growth, development and yield components of two contrasting varieties of paddy (Oryza sativa L.) viz. IR-36 and Danteshwari. M. Sc (Ag.) Thesis, IGKVV, Raipur, Chhattisgarh, India.
- Mantur, S. M., Biradar, M. S., Patil, A. A. and Mannikeri, I. M. (2014). Effect of Spacing on cherry tomato varieties grown under shade house. Karnataka J. Agric. Sci. 27, 199–201.
- Matlob, A. N. and Kelly, W. C. (1975). Growth regulator activity and parthenocarpic fruit production in snake melon and cucumber grown at high temperature. J. Am. Soc. Hort. Sci. 100, 406-409.
- Mehraj, H., Sadia, A. A., Taufique, T., Rashid, M. and Jamal Uddin, A. F. M. (2014). Influence of foliar application of gibberellic acid on cherry tomato (Lycopersicon esculentum Mill. var. Cerasiforme). J. Expt. Biosci. 5(2), 27-30.
- Mehrotra, O. N., Garg, R. G. and Singh, I. (1970). Growth, fruiting and quaility of tomato as influenced by growth regulators. Prog. Hort. 2(1), 57-64.
- Menezes, J. B., da Costa, C. and Sampaio, R. A. (2012). Fruit production and classification of four cherry tomato genotypes under an organic cropping system. IDESIA (Chile), 30, 29–35.
- Moore, T. C. (1989). Biochemistry and physiology of plant hormones. Springer – Verlag Inc. New York. https://doi.org/10.1007/978-1-4612-3654-2
- Mozer, T. J. (1980). Control of protein synthesis in barley aleurone layers by the plant hormones, gibberellic acid and abscisic acid. Cell, 20, 479-485.
- Mulligan, D. R. and Patrick, J. W. (1973). Gibberellic-acid-promoted transport of assimilates in stems of Phaseolus vulgaris L.: Localised versus remote site (S) of action. Planta, 145, 233-238. PMid:24317728
- Nibhavanti, B., Bhalekar, M. N., Gupta, N. S. and Anjai, D. (2006). Effect of growth regulators on growth and yield oftomato in summer. Maharastra J. Agric. 31(1), 64-65.
- Ozguven, A. I., Paksay, M. and Abak, K. (1997). The effects of 4-CPA in tomato growing in green house on the fruit set, quality and amount of 4-CPA residue in fruits. Proceeding of the 8th international horticultural symposium on plant bio regulation in fruit production. Acta Horticulture, 463, 243-248.
- Pain, S. K. and Dutta, J. K. (1977). Studies on growth and metabolism of Zea mays L. I. The effect of application of gibberellic acid on the growth and metabolism of seedlings. Indian Biol. 9, 38-43.
- Rai, N., Yadav, D. S., Patel, K. K., Yadav, R. K., Asati, B. S. and Chaubey, T. (2006) Effect of plant growth regulators on growth, yield and quality of tomato ( Solanumlycopersicon Mill.) grown under mid hill of Meghalaya. Vegetable Science, 33(2), 180-182.
- Ranjeet, Ram, R. B., Prakash, Jay and Meena, M. L. (2014). Growth, flowering, fruiting, yield and quality of tomato (Lycopersicon esculentum Mill.) as influenced plant bio regulators. Internat. J. Plant Sci., 9(1), 67-71.
- Rappaport, L. (1957). Effect of gibberellin on growth, flowering and fruiting of Earlypak tomato, Lycopersicum esculentum. Plant Physiol. 32, 440-444. PMid:16655027 PMCid:PMC540955
- Roth, B. N. and Lips, S. H. (1970). Hormonal regulation of nitrate reductase activity in leaves. New Phytol. 69, 165-169. https://doi.org/10.1111/j.1469-8137.1970.tb04060.x
- Sanwal, S. K., Baswana, K. S. and Dhingra, H. R. (1997). High temperature tolerance in eggplant: Stigma, anther and pollen studies. Ann. biol. 13, 123-125.
- Sasaki, H., Yano, T. and Yamasaki, A. (2005). Reduction of high temperature inhibition in tomato fruit set by plant growth regulators. JARQ Japan International Research Centre for Agriculture, 39(2), 1-7. https://doi.org/10.6090/jarq.39.135
- Sharma, N., Kohli, U. K. and Sinha, B. N. (1999). Effect of NAA on bell pepper. J. Hill Res. 12(1), 74-76.
- Singh, L. and Mukherjee, S. (2000). Effect of foliar application of urea and NAA on yield and yield attributes of chilli (Capsicum annuum var: longum). Agri. Sci. Digest. 20(2), 116-117.
- Stevens, M. A. and Rudich, J. (1978). Genetic potential for overcoming physiological limitations on adaptability, yield and quality in the tomato. Hort. Sci. 13, 673-678.
- Tomar, I. S. and Ramgiry, S. R. (1997). Effect of growthregulator on yield and yield attributes in tomato( Lycopersicon esculentum Mill.). Adv. Pl. Sci. 10(2), 29-31.
- Udden, J., Hossain, K. M. A., Mostafa, M. G. and Rahman, M. J. (2009). Effect different plant growth regulators on growth and yield of tomato. Internat. J. Sustainable Agric. 1(3), 58- 63.
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