Effect of duration of priming on different traits of two maize cultivars (Zea mays L.) under deficit irrigation conditions

Arefi, Yaeghob; Farajzadeh Memari Tabrizi, Elnaz

doi:10.22077/escs.2017.60.1022

Document Type : Original Article

Authors

¹ MSc. Student of Agronomy, Depaqrtment of Agronomy, Malekan Branch, Islamic Azad University, Malekan, Iran.

² Department of Agronomy, Malekan Branch, Islamic Azad University, Malekan, Iran.

https://doi.org/10.22077/escs.2017.60.1022

Abstract

Introduction
Water stress is the most important non-disease stress with adverse effects on plant growth and yield. The inadequate emergence of seedlings and inappropriate establishment of the factors limiting the growth and yield of plants, especially in areas with low rainfall. Successful deployment of seedlings increases the competitiveness of crops against weeds and increases plant resistance to dehydration and pests. On the other hand, by expediting the treatment, provided enough time to plant a second plant. Studies have shown that priming improves germination, reduces the time of emergence of seedlings, and results in improved plant deployment. Selection of suitable cultivar and seed priming modify the adverse effects of moisture stress on plant growth and development. The aim of this study was to investigate the effect of different levels of irrigation and duration of priming on growth and yield and corn cultivars.

Materials and methods

This research was carried out in 1394 in laboratory and field conditions. In laboratory conditions, factorial experiment was conducted based on a completely randomized design. The first factor consisted of three levels of polyethylene glycol application (irrigation with distilled water, irrigation with polyethylene glycol solution (distilled water, concentration of 12% by volume and irrigation with polyethylene glycol solution with concentration of 25% by weight), the second factor of priming time (zero, 8, 12 and 24 hours), the third factor consisted of two cultivars of maize (704 and 604). In this study, the effect of simultaneous priming (zero (no priming), 8, 16 and 24 hours) in the field conditions, and two varieties Corn (706 and 604) under three moisture conditions (irrigation after 70, 110 and 150 mm evaporation from class A evaporation pan) was investigated. The experiment was carried out in three replicates and split factorial based on randomized complete block design. The application of irrigation levels after plant deployment of corn in the 6-8 leaf stage in the field began. Priming seeds were done before planting.
Findings
In laboratory conditions, in 704, 25% m/v of polyethylene glycol treatments decreased germination percentage by 3.8%. The highest seedling dry weight was obtained in two treatments of distilled water, 16 hours priming and 604, and 12% by weight of polyethylene glycol, 8 hours priming and 704 with a value of 1.06. In this study, in distilled water, priming had no significant effect on dry weight of seedlings of corn, but in 25% of treatment weight of polyethylene glycol, priming treatments of 16 and 24 hours reduced to 86 and 80% in 704 and priming treatments 8, 16 and 24 Hours at 604 significantly increased 52, 52 and 72% in seedling dry weight. In this study, the highest germination rate coefficient was obtained in distilled water and 8 hours priming with 0.85 per day, and the lowest in treatment of 25% by weight of polyethylene glycol day and non-priming with 0.4%. The treatment of 25% polyethylene glycol in non-priming and 8 hours priming treatments caused a significant decrease of 0.36 and 0.20 per day in germination rate, but did not affect germination rate in priming treatments of 16 and 24 hours. There was no significant difference in grain yield between cultivars in terms of field conditions. Moisture stress had a significant effect on yield loss, so that in case of non-priming, irrigation after 150 mm of evaporation caused a decrease of evaporation of 52% in grain yield compared with irrigation after 70 mm evaporation. However, priming of corn seeds over a period of more than 16 hours prevented this decrease in water-induced function. In the absence of priming, priming for 8 and 16 hours, irrigation treatment after 110 mm evaporation from the pan had no effect on grain yield. Dehydrated weight, ear weight, and shoot dry weight, leaf chlorophyll content, leaf area and plant height decreased 20.7, 21.9, 14.9, 42.9 and 10.6%, respectively. Priming had a significant positive effect on traits and 8 hours priming increased 19.9%, 15.3% and 19.2%, leaf area, shoot weight and seed number, but depending on the treatment time, the effect of priming was different.

Conclusion
considering the results of the effect of priming against water deficit, there was no significant effect on seed yield under full irrigation conditions. There were no differences between the cultivars in most of the traits. In general, it seems that in the studied traits under full irrigation conditions, the lower periods of pre-treatment had a more positive effect, while in dehydration conditions, the effect of longer priming periods was better. The total priming of 8 and 16 hours was the most effective period of priming for grain yield.

Keywords

References

Almaghrabi, O. A., 2012. Impact of drought stress on germination and seedling growth parameters of some wheat cultivars. Life Science Journal. 9(1), 590-598.

Asch, F., Andersen, M. N., Jensen, C. R. and Mogensen. V. O., 2001. Ovary abscisic acid concentration does not induce kernel abortion in field-grown maize subjected to drought. European Journal of Agronomy. 15, 119–129.

Ashagre, H., Zeleke, M., Mulugeta, M. and Estifanos, E., 2014. Evaluation of highland maize cultivars for polyethylene glycol induced moisture stress tolerance at germination and seedling growth stage. Journal of Plant Breeding and Crop Science. 6, 77-83.

Aslam, M., Zamir, M.S.I., Afzal, I., Yaseen, M., Mubeen, M., Shoaib, A., 2013. Drought stress, its effect on maize production and development of drought tolerance through potassium application. Cercetări Agronomice în Moldova. 2 (154), 99-114.

Cattivelli, L., Rizza, F., Badeck, F. W., Mazzucotelli, E., Mastrangelo, A. M., Francia, E., Mare, C., Tondelli, A., Michele Stanca, A., 2008. Drought tolerance improvement in crop plants: An integrated view from breeding to genomics. Field Crops Research 105, 1–14.

Cenacchi, N. and Koo, J., 2011. Effects of drought tolerance on maize yield in Sub-Saharan Africa. 2011. Increasing agricultural productivity & enhancing food security in Africa new challenges and opportunities”. 13 November 2011 Africa Hall, UNECA, Addis Ababa, Ethiopia.

Eskandari, H., 2013. Effects of priming technique on seed germination properties, emergence and field performance of crops: a review. International journal of Agronomy and Plant Production. 4 (3), 454-458.

Golmohammadzadeh, S., Zaefarian, F., Rezvani, M., 2014. Investigation of different priming techniques on seed germination of Papaver species. International Journal of Biosciences. 4, 1-9.

Hamza, J. H., 2012. Seed priming of bread wheat to improve germination under drought stress. The Iraqi Journal of Agricultural Sciences. 43 (2), 100-107.

Hussain, M., Bashir, W., Farooq, S. and Rehim, A., 2013. Root development, allometry and productivity of maize hybrids under terminal drought sown by varying method. International Journal of Agriculture and Biology. 15, 1243–1250.

Khodarahmpour, Z., 2011. Effect of drought stress induced by polyethylene glycol (PEG) on germination indices in corn (Zea mays L.) hybrids. African Journal of Biotechnology. 10, 55-61.

Madani, A., Shirani-Rad, A., Pazoki, A., Nourmohammadi, G., Zarghami, R., Mokhtassi-Bidgoli, A., 2010. The impact of source or sink limitations on yield formation of winter wheat (Triticum aestivum L.) due to post-anthesis water and nitrogen deficiencies. Plant, Soil and Environment. 56(5), 218–227.

Maroufi, K. H., Farahani, A. and Moradi, O., 2011. Evaluation of nano priming on germination percentage in green gram (Vigna Radiata L). Advances in Environmental Biology. 5(11), 3659-3663.

Miraj, G., Shah, H. U. and Arif, M., 2013. Priming maize (Zea mays) seed with phosphate solutions improves seedling growth and yield. The Journal of Animal & Plant Sciences. 23(3), 893-899.

Mohammadai, H., Soleymani, A., Shams, M., 2012. Evaluation of drought stress effects on yield components and seed yield of three maize cultivars (Zea mays L.) in Isfahan region. International Journal of Agriculture and Crop Sciences. 4, 1436-1439.

Moser, S. B., Feil, B., Jampatong, S. and Stamp, P., 2006. Effects of pre-anthesis drought, nitrogen fertilizer rate, and variety on grain yield, yield components, and harvest index of tropical maize. Agricultural Water Management. 81, 41–58.

Mousavi, H., Lack, S., Alavi Fazel, M., 2013. Analysis of correlation and stepwise regression between grain protein yield and related traits of maize in conditions of drought stress and zinc sulfate spraying. International Journal of Agriculture and Crop Sciences. 5, 2783-2788.

Musharaf, K., Asim, M., Shah, F.M., Ullah, S., Saadullah, K. and Subhan, M., 2013. Response of maize yield and yield components to different hydropriming durations in rainfed region of Bannu. European Journal of Biological Sciences. 6 (1), 12-16.

Nawaz, A., Amjad, M., Khan, S. M., Afzal, I., Ahmed, T., Iqbal, Q. and Iqbal, J., 2013. Tomato seed invigoration with cytokinins. The Journal of Animal & Plant Sciences. 23(1), 121-128.

Pourmohammad, A., Shekari, F., Soltaniband, V., 2013. Effects of cycocel priming on growth and early development of rapeseed under drought stress. Acta Universitatis Sapientiae Agriculture and Environment. 5, 5-18.

Priya, P., 2008. Effect of seed priming on field performance of maize based cropping systems under rainfed condition. Department Of Agronomy. College of Agriculture, Dharwad. University of Agricultural Sciences. Dharwad.

Rahimi, A., 2013. Seed priming improves the germination performance of cumin (Cuminum syminum L.) under temperature and water stress. Industrial Crops and Products. 42, 454– 460.

Saleem, M. S., Sajid, M., Ahmed, Z., Ahmed, S., Ahmed, N. and Shahid Ul Islam, M., 2014. Effect of seed soaking on seed germination and growth of bitter gourd cultivars. Journal of Agriculture and Veterinary Science. 6, 7-11.

Sani, B. M., Oluwasemire, K. O. and Mohammed, H. I., 2008. Effect of irrigation and plant density on the growth, yield and water use efficiency of early maize in the Nigerian savanna. ARPN Journal of Agricultural and Biological Science. 3, 33-40.

Soleimanzadeh, H., 2013. Effect of seed priming on germination and yield of corn. International Journal of Agriculture and Crop Sciences. 5, 366-369.

Sudozai, M. I., Tunio, S., Chachar, Q. and Rajpar, I., 2013. Seedling establishment and yield of maize under different seed priming periods and available soil moisture. Sarhad Journal of Agriculture. 29, 81-90.

Tabatabaei, S. A., 2013. The effect of salicylic acid and gibberellin on enzyme activity and germination characteristics of wheat seeds under salinity stress conditions. International Journal of Agriculture and Crop Sciences. 6, 236-240.

Zahedifar, M. and Zohrabi. S., 2016. Germination and seedling characteristics of drought-stressed corn seed as influenced by seed priming with potassium nano-chelate and sulfate fertilizers. Acta agriculturae Slovenica. 107, 113 - 128.

Zarmehri, G., Moosavi, S., Zabihi, S.G. and Seghateslami, M.J., 2013. The effect of plant growth promoting rhizobacteria (PGPR) and zinc fertilizer on forage yield of maize under water deficit stress conditions. Technical Journal of Engineering and Applied Sciences. 3, 3281-3290.

Environmental Stresses in Crop Sciences

Effect of duration of priming on different traits of two maize cultivars (Zea mays L.) under deficit irrigation conditions

References

References

Volume 10, Issue 4
Open Access Policy
January 2017
Pages 583-593

Effect of duration of priming on different traits of two maize cultivars (Zea mays L.) under deficit irrigation conditions

References

References

Volume 10, Issue 4 Open Access PolicyJanuary 2017Pages 583-593

Volume 10, Issue 4
Open Access Policy
January 2017
Pages 583-593