Effect of Seed Priming Techniques on Germination Parameters of Safflower (Carthamus tinctorius L.)

ASHRAFI, E., RAZMJOO, K.: Effects of priming on seed germination and field emergence of safflower (Carthamus tinctorius L.). Seed Science and Technology, 38(3), 675-681, 2010.10.15258/sst.2010.38.3.15Search in Google Scholar

AMBIKA, S., MANONMANI, V., SOMASUNDARAM, G.: Review on effect of seed size on seedling vigour and seed yield. Research Journal of Seed Science, 7, 31-38, 2014.10.3923/rjss.2014.31.38Search in Google Scholar

BIJANZADEH, E., NOSRATI, K., EGAN, T.: Influence of seed priming techniques on germination and emergence of rapeseed (Brassica napus L.). Seed Science and Technology, 38(1), 242-247, 2010.10.15258/sst.2010.38.1.26Search in Google Scholar

ČANAK, P., JOCKOVIĆ, M., ĆIRIĆ, M., MIROSAVLJEVIĆ, M., MIKLIČ, V. (2014). Effect of seed priming with various concentrations of KNO₃ on sunflower seed germination in in vitro drought conditions. Research on Crops, 15(1), 154-158, 2014.10.5958/j.2348-7542.15.1.021Search in Google Scholar

ČANAK, P., MIROSAVLJEVIĆ, M., ĆIRIĆ, M., VUJIOŠEVIĆ, B., KEŠELJ, J., STANISAVLJEVIĆ, D., MITROVIĆ, B.: Seed priming as a method for improving maize seed germination parameters at low temperatures. Field and Vegetable Crops Research, 53(3), 106-110, 2016.10.5937/ratpov53-10825Search in Google Scholar

ELOUAER, MA., HANNACHI, C.: Seed priming to improve germination and seedling growth of safflower (Carthamus tinctorius) under salt stress. EurAsian Journal of Biosciences, 6, 76-84, 2012.10.5053/ejobios.2012.6.0.9Search in Google Scholar

ELOUAER, M.A., BEN FREDJ, M., ZHANI, K., HANNACHI, C.: Influence of NaCl seed priming on growth and some biochemical attributes of safflower grown under saline conditions. Research on Crop Ecophysiology, 9(1), 13-20, 2014.Search in Google Scholar

ESKANDARI, H., ALIZADEH-AMRAIE, A.: Improvement of lentil germination performance under salt and drought conditions using seed priming treatments. Seed Science and Technology, 42(1), 87-91, 2014.10.15258/sst.2014.42.1.09Search in Google Scholar

ESPANANY, A., FALLAH, S., TADAYYON, A.: Seed priming improves seed germination and reduces oxidative stress in black cumin (Nigella sativa) in presence of cadmium. Industrial Crops and Products, 79, 195-204, 2016.10.1016/j.indcrop.2015.11.016Search in Google Scholar

FRANČÁKOVÁ, H., LÍŠKOVÁ, M.: Dormancy of malting barley in relation to physiological parameters of barley grain. Acta Fytotechnica et Zootechnica, 12, 20–23, 2009.Search in Google Scholar

GHASEMI, E., GOODARZIAN-GHAHFAROKHI, M., DARVISHI, B., HEIDARI-KAZAFI, Z.: The effect of hydro-priming on germination characteristics, seedling growth and antioxidant activity of accelerated aging wheat seeds. Cercetări Agronomiceîn Moldova, 7(4), 41-48, 2014.10.1515/cerce-2015-0003Search in Google Scholar

GHASSEMI-GOLEZANI, K., ESMAEILPOUR, B.: The effect of salt priming on the performance of differentially matured cucumber (Cucumis sativus) seeds. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 36(2), 67-70, 2008.Search in Google Scholar

GILBERT, J.: International safflower production – an overview. Proceedings of the 7th International Safflower Conference, Wagga Wagga, NSW, Australia, 3-6 November, 2008. pp 7.Search in Google Scholar

ISTA (International Seed Testing Association): International rules for seed testing. International Seed Testing Association, Bassersdorf, Switzerland, 2009.Search in Google Scholar

JAJARMI, V.: Effect of water stress on germination indices in seven safflower cultivars (Carthamus tinctorius L.). Proceedings of the 7th International Safflower Conference, Wagga Wagga, NSW, Australia, 3-6 November, 2008. pp 3.Search in Google Scholar

JANMOHAMMADI, M., DEZFULI, MP., SHARIFZADEH, F.: Seed invigoration techniques to improve germination and early growth of inbred line of maize under salinity and drought stress. General and Applied Plant Physiology, Special Issue 34(3-4), 215-226, 2008.Search in Google Scholar

KANDIL, AA., SHARIEF, AE., MANAL, FK.: Germination characters as affected by seed priming of some safflower cultivars under salinity stress. International Journal of Agronomy and Agricultural Research, 9(2), 65-80, 2016.Search in Google Scholar

KHAYATNEZHAD, M., GHOLAMIN, R., SOMARIN, S., MAHMOODABAD, Z.: Study on water stress effect of wheat genotypes on germination indexes. Middle East Journal of Scientific Research, 6(6), 657-660, 2010.Search in Google Scholar

MAHAJAN, S., TUTEJA, N.: Cold, salinity and drought stresses: An overview. Archives of Biochemistry and Biophysics, 444, 139–158, 2005.10.1016/j.abb.2005.10.01816309626Search in Google Scholar

MEKA, PK., TRIPATHI, V., SINGH, RP.: Synthesis of biodiesel fuel from safflower oil using various reaction parameters. Journal of Oleo Science, 56(1), 9-12, 2007.10.5650/jos.56.917693692Search in Google Scholar

MILADINOV, Z., BALEŠEVIĆ-TUBIĆ, S., ĐORĐEVIĆ, V., ĐUKIĆ, V., ILIĆ, A., ČOBANOVIĆ, L.: Optimal time of soybean seed priming and primer effect under salt stress conditions. Journal of Agricultural Sciences, 60(2), 109-117, 2015.10.2298/JAS1502109MSearch in Google Scholar

NABIZADEH, E., YOUSEFI, F., GERAMI, F.: Osmopriming effects on safflower (Carthamus tinctorius L.) seed germination and seedling growth. European Journal of Experimental Biology, 2(3), 623-630, 2012.Search in Google Scholar

PATANE, C., CAVALLARO, V., COSENTINO, SL.: Germination and radicle growth in unprimed and primed seeds of sweet sorghum as affected by reduced water potential in NaCl at different temperatures. Industrial Crops and Products, 30, 1-8, 2009.10.1016/j.indcrop.2008.12.005Search in Google Scholar

RAHIMI, A.: Seed priming improves the germination performance of cumin (Cuminum syminum L.) under temperature and water stress. Industrial Crops and Products, 42, 454–460, 2013.10.1016/j.indcrop.2012.06.026Search in Google Scholar

RUTTANARUANGBOWORN, A., CHANPRASERT, W., TOBUNLUEPOP, P., ONWIMOL, D.: Effect of seed priming with different concentrations of potassium nitrate on the pattern of seed imbibition and germination of rice (Oryza sativa L.). Journal of Integrative Agriculture, 16(3), 605-613, 2017.10.1016/S2095-3119(16)61441-7Search in Google Scholar

SINGH, B., BOHRA, A., MISHRA, S., JOSHI, R., PANDEY, S.: Embracing new-generation ‘omics’ tools to improve drought tolerance in cereal and food-legume crops. Biologia Plantarum, 59, 413–428, 2015.10.1007/s10535-015-0515-0Search in Google Scholar

SINGH, D., LAXMI, A.: Transcriptional regulation of drought response: a tortuous network of transcriptional factors. Frontiers in Plant Science, 6, 895, 2015.10.3389/fpls.2015.00895Search in Google Scholar

STATSOFT, INC.: STATISTICA (data analysis software system), version 10, 2011.Search in Google Scholar

VASCONCELOS, PDCT., LOUREIRO, MB., LIMA, AMMF., RIBEIRO, PR., BERNAL, DT., MORENO, ML. V., FERNANDEZ, LG., DE GASTRO, RD.: New insights into the mechanism underlying Ricinus communis L. tolerance to drought stress during germination. Industrial Crops and Products, 103, 99-106, 2017.10.1016/j.indcrop.2017.03.038Search in Google Scholar

WINDAUER, L., ALTUNA, A., BENECH-ARNOLD, R.: Hydrotime analysis of Lesquerella fendleri seed germination responses to priming treatments. Industrial Crops and Products, 25, 70-74, 2007.10.1016/j.indcrop.2006.07.004Search in Google Scholar

YAU, SK., RYAN, Y.: Response of rainfed safflower to nitrogen fertilization under Mediterranean conditions. Industrial Crops and Products, 32, 318-323, 2010.10.1016/j.indcrop.2010.05.008Search in Google Scholar