Volume 1, Issue 1 ((Spring and Summer) 2014)                   Iranian J. Seed Res. 2014, 1(1): 67-75 | Back to browse issues page


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Sharifi-Sirchi G R. Effect of seed priming on growth features of Spinach (Spinacia oleracea) in sub-tropical regions. Iranian J. Seed Res.. 2014; 1 (1) :67-75
URL: http://yujs.yu.ac.ir/jisr/article-1-30-en.html
Agricultural engineering Department, Agriculture College, Hormozgan University , sharifi-sirchi@hormzgan.ac.ir
Abstract:   (23572 Views)
In order to extend the cultivation season and increase in growth ability in tropical regions, the effect of priming media, SA, NaCl, PEG, water and vitamin B1 with chemical elimination of pericarp by sulphuric acid, evaluated on growth characters of spinach under high temperature stress (25, 30, 35 °C). Results showed that PEG and vitamin B1 pretreatment after scarification with sulphuric acid 9 M increased germination percentage under 25 and 30°C. Also, for the propose of considering the effect of different priming media on spinach see at the optimum temperature of winter, seeds were sown in greenhouse and farm in Minab city. Results of greenhouse cultivation showed that hydro-primed seed and seed which primed with vitamin B1 and PEG had the highest emergence. In the field, the primed plant treated with vitamin B1, NaCl and distilled water had the highest yield. Therefore, this study suggests proofing laboratory results some experiments should be performed in farm filed with hotter temperatures by using vitamin B1 and PEG pretreatments.
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Type of Study: Research | Subject: Seed Physiology
Received: 2013/11/30 | Accepted: 2014/04/13

References
1. Alam, A., Amin, N., Ara, N., Ali, M., and Ali, I. 2013. Effect of various sources and durations of priming on spinach seeds. Pakistan Journal of Botany, 45(3): 773-777.
2.  Ashraf, M., and Iram A. 2002. Optimization and influence of seed priming with salts of potassium or calcium in two spring wheat cultivars differing in salt tolerance at the initial growth stages (Triticum aestivum L.). Agrochimica, 46(1-2): 47-55.
3.  Atherton, J.G., and Farooque, A.M. 1983a. High temperature and germination in spinach. I. the role of the pericarp. Scientia Horticulturae, 19(1-2):25-32. [DOI:10.1016/0304-4238(83)90040-7]
4. Atherton, J.G., and Farooque, A.M. 1983b. High temperature and germination in Spinach. II. Effect of osmotic priming. Scientia Horticulturae, 19(3-4): 221-227. [DOI:10.1016/0304-4238(83)90067-5]
5. Conrath, U. 2011. Molecular aspects of defense priming. Trends in Plant Science, 16(10): 524-531. [DOI:10.1016/j.tplants.2011.06.004] [PMID]
6. Jorjandi, M., and Sharifi-Sirchi G.R. 2012. The Effect of Priming on Germination and Seedling Growth of Alfalfa (Medicago sativa L.) under Salinity Stress. Journal of Stress Physiology and Biochemistry, 8(3): 234-239.
7.  Kamiab, M., Tohidinejad, E., and Sharifi-Sirchi, G.R. 2009. Brassica napus L. var olifera seed priming affects germination and emergence index under non stress and drought stress conditions. Agrochimica, 1: 26-35.
8.  Katzman, L.S., Taylor, A.G., and Langhans, R.W. 2001. Seed enhancements to improve Spinach germination. Horticultural Science, 36(5): 979-981.
9.  Masuda, M., Hata, N., Ombwara, F.K., and Agong, S.G. 2005. Effects of acid scarification, priming with PEG, NaCl or sea water as osmoticum and dehydration on spinach seed germination at 30 degrees centigrade. Journal of the Japanese Society of Horticultural Science, 74(2): 134-138. [DOI:10.2503/jjshs.74.134]
10.  Musuda, M., and Konishi, K. 1993. Improvement of high temperature germination of Spinach seed with acid scarification and priming with polyethylene glycol 6000. Journal of the Japanese Society of Horticultural Science, 62: 419-429. [DOI:10.2503/jjshs.62.419]
11.  Murungu, F.S., Chiduza, C., Nyamugafata, P., Clark, U., Whalley, W.R., and Finch-Savage., W.E. 2004. Effects of \'on-farm seed priming\' on consecutive daily sowing occasions on the emergence and growth of maize in semi-arid Zimbabwe. Field Crops Research, 89(1): 49-57. [DOI:10.1016/j.fcr.2004.01.020]
12. Nascimento, W.M., Huber, D.J., and Cantliffe, D.J. 2013. Carrot seed germination and respiration at high temperature in response to seed maturity and priming. Seed Science and Technology, 41(1): 164-169. [DOI:10.15258/sst.2013.41.1.19]
13.  Nascimento, W.M., and Periera, R.S. 2007. Preventing thermo-inhibition in carrot by seed priming. Seed Science and Technology, 35(2): 504-507. [DOI:10.15258/sst.2007.35.2.25]
14.  Sung. Y., Cantliff, D.J., Nagata, R.T., and Nascimento, W.M. 2008. Structural changes in lettuce seed during germination at high temperature altered by genotype, seed maturation temperature, and seed priming. Journal of American Society for Horticultural Science, 133(2): 300-311.
15.  Sharifi-Sirchi, G.R., Beheshti, B., Hoseini pour, A., and Mansori, M. 2011. Priming against Asiatic Citrus Canker and Monitoring of PR Genes expression during Resistance induction. African Journal of Biotechnology, 10(19): 3818-3823.

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