Document Type : Original Article

Authors

1 Ph.D. Graduated Department of Agrotechnology, Faculty of Agriculture, Ferdowsi University of Mashhad, Iran

2 Professor, Department of Agrotechnology, Faculty of Agriculture, Ferdowsi University of Mashhad, Iran

3 Associate professor, Department of Agrotechnology, Faculty of Agriculture, Ferdowsi University of Mashhad

Abstract

Introduction
Autumn sowing leads to production improvement and yield stability of Plantago major due to the longer growing season, avoid late summer heat stress, and effective use of rainfall. However, in order to succeed in autumn sowing, cold tolerance is essential. It is crucial to carry out plant selection to evaluate and identify top traits for adaptation to environmental factors and ultimately higher production of valuable plants such as broadleaf plantain. Therefore, evaluation of the characteristics of important plants such as broadleaf plantain plays a fundamental role in the selection of top ecotypes for different purposes of selection and increase of yield in different climatic conditions of each region.
Materials and methods
This experiment was conducted as split-plot based on randomized complete block design with three replications at Research Farm of Agriculture Faculty of Ferdowsi University of Mashhad (36°15’ N, 56°28’ E, 985 m altitude) during the growing season 2013-14. The experimental factors included six ecotypes of Plantago major (Bojnord, Kalat, Mashhad, Ghaen, Torbat Heydarieh, and Birjand) and four sowing dates (late September, late October, late March, and late April). Irrigation was done immediately after planting and during the growing season according to the need of the farm by furrow method. Survival percentage, spike length, peduncle length, number of capsules, seed in capsule, 1000 grain weight, grain yield, biomass, and harvest index were evaluated. Data analysis was performed in SAS v9.4, and the means were compared by Duncan test at a 95% confidence interval.
Results and discussion
The results showed that delay in autumn sowing from September to October reduced the survival percentage in all ecotypes. While, the delay in spring sowing from March to April improved the survival percentage in Birjand, Ghaen, Mashhad and Kalat ecotypes by 12, 8.9, 7.3 and 5%, respectively. The highest percentage of survival in April sowing belonged to Mashhad, Birjand, Ghaen, and Kalat ecotypes and in March sowing belonged to Bojnord ecotype. The highest grain yield (796.9 g m-2) was observed in Ghaen ecotype and the lowest was obtained in Torbat Heydariyeh, Mashhad, and Kalat ecotypes. So that grain yield in Ghaen ecotype was 48, 46, and 59% higher than the mentioned ecotypes, respectively. The highest biomass was observed in September sowing in Bojnord ecotype (2768 g m-2) and the lowest was obtained in April sowing in Kalat ecotype (622 g m-2). Ghaen ecotype had the highest harvest index in all sowing dates. Autumn planting of Plantago major L. leads to reduce in survival percentage compared with the survival percentage of spring planting. Lack of significant difference in grain yield of Plantago major ecotypes in autumn and spring sowing dates indicates the high flexibility of this plant to the date of sowing.
Conclusions
Despite the effectiveness of other factors in the improvement of a plant’s growth, it could be predicted that the Plantago major L. ecotypes that have the ability for establishment in cold conditions are more likely to be in a better position than other ecotypes at other stages of development. Due to the occurrence of heat and drought stresses during the spring growing season and production of suitable biomass for most ecotypes in autumn sowing, the continuation of field and controlled experiments is necessary to evaluate the success of autumn sowing of this plant seems necessary.

Keywords

Main Subjects

Acquadh. G., 2012. Principle of Plant Genetics and Breeding. 2nd ed. Willey Blackwell, Oxford.
Akbari Nia, A., Daneshian J., Mohammadbeigi, F., 2006. Effect of nitrogen fertilizer and plant density on seed yield, essential oil and oil content of Coriandrum sativum L. Iranian Journal of Medicinal and Aromatic Plants, 22, 410-419. [In Persian with English Summary].
Bhagat, N.R., 1980. Studies on variation and association among seed yield and some component traits in Plantago ovata Forsk. Crop Improvement. 7, 60-63.
Farhad, I.S.M., Bhowmik, S.K., Amir Faisal, A.H.M., 2015. Effect of variety and planting time on the productivity of fenugreek in coastal area. World Journal of Agricultural Sciences. 11, 164-168.
Farahani Pad, P., Paknejhad, F., Fazeli, F., Ilkaie, M.N., Davoodifar, M., 2012. Effect of planting date on dry matter and yield components in four soybean cultivars. Iranian Journal of Agronomy and Plant Breeding. 8, 203- 212. [In Persian with English Summary].
Fathi, Gh., Enayat Gholizadeh., M.R., Razaz, M., 2012. Response of yield and grain yield components of canola different cultivars to heat and planting date. Journal of Crop Physiology. 4, 21-36. [In Persian with English Summary]
Filippo D’Antuono, L., Moretti, A., Lovato, A. F.S., 2002. Seed yield, yield components, oil content and essential oil content and composition of Nigella sativa L. and Nigella damascena L. Industrial Crops and Products.15, 59-69.
Ghorbanzadeh Neghab, M., Rassam, Gh., Dadkhah, A.R., 2014. Evaluation of yield and seed fatty acid compositions of Safflower (Carthamus tinctorius L.) cultivars in Shirvan region. Iranian Journal of Medicinal and Aromatic Plants. 30, 382-390. [In Persian with English Summary].
Gül, M.K., Egesel, C.O., Turhan, H., 2008. The effects of planting time on fatty acids and tocopherols in chickpea. European Food Research and Technology. 226, 517-522.
Hall, M.H., Collins, M., 2017. Forage Establishment. Forages, Volume 1: An Introduction to Grassland Agriculture, 1, 221.
Hedayat Abadi, F. Nezami, A., Kafi, M., Shabahang, J., 2015. Effects of sowing time on yield of black seed (Nigella sativa L.) ecotypes under Mashhad conditions. Iranian Journal of Field Crops Research. 12, 632-640. [In Persian with English Summary].
 Inci, N.E., Toker, C., 2011. Screening and selection of faba beans (Vicia faba L.) for cold tolerance and comparison to wild relatives. Genetic Resources and Crop Evolution. 58, 1169-1175.
Kobraee, S., Shams, K., Pazoki, R. 2010. Effect of cultivar and sowing date on grain yield and quantitative traits in chickpea (Cicer arietinum L.). Iranian Journal of Agronomy and Plant Breeding. 6, 53-64. [In Persian with English Summary].
Mirmiran, M., Nezami, A., Kafi, M., 2018. The effect of freezing stress on electrolyte leakage of Trigonella foenum-graecum L. Environmental Stresses in Crop Sciences. 1, 185-196. [In Persian with English Summary].
Mohebodini, M., Mehri, N., Fathi, R, 2019. Evaluation of genotype and environment effects on agro-morphological traits in black cumin (Nigella sativa L.) ecotypes. Journal of Crop Breeding. 11, 108-117.
Moore, G., Sanford, G., Wiley, T., 2006. Prennial pastures for western Austrailian. Bulletin 4690. Perth.
Nezami, A. 2003. Evaluation of cold tolerance in chickpea (Cicer arietinum L.) in order to autumn sowing in the highlands. Ph.D. Thesis, Ferdowsi University of Mashhad. [In Persian].
Nezami, A., Bandara, M., Gusta, L., 2012. An evaluation of freezing tolerance of winter chickpea (Cicer arietinum L.) using controlled freeze tests. Plant Science. 92, 155-161.
Nezami, A., Bagheri, A., 2005. Responsiveness of cold tolerant chickpea characteristics in fall and spring planting: II. Yield and yield components. Iranian Journal of Field Crops Research.3, 156-170. [In Persian with English Summary].
Nezami, A. Khorramdel, S., Nassiri-Mahallati, M., Mohammad-Abadi, A., 2009. Effect of planting dates on cumin (Cuminum cyminum L.) landraces in Mashhad conditions. Journal of Environmental Stresses in Crop Sciences. 2, 1-13. [In Persian with English Summary].
Nezami, A., Sanjani, S., Ziaee, M., Soleimani, M. R., Nasiri Mahalati, M., Bannayan aval, M., 2012. Evaluation of freezing tolerance of Cumin (Cuminum cyminum L.) under controlled conditions. Agricultura. 81, 75-84.
Ramesh, M.N., Farooqi, A.A., Subbaiah, T., 1989. Influence of sowing date and nutrients on growth and yield of Isabgol (Plantago ovata Forsk). Crop Research Hisar. 2, 169-174.
Sagar, G.R., Harper, J.L., 1964., Plantago major L., P. media L. and P. lanceolata L. Journal of Ecology. 52, 189- 221.
Samuelsen, A.B., 2000. The traditional uses, chemical constituents and biological activities of Plantago major L. A review. Journal of Ethnophar macology. 71, 1 -21.
Singh, V.K., Dixit, R.S., 1992. Effect of moisture regims and sowing date on chickpea (Cicer arietinum). Indian Journal of Agronomy. 37, 739- 743.
Subhan, F., Khan, M., Jamro, G.H., 2004. Effect of different planting date, seeding rate and weed control method on grain yield and yield components in wheat. Sharhad Journal of Agricultural Sciences. 20(1), 51-55. [In Persian with English Summary].
Torkaman Nia, A., 1997. Investigate the effect of planting time on Nigella sativa yield in Torbat-e-Jam condition. Bachelor thesis. Azad university of Torbat-e-Jam. [In Persian].
Prakash, V., Bisht, H., Prasad, P., 2011. Altitudinal variation in morpho-physiological attributes in Plantago major: selection of suitable cultivation site. Research Journal of Medicinal Plant. 5, 302-311.
Zubair, M. 2012. Genetic variation, biochemical contents and wound healing activity of Plantago major. Ph.D Thesis, Swedish University of Agricultural Sciences.
Zubair, M., 2010. Genetic and environmental effects on polyphenols in Plantago major. Horticulture and Agricultural Science.1, 1654-3580.