Determination of The Effect of Growth Regulators on Germination Properties of Silage Sorghum


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DOI:

https://doi.org/10.5281/zenodo.7769065

Keywords:

Sorghum, drought, hormone, germination

Abstract

Due to the decrease in the quantity and quality of water resources in the world, drought stress becomes important in plant cultivation and causes changes in the physiological functions of economically important plants. In order to obtain products in an economic sense, the optimum environmental requirements of the plant species or variety grown must be met. In order to increase these environmental demands, the use of plant growth regulators, inspired by the regulating hormones naturally found in the plant itself, is a common method recently. In our study, it was aimed to increase germination and germination factors by using plant growth regulators in silage sorghum. In the research, Nes sorghum variety, which was determined to be compatible with the region in the previous cultivar yield study in the region, and Zeatin and Brassinolides growth regulators were used as materials. Sorghum seeds were placed in each petri dish with filter paper. Germination experiments of seeds were carried out at 20/25°C (day/night) for 10 days. Germinated seeds were counted at the same time each day. When the rootlet reached 2 mm, the seed was considered to be germinated and removed from the petri dish. At the end of the research, the highest germination rate of sorghum seeds for silage was obtained from 1% Zeatin + 1% Brassinolides application with a value of 98.97%. Average values between 2.15 and 1.93 in the period until 50% germination were obtained from the control application with the highest value of 2.15. Average germination index values varied between 36.80 and 28.84, and the highest germination index was obtained from 1% Zeatin + 1% Brassinolides application. At the end of the research, it was determined that hormone applications had positive effects on the germination of silage sorghum seeds.

 

 

References

Abazarian, R., Yazdani, M.R., Khosroyar, K., Arvin, P., 2011. Effects of different levels of salinity on germination of four components of lentil cultivars. African Journal of Agricultural Research, 6(5): 2761-2766.

Aras, İ., Keskin, B., 2018. The Effects of different ırrigation water salinity levels on some silage Sorghum (Sorgum sp.) varieties. Journal of Iğdır University Graduate School of Natural and Applied Sciences, 8(1): 279-288.

Eren, Ö., Öztürk, H., 2021. Determination of environmental effects of sweet Sorghum (Sorghum bicolor (L)) biomass by life cycle evaluation. European Journal of Science and Technology, 195- 203.

Geçer, M.K., 2003. The effects of different salinity levels on seedling quality, plant growth and yield in tomatoes, Master Thesis, Van Yüzüncü Yıl University, Van.

Hartmann, H.T., Kester, D.E., Davies, F.T., 1990. Plant propagation. principles of propagation by seed. 647 p.

Hilhorst, H.W.M., Karssen, C.M., 1992. Seed dormancy and germination: The Role of absisic acid and gibberalins and the importance of hormone mutants. Plant Growth Regulation, 11: 225-238.

Iqbal, M.A., 2018. Comparative performance of forage cluster bean accessions as companion crops with sorghum under varied harvesting times. Bragantia 77(3): 476-484.

Iqbal, M.A., Hussain, I., Siddiqui, M.H., Ali, E., Ahmad, Z., 2018. Probing profitability of irrigated and rainfed bread wheat (Triticum aestivum L.) crops under foliage applied sorghum and moringa extracts in Pakistan. Custose Agronegocio, 14(2): 2-16.

Karakurt, H., Aslantaş, R., Eşitken, A., 2010. Environmental factors effective on seed germination and plant growth and some preliminary applications. Uludağ University Journal of the Faculty of Agriculture, 115-128.

Rhaman, M.S., Imran, S., Rauf, F., Khatun, M., Baskin, C.C., Murata, Y., Hasanuzzaman, M., 2020. Seed priming with phytohormones: An effective approach for the mitigation of abiotic stress. Plants, 10(1): 37.

Sheikhzadeh, P., Zare, N., Mamoudi, F., 2021. The synergistic effects of hydro and hormone priming on seed germination, antioxidant activity and cadmium tolerace in borage. Acta Botanica Croatica, 80(1): 18-28.

Şimşek Soysal, A., Demirkol, G., Önal, Ö., Kaşko Arıcı, Y., Acar, Z., Yılmaz, N., 2018. The Effect of Salt Stress on Germination and Seedling Growth Traits in Sorghum* Watergrass Hybrid. International Journal of Agricultural and Wildlife Sciences 4(2): 274-252.

Ünyayar, S., Topcuoğlu, S.F., 1998. The determination of biological activities of Indole-3-Acetic Acid (IAA), Gibberellic Acid (GA_3), Abscisic Acid (ABA) and Zeatin Obtained from phanerochaete chrysosporium ME446. Turkish Journal of Biology, 22(1): 29-42.

Yavaş, İ., Akgül, H., Ünay, A., 2016. Applications to increase drought resistance of plants. Turkish Journal of Agriculture-Food Science and Technology, 4(1).

Yüce, B., 1979. The effects of germination of olive seeds in different environments and times on germination percentage.

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Published

2023-03-26

How to Cite

KIZIL AYDEMİR, S. ., & DEVLET, A. (2023). Determination of The Effect of Growth Regulators on Germination Properties of Silage Sorghum. ISPEC Journal of Agricultural Sciences, 7(1), 195–201. https://doi.org/10.5281/zenodo.7769065

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