Transplanting and Seed Hydro-priming Affects Yield, Water Use Efficiency, and Grain Quality of Maize Cultivars under Delayed Planting

Year 2022, Volume: 28 Issue: 4, 740 - 750, 17.10.2022

Amir Ghalkhanı Farzad Paknejad Ali Mahrokh Mohammad Reza Ardakani Farid Golzardi

https://doi.org/10.15832/ankutbd.995878

Abstract

To evaluate the effect of planting method (PM), planting date (PD), and cultivar (CV) on the grain and herbage yield, irrigation water use efficiency for herbage (IWUEH) and grain (IWUEG), and grain quality of maize, a two-year field study was conducted at the Research Farm of Seed and Plant Improvement Institute, Karaj, Iran, during the 2017 and 2018 growing seasons. The experiment was arranged as split-plot factorial with three planting dates, including PD1 (July 1st), PD2 (July 11th), and PD3 (July 23rd) as main plots. Three planting methods, including direct seeding (DS), seed hydro-priming (HP), and transplanting (TP), were factorially combined with two maize cultivars (S.C.704 and S.C.260) as sub-plots. The highest herbage and grain yields (76685 and 7369 kg ha-1, respectively) and the maximum IWUE for herbage and grain production (13.1 and 1.21 kg m-3, respectively) were found in the TP. The CV S.C.704 obtained a higher grain yield (GY) on PD1 than that of S.C.260, but as planting was delayed, the GY of S.C.704 was affected more negatively in both years. Delay planting enhanced IWUEH, but not IWUEG. The highest IWUEG was obtained from TP on each PD. The CV S.C.260 in delay planting resulted in better IWUEG in both years. The highest and lowest contents of crude protein, starch, ash, crude fiber, and oil were obtained from hydro-primed and transplanted maize, respectively. In conclusion, the yield in the transplanting method had superiority over DS and HP. Also, HP was found to be the optimal PM to enhance the grain quality of maize in delayed planting. Furthermore, selecting S.C.260 as a high-yielding hybrid on delayed planting is suggested.

Keywords

Planting method, planting date, zea mays L, crude protein, semi-arid region

Supporting Institution

This research was funded by Seed and Plant Improvement Institute, Agricultural Research, Education and Extension Organization (AREEO)..

Project Number

Project No: 0-03-03-012- 960188

References

• Allen, Richard G, Luis S Pereira, Dirk Raes, and Martin Smith (1998). 'Crop evapotranspiration-Guidelines for computing crop water requirements-FAO Irrigation and drainage paper 56', Fao, Rome, 300: D05109.
• Andonova, P Sánchez, J Rattin, and A Di Benedetto (2014). 'Yield increase as influenced by transplanting of sweet maize (Zea mays L. saccharata)', Journal of Experimental Agriculture International: 1314-29. http://doi.org/10.9734/AJEA/2014/11077
• Aziz, Abdul, H u Rehman, and Najibullah Khan (2007). 'Maize cultivar response to population density and planting date for grain and biomass yield', Sarhad Journal of Agriculture, 23: 25.
• Baghdadi, A., Balazadeh, M., Kashani, A., Golzardi, F., Gholamhoseini, M. and Mehrnia, M (2017). Effect of pre-sowing and nitrogen application on forage quality of silage corn. Agronomy Research, 15, 11-23.
• Bakhtavar, M. A., Afzal, I., Basra, S. M. A., & Noor, M. A (2015). Physiological strategies to improve the performance of spring maize (Zea mays L.) planted under early and optimum sowing conditions. PloS one, 10(4), e0124441. . https://doi.org/10.1371/journal.pone.0124441
• Bartlett, Maurice Stevenson (1937). 'Properties of sufficiency and statistical tests', Proceedings of the Royal Society of London. Series A-Mathematical and Physical Sciences, 160: 268-82. http://doi.org/10.1098/rspa.1937.0109.
• Biswas, Mrityunjoy (2015). 'Direct seeded and transplanted maize: Effects of planting date and age of seedling on the yield and yield attributes', Journal of Experimental Agriculture International: 489-97. http://doi.org/10.9734/AJEA/2015/13594.
• Bu, L., Chen, X., Li, S., Liu, J., Zhu, L., Luo, S., Zhao, Y (2015). The effect of adapting cultivars on the water use efficiency of dryland maize (Zea mays L.) in northwestern China. Agricultural Water Management, 148, 1-9. http://doi.org/10.1016/j.agwat.2014.09.010
• Buriro, M., Bhutto, T., Gandahi, A., Kumbhar, I., & Shar, M (2015). Effect of sowing dates on growth, yield and grain quality of hybrid maize. Journal of Basic and Applied Sciences, 11, 553-558. http://doi.org/10.6000/1927-5129.2015.11.73
• Cao, Qingjun, Gang Li, Fentuan Yang, Xiaoli Jiang, Lamine Diallo, Enping Zhang, and Fanli Kong (2019). 'Maize yield, biomass and grain quality traits responses to delayed sowing date and genotypes in rain-fed condition', Emirates Journal of Food and Agriculture: 415-25. https://doi.org/10.9755/ejfa.2019.v31.i6.1969
• Fanadzo, M, C Chiduza, and PNS Mnkeni (2009). 'Comparative response of direct seeded and transplanted maize (Zea mays L.) to nitrogen fertilization at Zanyokwe irrigation scheme, Eastern Cape, South Africa', African Journal of Agricultural Research, 4: 689-94. https://doi.org/10.5897/AJAR.9000116
• [FAO] Food and Agriculture Organization of the United Nations (2019). Crops and livestock products. Retrived Junuary 1, 2021, from http://www.fao.org/faostat/en/#data/TP
• Feyzbakhsh, Mohammad Taghi, Behnam Kamkar, Hassan Mokhtarpour, and Mohammad Esmaeil Asadi (2015). 'Effect of soil water management and different sowing dates on maize yield and water use efficiency under drip irrigation system', Archives of Agronomy and Soil Science, 61: 1581-92. https://doi.org/10.1080/03650340.2015.1019345.
• Golzardi, F., Baghdadi, A. and Afshar, R. K (2017). Alternate furrow irrigation affects yield and water-use efficiency of maize under deficit irrigation. Crop and Pasture Science, 68, 726-734. https://doi.org/10.1071/CP17178
• Hassan, Muhammad Umair, Muhammad Umer Chattha, Lorenzo Barbanti, Athar Mahmood, Muhammad Bilal Chattha, Imran Khan, Saima Mirza, Saira Abdul Aziz, Muhammad Nawaz, and Muhammad Aamer (2020). 'Cultivar and seeding time role in sorghum to optimize biomass and methane yield under warm dry climate', Industrial Crops and Products, 145: 111983. https://doi.org/10.1016/j.indcrop.2019.111983.
• Hassan, Muhammad Umair, Muhammad Umer Chattha, Imran Khan, Muhammad Bilal Chattha, Lorenzo Barbanti, Muhammad Aamer, Muhammad Mehmood Iqbal, Muhammad Nawaz, Athar Mahmood, and Abid Ali (2020). 'Heat stress in cultivated plants: nature, impact, mechanisms, and mitigation strategies—a review', Plant Biosystems-An International Journal Dealing with all Aspects of Plant Biology: 1-24. https://doi.org/10.1080/11263504.2020.1727987.
• Hu, Mengxuan, and Pawel Wiatrak (2012). 'Effect of planting date on soybean growth, yield, and grain quality', Agronomy Journal, 104: 785-90. https://doi.org/10.2134/agronj2011.0382.
• Khalily, M, M Moghaddam, H Kanouni, and E Asheri (2010). 'Dissection of drought stress as a grain production constraint of maize in Iran', Asian Journal of Crop Science, 2: 60-69.
• Koca, Yakup Onur, and O Canavar (2014). 'The effect of sowing date on yield and yield components and seed quality of corn (Zea mays L.)', Sci Papers Series A Agron, 57: 227-23.
• Li, Changsheng, Yongcai Huang, Ruidong Huang, Yongrui Wu, and Wenqin Wang. 2018. 'The genetic architecture of amylose biosynthesis in maize kernel', Plant biotechnology journal, 16: 688-95. https://doi.org/10.1111/pbi.12821.
• Long, Nguyen V, Yared Assefa, Rai Schwalbert, and Ignacio A Ciampitti (2017). 'Maize yield and planting date relationship: A synthesis-analysis for US high-yielding contest-winner and field research data', Frontiers in plant science, 8: 2106. https://doi.org/10.3389/fpls.2017.02106.
• Loy, DD, and EL Lundy (2019). 'Nutritional properties and feeding value of corn and its coproducts.' in, Corn (Elsevier). https://doi.org/10.1016/B978-0-12-811971-6.00023-1. Mason, S. C., & D'croz-Mason, N. E (2002). Agronomic practices influence maize grain quality. Journal of Crop Production, 5(1-2), 75-91. https://doi.org/10.1300/J144v05n01_04.
• Moradi, Rooholla, Alireza Koocheki, Mehdi Nassiri Mahallati, and Hamed Mansoori (2013). 'Adaptation strategies for maize cultivation under climate change in Iran: irrigation and planting date management', Mitigation and Adaptation Strategies for Global Change, 18: 265-84. https://doi.org/10.1007/s11027-012-9410-6.
• Motto, Mario, Hans Hartings, Marco Fracassetti, and Gabriella Consonni (2012). Grain quality-related traits in maize: gene identification and exploitation, Maydica, 56.
• Nazari Sh., M.A. Aboutalebian, F. Golzardi (2017). Seed priming improves seedling emergence time, root characteristics and yield of canola in the conditions of late sowing. Agronomy Research, 15(2): 501-514.
• Ngugi, Kahiu, Jerono Cheserek, Cecilia Muchira, and George Chemining’wa (2013). Anthesis to silking interval usefulness in developing drought tolerant maize, J. Renew. Agric, 1: 84-90. https://doi.org/10.12966/jra.08,03.2013.
• O’connell, MG, GJ O’leary, DM Whitfield, and DJ Connor (2004). Interception of photosynthetically active radiation and radiation-use efficiency of wheat, field pea and mustard in a semi-arid environment, Field Crops Research, 85: 111-24. https://doi.org/10.1016/S0378-4290(03)00156-4.
• Rafiee, M., & Kalhor, M (2016). Economic water use efficiency of corn (Zea mays L.) hybrids as affected by irrigation regimes: a case study in West Iran. Archives of Agronomy and Soil Science, 62(6), 781-789. https://doi.org/10.1080/03650340.2015.1105360.
• Rashid, A, PA Hollington, D Harris, and P Khan (2006). On-farm seed priming for barley on normal, saline and saline–sodic soils in North West Frontier Province, Pakistan, European journal of agronomy, 24: 276-81. https://doi.org/10.1016/j.eja.2005.10.006.
• Rockström, J., Lannerstad, M., & Falkenmark, M (2007). Assessing the water challenge of a new green revolution in developing countries. Proceedings of the National Academy of Sciences, 104(15), 6253-6260. https://doi.org/10.1073/pnas.0605739104.
• San Miguel-Chávez, R, and A Larqué Saavedra (1996). Increased water use efficiency and grain yield by transplanting maize, Drought-and Low N-Tolerant Maize: 179. Sardar, Somanth, Manasi Patra, Bappa Mandal, and BC Patra (2020). An overview on problems and prospects of transplanted maize with special reference to India, Journal of Applied and Natural Science, 12: 59-65. https://doi.org/10.31018/jans.v12i1.2217.
• Sheikh, Tahir Ahmad, and Zahoor Ahmad Dar (2017). Phenology, growth and quality of sweet corn (Zea mays saccharata L.) as influenced by sowing dates and plant spacing, International Journal of Current Microbiology and Applied Sciences, 6: 468-76. https://doi.org/10.20546/ijcmas.2017.608.061.
• Siesler, Heinz W, Yukihiro Ozaki, Satoshi Kawata, and H Michael Heise (2008). Near-infrared spectroscopy: principles, instruments, applications (John Wiley & Sons).
• Sinclair, Thomas R, and Russell C Muchow (1999). Radiation use efficiency, Advances in agronomy, 65: 215-65. https://doi.org/10.1016/S0065-2113(08)60914-1.
• Srivastava, RK, RK Panda, Arun Chakraborty, and Debjani Halder (2018). Enhancing grain yield, biomass and nitrogen use efficiency of maize by varying sowing dates and nitrogen rate under rainfed and irrigated conditions, Field Crops Research, 221: 339-49. https://doi.org/10.1016/j.fcr.2017.06.019.
• ur Rehman, Hafeez, Hassan Iqbal, Shahzad MA Basra, Irfan Afzal, Muhammad Farooq, Abdul Wakeel, and WANG Ning (2015). Seed priming improves early seedling vigor, growth and productivity of spring maize, Journal of Integrative Agriculture, 14: 1745-54. https://doi.org/10.1016/S2095-3119(14)61000-5.
• Waters, Luther, Rhoda L Burrows, Mark A Bennett, and John Schoenecker (1990). Seed moisture and transplant management techniques influence sweet corn stand establishment, growth, development, and yield, Journal of the American Society for Horticultural Science, 115: 888-92. https://doi.org/10.21273/JASHS.115.6.888.